CN102256393B - Waterproof self-heating floor system, and waterproof self-heating floors and self-heating assemblies thereof - Google Patents

Abstract

The invention discloses a waterproof self-heating floor system, comprising waterproof self-heating floors, connecting pieces and a power supply system. The power supply system is a power supply circuit. The quantity of the waterproof self-heating floors can meet the demand on the laying area; each waterproof self-heating floor comprises a floor main body and a self-heating assembly. The front side and the rear side of each floor main body are provided with connecting parts for connecting with the adjacent waterproof self-heating floors through the connecting pieces when the floor main body is used. Each self-heating assembly is a waterproof electric heating assembly. A socket part and a dual-plug part are respectively arranged on two ends of each self-heating assembly; when being used, the socket part is a waterproof connecting part which can be electrically connected in a mutual splicing fixation way and mutually sealed with the dual-plug part of the self-heating assembly of the corresponding adjacent waterproof self-heating floor. All the waterproof self-heating floors in the same row are electrically connected to the power supply circuit in parallel; and each waterproof self-heating floor is an independent heating unit which has no influence on the other units and is safe and reliable during the use.

Description

Water-proof type self-heating floor system and water-proof type self-heating floor and spontaneous heating assembly thereof

Technical field

The present invention relates to the product in a kind of building decoration field, be specifically related to a kind of water-proof type self-heating floor system and water-proof type self-heating floor and spontaneous heating assembly thereof.

Background technology

At present, the self-heating floor form of expression is electric heating floor, and electric heating floor has become a kind of emerging heating mode, and it is that thermo electric material is laid in floor, by thermo electric material, heating makes floor heating.

Chinese patent literature CN1034826C(application number 92114554.3) a kind of electric heating floor is disclosed, this floor is 2 through holes that are provided with horizontal direction in board, heating wire is penetrated in through hole, rub heating wire in order to prevent from being adjacent to the through hole dislocation of plate, the port of through hole adopts horn mouth.For safer, board can add fire proofing, or board adopts wood powder, flake asbestos and suitable amount of adhesive compacting to form.Although the document is not described wiring how to carry out heating wire, but can infer that its heating wire is that block-by-block passes board from above-mentioned " in order to prevent from being adjacent to the through hole dislocation of plate, rubbing heating wire " content, trouble not only is installed, and also can damage heating wire in installation, there is great potential safety hazard, once also have the heating wire in somewhere exactly damage to be arranged and not conducting, all board all can not be generated heat.

Chinese patent literature CN200992793Y(application number 200720002236.4) a kind of " one-piece electrical heating floor system " disclosed, wherein put down in writing: " during installation; floor unit 1 of the present utility model can be stitched together as general floorings; just in a line (floor long side direction) the inside; must realize being electrically connected to crossover sub between the floor unit that head and the tail connect; this line floor is series connection in form, but the electric wire in fact every floorboard is all in parallel." known in conjunction with its independent claims again: in this floor system; the first connector (being also above-mentioned crossover sub) is arranged between end to end floor unit; be one of essential features; again according to the description of its embodiment, can further know described crossover sub is the member that is independent of floor unit.

Find out thus at first, when the installing floor board system, between end to end 2 floor unit, a crossover sub must be arranged, this makes when the installing floor board system, comparatively complicated.

Secondly, in the document, floor unit comprises heat-generating units and transmission unit, and heat-generating units is the electric wire be connected in parallel on transmission unit, and transmission unit and electric wire are arranged on the ground intralamellar part.The document has also been enumerated the 3 kind mounting meanss of electric wire in floor, the first mounting means is, by the mode at the back side, floor fluting, electric wire is laid on wherein, and then compound one or more layers same material or different materials, or directly groove is filled and led up; The second mounting means is to adopt the then method of threading of punching on floor side that electric wire is set; The third mounting means is, electric wire is embedded in floor, for composite floor board, can adopt pre-buried mode.In above-mentioned three kinds of mounting meanss, the wide range that " composite floor board " in the third mode comprises, for example, laminated flooring is exactly a kind of composite floor board that balance ply of paper, density board, decorative paper layer and wear-resisting ply of paper form by hot pressing that is followed successively by from the bottom to top, thereby can't carry out pre-buried to electric wire from this composite floor board of structure, therefore, for the third mounting means of the electric wire in the document, those skilled in the art can't implement.All there is the problem of manufacturing complicated trouble as for the first two mounting means.

Again, the feature that the first plug connector, the second plug connector, plug, the first joint and the second joint are waterproof construction has been proposed in the document, but and the waterproof problem of unresolved entirely plate system.Although the first joint and the second joint have adopted waterproof construction, but do not mention the problem of carrying out waterproof at the connecting portion of these two joints and electric wire that how to solve, do not relate to these two joints at sealing and the waterproof problem everywhere that contact with the floor plate body yet, after a period of time does not switch on to floor system, airborne steam can enter the ground intralamellar part the gap between joint and floor plate body, and condense at the connecting portion of joint and electric wire, if now energising, can produce serious electric leakage, make the tactile device of protecting trip at once, if install to touch protecting device can cause because of the generation of large electric current overheated or even burn floor.

Summary of the invention

The first purpose of the present invention is to overcome the problems referred to above, provides a kind of simple in structure, useful life long and water proofing property preferably for the spontaneous heating assembly of water-proof type self-heating floor.

The second purpose of the present invention is to overcome the problems referred to above, and long and water proofing property of a kind of simple in structure, simple installation, useful life water-proof type self-heating floor preferably is provided.

Simple installation when the 3rd purpose of the present invention is to provide a kind of use, safe, water proofing property is better, even and if in use in floor system certain piece water-proof type self-heating floor damage to work and also can not affect the water-proof type of the normal operation of other water-proof type self-heating floors self-heating floor system.

The basic technical scheme of implementing the first purpose of the present invention is: spontaneous heating assembly of the present invention is the water-proof type electric-heating assembly, comprise transmission unit, electric heating piece, be positioned at two ends, electric heating piece left and right an end receptacle portion and be positioned at the double plug section of the other end at two ends, electric heating piece left and right.

Above-mentioned electric heating piece is 1 to 5, and each sheet electric heating piece be arranged in parallel each other on same plane.Every electric heating piece is that the laminar sealing waterproof type electrothermal device of an electrode is set at the left and right end.Receptacle portion is can mutually peg graft and fixedly be electrically connected to and the mutual waterproof link sealed with the double plug section of corresponding adjacent spontaneous heating assembly while using.Double plug section can mutually peg graft and fixedly be electrically connected to and the mutual waterproof link sealed with the receptacle portion of corresponding adjacent spontaneous heating assembly while using.

Above-mentioned receptacle portion comprises socket base and 2 copper contact pins.The integrated through injection molding part that socket base is the bar shaped bulk, be included on left and right directions and be positioned at inboard Access Division, also be included on left and right directions 2 spliced eye sections that are positioned at the outside, the spliced eye of these 2 spliced eye sections is cylinder blind hole shape substantially, 2 equal openings of spliced eye are towards the outside of left and right directions or a side of the fore-and-aft direction at the protrusion position in the outside of a side of above-below direction or left and right directions, make the axis of 2 spliced eye sections along respective direction, also along left and right directions or along the vertical direction or along the fore-and-aft direction setting.1 in 2 copper contact pins is the live wire copper contact pin, and another 1 is the zero line copper contact pin, and each copper contact pin is arranged in corresponding 1 spliced eye section of socket base, and along the axis setting of described spliced eye section.

Above-mentioned double plug section comprises Plug base and 2 copper sheathings.The integrated through injection molding part that Plug base is the bar shaped bulk, be included on left and right directions and be positioned at inboard Access Division, also is included on left and right directions 2 plugs that are positioned at the outside.The profile of described plug is corresponding with the shape of the spliced eye of the spliced eye section of receptacle portion, and the direction of its axis is identical with the axis direction of the spliced eye section of receptacle portion.1 in 2 copper sheathings is the live wire copper sheathing, and another 1 is the zero line copper sheathing, and each copper sheathing is arranged in corresponding 1 plug of Plug base.

Above-mentioned transmission unit is comprised of water-proof type live wire and water-proof type zero line.The water-proof type live wire is connected electrically between live wire copper contact pin and live wire copper sheathing, and the water-proof type zero line is connected electrically between zero line copper contact pin and zero line copper sheathing.Parallel with one another or series connection between electric heating piece, and the electric heating piece group is connected electrically between water-proof type live wire and water-proof type zero line by the respective electrode of its corresponding electric heating piece.

The device be electrically connected to the live wire copper contact pin of above-mentioned spontaneous heating assembly forms socket side the first electrical connection module.Described socket side the first electrical connection module refers to all devices that directly are electrically connected to the afterbody of live wire copper contact pin, perhaps receptacle portion also comprises the first bronze medal member, and the afterbody of live wire copper contact pin is electrically connected to an end of the first bronze medal member, thereby socket side the first electrical connection module refers to all devices that directly are electrically connected to the other end of the first bronze medal member.

The device be electrically connected to the zero line copper contact pin of above-mentioned spontaneous heating assembly forms socket side the second electrical connection module.Described socket side the second electrical connection module refers to all devices that directly are electrically connected to the afterbody of zero line copper contact pin, or receptacle portion also comprises the second bronze medal member, and an end of the second bronze medal member on the afterbody of zero line copper contact pin is electrically connected to, thereby socket side the second electrical connection module refers to all devices that directly are electrically connected to the other end of the second bronze medal member.

The sidepiece position that is positioned at socket base one side of whole and all the other devices of the corresponding device of described 2 socket side electrical connection modules is jointly as inserts, when the socket base injection moulding of receptacle portion and this socket base form one, and the afterbody of each copper contact pin is covered by the plastic body of socket base, the head of each copper contact pin is arranged in the hole section that connects of corresponding spliced eye section, and is coaxially set with this spliced eye section.

The device be electrically connected to the live wire copper sheathing of above-mentioned spontaneous heating assembly forms plug side the first electrical connection module.Described plug side the first electrical connection module refers to all devices that directly are electrically connected to the afterbody of live wire copper sheathing, perhaps double plug section also comprises the 3rd bronze medal member, and the afterbody of live wire copper sheathing is electrically connected to an end of the 3rd bronze medal member, thereby plug side the first electrical connection module refers to all devices that directly are electrically connected to the other end of the 3rd bronze medal member.

The device be electrically connected to the zero line copper sheathing of above-mentioned spontaneous heating assembly forms plug side the second electrical connection module.Described plug side the second electrical connection module refers to all devices that directly are electrically connected to the afterbody of zero line copper sheathing, perhaps double plug section also comprises the 4th bronze medal member, and the afterbody of zero line copper sheathing is electrically connected to an end of the 4th bronze medal member, thereby plug side the second electrical connection module refers to all devices that directly are electrically connected to the other end of the 4th bronze medal member.

The sidepiece position that is positioned at Plug base one side of whole and all the other devices of the corresponding device of described 2 plug side electrical connection modules is jointly as inserts, when the Plug base injection moulding of double plug section and this Plug base form one, and the afterbody of each copper sheathing is covered by the plastic body of corresponding plug of Plug base and from the outside of left and right directions or a side of the fore-and-aft direction at the protrusion position in the outside of a side of above-below direction or left and right directions with the external world, communicate.

The basic technical scheme of above-mentioned spontaneous heating assembly of take as basic technical scheme is: water-proof type live wire and the water-proof type zero line of the transmission unit of described spontaneous heating assembly are electric wire, and 2 wires are the conductor wire that single copper core outside is coated with the ambroin skin.In 2 wires, what be used as the water-proof type live wire is the first electric wire, and as the water-proof type zero line is the second electric wire.

The receptacle portion of above-mentioned spontaneous heating assembly is positioned at the left side of electric heating piece, and double plug section is positioned at the right side of electric heating piece.The electric heating piece of spontaneous heating assembly has 2, is divided into front side electric heating piece and rear side electric heating piece according to the difference of residing front and back position, and front side electric heating piece and rear side electric heating piece are connected electrically between water-proof type live wire and water-proof type zero line by parallel way.Each electric heating piece includes 1 square strip-shaped conductive heating layer, 2 plate electrode copper sheets, plays the epoxy resin skin that contains glass fibre of insulation isolation and protection effect.Described electrode copper sheet is plane " L " shape copper sheet, by the section of overlaying according to the fore-and-aft direction setting, with linkage section according to the left and right directions setting, is connected and forms.2 plate electrode copper sheets overlay on the left end of conductive heating layer and right-hand member and corresponding to left end electrode copper sheet and right-hand member electrode copper sheet from top by its section of overlaying respectively, and the linkage section of each electrode copper sheet is positioned at the outside of left and right directions.Epoxy resin is outer whole cover be enclosed in conductive heating layer and electrode copper sheet reach up and down surrounding, thereby the outer field part corresponding with the linkage section of electrode copper sheet of epoxy resin becomes the outer field linkage section of epoxy resin, and the linkage section of the outer field linkage section of this epoxy resin and electrode copper sheet forms the linkage section of electric heating piece.In the linkage section of electric heating piece without conductive heating layer, and by machining thereon surface a breach of the part of the linkage section expose the electrode copper sheet is set.Two of the left and right of front side electric heating piece linkage section is positioned at rear side, and two of the left and right of rear side electric heating piece linkage section is positioned at front side.

The live wire copper contact pin of the receptacle portion of above-mentioned spontaneous heating assembly is positioned at the left of front side electric heating piece, and the zero line copper contact pin is positioned at the left of rear side electric heating piece.The live wire copper sheathing of double plug section is positioned at the right-hand of front side electric heating piece, and the zero line copper sheathing is positioned at the right-hand of rear side electric heating piece.

The receptacle portion of above-mentioned spontaneous heating assembly also comprises live wire end conductive copper sheet.Between the upper surface of live wire end conductive copper sheet across the left side linkage section of the upper surface of the left side linkage section at the front side electric heating piece and rear side electric heating piece.The front portion of live wire end conductive copper sheet is positioned at the top at the position of upwards exposing of linkage section of the left end electrode copper sheet of front side electric heating piece, by copper rivet from bottom to top successively through the front portion of the position Nei front side electric heating piece upwards exposed of the linkage section that comprises left end electrode copper sheet and live wire end conductive copper sheet, again both are anchored at together and are electrically connected to.The front end in the place ahead of the left side linkage section that is positioned at the front side electric heating piece of live wire end conductive copper sheet welds together and is electrically connected to the afterbody of live wire copper contact pin, and the tail end of live wire copper contact pin welds together and is electrically connected to the left end of the first electric wire of transmission unit, or the front end in the place ahead of the left side linkage section that is positioned at the front side electric heating piece of live wire end conductive copper sheet is electrically connected to the first bronze medal member, the first bronze medal member is electrically connected to the afterbody of live wire copper contact pin again, and the first bronze medal member welds together and is electrically connected to the left end of the first electric wire of transmission unit.The rear end of live wire end conductive copper sheet is positioned at the top at the position of upwards exposing of linkage section of the left end electrode copper sheet of rear side electric heating piece, by copper rivet from bottom to top successively through the rear end of the rear side electric heating piece at the position of upwards exposing of the linkage section that comprises left end electrode copper sheet and live wire end conductive copper sheet, again both are anchored at together and are electrically connected to.In described structure, related appropriate section has formed socket side the first electrical connection module.

The tail end in right side of the zero line copper contact pin of above-mentioned receptacle portion welds together and is electrically connected to the left end of the second electric wire, or the tail end in right side of zero line copper contact pin is electrically connected to the second bronze medal member, the second bronze medal member welds together and is electrically connected to the left end of the second electric wire again.In described structure, related appropriate section has formed socket side the second electrical connection module.

Socket side the first electrical connection module described above and socket side the second electrical connection module divide front and back as the front and back inserts, when the socket base injection moulding of receptacle portion and this socket base form one, and afterbody, live wire end conductive copper sheet, the left side of front side electric heating piece, the left side of rear side electric heating piece, the left end of the first electric wire and the left end of the second electric wire of the afterbody of live wire copper contact pin, zero line copper contact pin all are insulated and are sealed in socket base.And the head of live wire copper contact pin is arranged in the spliced eye of front side spliced eye section, and be coaxially set with front side spliced eye section.The head of zero line copper contact pin is arranged in the spliced eye of rear side spliced eye section, and is coaxially set with rear side spliced eye section.

The tail end in left side of the live wire copper sheathing of above-mentioned double plug section welds together and is electrically connected to the right-hand member of the first electric wire, or the tail end in left side of live wire copper sheathing is electrically connected to the 3rd bronze medal member, the 3rd bronze medal member welds together and is electrically connected to the right-hand member of the first electric wire again.In described structure, related appropriate section has formed plug side the first electrical connection module.

Above-mentioned double plug section also comprises the zero line side conductive copper sheet.Between the upper surface of the zero line side conductive copper sheet of double plug section across the right side linkage section of the upper surface of the right side linkage section at the front side electric heating piece and rear side electric heating piece.The front end of zero line side conductive copper sheet is positioned at the top at the position of upwards exposing of linkage section of the right-hand member electrode copper sheet of front side electric heating piece, by copper rivet from bottom to top successively through the front end of the position Nei front side electric heating piece upwards exposed of the linkage section that comprises right-hand member electrode copper sheet and zero line side conductive copper sheet, again both are anchored at together and are electrically connected to.The rear portion of zero line side conductive copper sheet is positioned at the top at the position of upwards exposing of linkage section of the right-hand member electrode copper sheet of rear side electric heating piece, by copper rivet from bottom to top successively through the rear portion of the rear side electric heating piece at the position of upwards exposing of the linkage section that comprises right-hand member electrode copper sheet and zero line side conductive copper sheet and both anchorings are electrically connected to.The rear end at the rear of the right side linkage section that is positioned at the rear side electric heating piece of zero line side conductive copper sheet welds together and is electrically connected to the afterbody of zero line copper sheathing, and the tail end of zero line copper sheathing welds together and is electrically connected to the right-hand member of the second electric wire of transmission unit, the bending of prolongation to the right that perhaps the zero line copper sheathing is set up by the rear end of zero line side conductive copper sheet forms, and the rear end of zero line side conductive copper sheet also welds together and is electrically connected to the right-hand member of the second electric wire of transmission unit, or left section of the prolongation to the right set up of the rear end of zero line side conductive copper sheet is as the 4th bronze medal member, this right section bending of prolongation to the right forms the zero line copper sheathing, and the rear end of zero line side conductive copper sheet also welds together and is electrically connected to the right-hand member of the second electric wire of transmission unit.The appropriate section reached described in described structure has formed plug side the second electrical connection module.

Before and after above-mentioned plug side the first electrical connection module and plug side the second electrical connection module divide as the front and back inserts when the Plug base injection moulding of double plug section with this Plug base formation one, and afterbody, zero line side conductive copper sheet, the right side of front side electric heating piece, the right side of rear side electric heating piece, the right-hand member of the first electric wire and the right-hand member of the second electric wire of the afterbody of live wire copper sheathing, zero line copper sheathing all are sealed in Plug base.And the head of live wire copper sheathing is arranged in the front side plug, is coaxially set with the front side plug and communicates with the external world towards direction from the front side plug.The head of zero line copper sheathing is arranged in the rear side plug, is coaxially set with the rear side plug and communicates with the external world towards direction from the rear side plug.

The basic technical scheme of above-mentioned spontaneous heating assembly of take also has as basic technical scheme: the receptacle portion of described spontaneous heating assembly is positioned at the left side of electric heating piece, and double plug section is positioned at the right side of electric heating piece.The electric heating piece of spontaneous heating assembly has 2, is divided into front side electric heating piece and rear side electric heating piece according to the difference of residing front and back position, and front side electric heating piece and rear side electric heating piece are connected electrically between water-proof type live wire and water-proof type zero line by parallel way.Each electric heating piece includes 1 square strip-shaped conductive heating layer, 2 plate electrode copper sheets, plays the epoxy resin skin that contains glass fibre of insulation isolation and protection effect.Described electrode copper sheet is plane " L " shape copper sheet, by the linkage section of the section of overlaying of fore-and-aft direction and left and right directions, is connected and is formed.2 plate electrode copper sheets overlay on the left end of conductive heating layer and right-hand member and corresponding to left end electrode copper sheet and right-hand member electrode copper sheet from top by its section of overlaying respectively, and the linkage section of each electrode copper sheet is positioned at the outside of left and right directions.What the outer integral body of epoxy resin covered conductive heating layer and electrode copper sheet reaches surrounding up and down, thereby the outer field part corresponding with the linkage section of electrode copper sheet of epoxy resin becomes the outer field linkage section of epoxy resin, and the linkage section of the outer field linkage section of this epoxy resin and electrode copper sheet forms the linkage section of electric heating piece.In the linkage section of electric heating piece without conductive heating layer, and by machining thereon surface a breach of the part of the linkage section expose the electrode copper sheet is set.Two of the left and right of front side electric heating piece linkage section is positioned at rear side, and two of the left and right of rear side electric heating piece linkage section is positioned at front side.

The live wire copper contact pin of the receptacle portion of above-mentioned spontaneous heating assembly is positioned at the left of front side electric heating piece, and the zero line copper contact pin is positioned at the left of rear side electric heating piece.The live wire copper sheathing of double plug section is positioned at the right-hand of front side electric heating piece, and the zero line copper sheathing is positioned at the right-hand of rear side electric heating piece.

The water-proof type live wire of the transmission unit of above-mentioned spontaneous heating assembly and water-proof type zero line include 2 copper sheets for conduction, aluminium foil and polyvinyl chloride thin plate.Each conduction is fixed on the lower surface of electric heating piece from below with copper sheet, and is coated with conducting resinl on the lower surface of each conduction with copper sheet.The shape of aluminium foil is identical with the shape of the strip-shaped conductive heating layer of electric heating piece, be positioned at the below of electric heating piece, and shelter from the strip-shaped conductive heating layer from below, and the upper surface of the left and right end of aluminium foil is electrically connected to copper sheet with corresponding conduction.The polyvinyl chloride thin plate covers from below and is bonded and fixed at aluminium foil and is positioned on the lower surface of electric heating piece of aluminium foil surrounding by PUR is airtight.

The aluminium foil of described water-proof type live wire is the live wire aluminium foil.2 conduction copper sheets of described water-proof type live wire are the live wire copper sheet, and the live wire copper sheet is divided into left side live wire copper sheet and right side live wire copper sheet according to the difference of position, residing left and right.The middle part of left side live wire copper sheet is provided with extension left, the tail end of live wire copper contact pin is welded on the extension left of left side live wire copper sheet, or right section of the extension left of left side live wire copper sheet as the first bronze medal member, this left the left section tail end with the live wire copper contact pin of extension weld together, thereby make the live wire copper contact pin be electrically connected to left side live wire copper sheet.The middle part of right side live wire copper sheet is provided with extension to the right, the tail end of live wire copper sheathing is welded on the extension to the right of right side live wire copper sheet and makes the live wire copper sheathing be electrically connected to right side live wire copper sheet, perhaps the live wire copper sheathing is made in the direct bending in extension to the right of right side live wire copper sheet, or left section of the extension to the right of right side live wire copper sheet be as the 3rd bronze medal member, the live wire copper sheathing is made in this right section bending of extension to the right.

The aluminium foil of described water-proof type zero line is the zero line aluminium foil.2 conduction copper sheets of described water-proof type zero line are the zero line copper sheet, and the zero line copper sheet is divided into left side zero line copper sheet and right side zero line copper sheet according to the difference of position, residing left and right.The middle part of left side zero line copper sheet is provided with extension left, the tail end of zero line copper contact pin is welded on the extension left of left side zero line copper sheet, or right section of the extension left of left side zero line copper sheet as the second bronze medal member, this left the left section tail end with the zero line copper contact pin of extension weld together, thereby make the zero line copper contact pin be electrically connected to left side zero line copper sheet.The middle part of right side zero line copper sheet is provided with extension to the right, the tail end of zero line copper sheathing is welded on the extension to the right of right side zero line copper sheet and makes the zero line copper sheathing be electrically connected to right side zero line copper sheet, perhaps the zero line copper sheathing is made in the direct bending in extension to the right of right side zero line copper sheet, or left section of the extension to the right of right side zero line copper sheet be as the 4th bronze medal member, the zero line copper sheathing is made in this right section bending of extension to the right.

The receptacle portion of above-mentioned spontaneous heating assembly also comprises live wire end conductive copper sheet.Between the upper surface of live wire end conductive copper sheet across the left side linkage section of the upper surface of the left side linkage section at the front side electric heating piece and rear side electric heating piece.The front end of live wire end conductive copper sheet is positioned at the top at the position of upwards exposing of linkage section of the left end electrode copper sheet of front side electric heating piece, the rear end of the left side live wire copper sheet of water-proof type live wire is positioned at the below of linkage section of the left end electrode copper sheet of front side electric heating piece,, then the three is anchored at together and is electrically connected to from bottom to top successively through the left side live wire copper sheet of water-proof type live wire, the position Nei front side electric heating piece upwards exposed of linkage section that comprises left end electrode copper sheet and the front end of live wire end conductive copper sheet by copper rivet.The rear end of live wire end conductive copper sheet is positioned at the top at the position of upwards exposing of linkage section of the left end electrode copper sheet of rear side electric heating piece, by copper rivet from bottom to top successively through the rear end of the rear side electric heating piece at the position of upwards exposing of the linkage section that comprises left end electrode copper sheet and live wire end conductive copper sheet, again both are anchored at together and are electrically connected to.Described structure has formed socket side the first electrical connection module together with the live wire copper contact pin or with related appropriate section in the electrical connection of the left side live wire copper sheet of the live wire copper contact pin of the first bronze medal member and water-proof type live wire and live wire aluminium foil.

Above-mentioned zero line copper contact pin or formed socket side the second electrical connection module with related appropriate section in the electrical connection of the left side zero line copper sheet of the zero line copper contact pin of the second bronze medal member and water-proof type zero line and zero line aluminium foil.

Before and after described socket side the first electrical connection module and socket side the second electrical connection module divide as the front and back inserts when the socket base injection moulding of receptacle portion with this socket base formation one, and the afterbody of live wire copper contact pin, the afterbody of zero line copper contact pin, live wire end conductive copper sheet, the left side of front side electric heating piece, the left side of rear side electric heating piece, the left-hand portion of the left side live wire copper sheet of water-proof type live wire and the left-hand portion of live wire aluminium foil and corresponding polyvinyl chloride thin plate, the left-hand portion of the left side zero line copper sheet of water-proof type zero line and the left-hand portion of zero line aluminium foil and corresponding polyvinyl chloride thin plate all is insulated and is sealed in socket base, the head of live wire copper contact pin is arranged in the spliced eye of front side spliced eye section, and spliced eye section is coaxially set with front side, the head of zero line copper contact pin is arranged in the spliced eye of rear side spliced eye section, and section is coaxially set with the rear side spliced eye.

The live wire copper sheathing of the double plug section of above-mentioned spontaneous heating assembly or formed plug side the first electrical connection module with related appropriate section in the electrical connection of the right side live wire copper sheet of the live wire copper sheathing of the 3rd bronze medal member and water-proof type live wire and live wire aluminium foil.

Above-mentioned double plug section also comprises the zero line side conductive copper sheet.Between the upper surface of zero line side conductive copper sheet across the right side linkage section of the upper surface of the right side linkage section at the front side electric heating piece and rear side electric heating piece.The front end of zero line side conductive copper sheet is positioned at the top at the position of upwards exposing of linkage section of the right-hand member electrode copper sheet of front side electric heating piece, by copper rivet from bottom to top successively through the front end of the position Nei front side electric heating piece upwards exposed of the linkage section that comprises right-hand member electrode copper sheet and zero line side conductive copper sheet, again both are anchored at together and are electrically connected to.The rear end of zero line side conductive copper sheet is positioned at the top at the position of upwards exposing of the linkage section that is positioned at right-hand member electrode copper sheet of rear side electric heating piece, the rear end of the right side zero line copper sheet of water-proof type zero line is positioned at the below of linkage section of the right-hand member electrode copper sheet of rear side electric heating piece,, then the three is anchored at together and is electrically connected to from bottom to top successively through the right side live wire copper sheet of water-proof type zero line, the rear side electric heating piece at the position of upwards exposing of linkage section that comprises right-hand member electrode copper sheet and the front end of zero line side conductive copper sheet by copper rivet.Described structure has formed plug side the second electrical connection module together with the zero line copper sheathing or with related appropriate section in the electrical connection of the right side zero line copper sheet of the zero line copper sheathing of the 4th bronze medal member and water-proof type zero line and zero line aluminium foil.

Before and after described plug side the first electrical connection module and plug side the second electrical connection module divide as the front and back inserts when the Plug base injection moulding of double plug section with this Plug base formation one, and live wire copper sheathing afterbody, the afterbody of zero line copper sheathing, the zero line side conductive copper sheet, the right side of front side electric heating piece, the right side of rear side electric heating piece, the position, right side of the right side zero line copper sheet of water-proof type zero line and the position, right side of zero line aluminium foil and corresponding polyvinyl chloride thin plate, the position, right side of the right side live wire copper sheet of water-proof type live wire and the position, right side of live wire aluminium foil and corresponding polyvinyl chloride thin plate all is sealed in Plug base.And the head of live wire copper sheathing is arranged in the front side plug, is coaxially set with the front side plug and communicates with the external world towards direction from the front side plug.The head of zero line copper sheathing is arranged in the rear side plug, is coaxially set with the rear side plug and communicates with the external world towards direction from the rear side plug.

The basic technical scheme of above-mentioned spontaneous heating assembly of take also has as basic technical scheme: the receptacle portion of described spontaneous heating assembly is positioned at the left side of electric heating piece, and double plug section is positioned at the right side of electric heating piece.The electric heating piece of spontaneous heating assembly has 2, is divided into front side electric heating piece and rear side electric heating piece according to the difference of residing front and back position, and front side electric heating piece and rear side electric heating piece are connected electrically between water-proof type live wire and water-proof type zero line according to series system.Each electric heating piece includes 1 square strip-shaped conductive heating layer, 2 plate electrode copper sheets, plays the epoxy resin skin that contains glass fibre of insulation isolation and protection effect.Described electrode copper sheet is plane " L " shape copper sheet, by the linkage section of the section of overlaying of fore-and-aft direction and left and right directions, is connected and is formed.2 plate electrode copper sheets overlay on the left end of conductive heating layer and right-hand member and corresponding to left end electrode copper sheet and right-hand member electrode copper sheet from top by its section of overlaying respectively, and the linkage section of each electrode copper sheet is positioned at the outside of left and right directions.What the outer integral body of epoxy resin covered conductive heating layer and electrode copper sheet reaches surrounding up and down, thereby the outer field part corresponding with the linkage section of electrode copper sheet of epoxy resin becomes the outer field linkage section of epoxy resin, and the linkage section of the outer field linkage section of this epoxy resin and electrode copper sheet forms the linkage section of electric heating piece.In the linkage section of electric heating piece without conductive heating layer, and by machining thereon surface a breach of the part of the linkage section expose the electrode copper sheet is set, then this breach is arranged to solder joint.Two of the left and right of front side electric heating piece linkage section is positioned at rear side, and two of the left and right of rear side electric heating piece linkage section is positioned at front side.

The live wire copper contact pin of the receptacle portion of above-mentioned spontaneous heating assembly is positioned at the left of front side electric heating piece, and the zero line copper contact pin is positioned at the left of rear side electric heating piece.The live wire copper sheathing of double plug section is positioned at the right-hand of front side electric heating piece, and the zero line copper sheathing is positioned at the right-hand of rear side electric heating piece.

The water-proof type live wire of the transmission unit of above-mentioned spontaneous heating assembly and water-proof type zero line include the polyvinyl chloride thin plate and are called the copper strips for conduction of conducting copper belt.Each conducting copper belt is bonded and fixed on the lower surface of corresponding a slice electric heating piece along the left and right directions of electric heating piece, and the polyvinyl chloride thin plate covers from below and is bonded and fixed at conducting copper belt and is positioned on the lower surface of electric heating piece of conducting copper belt surrounding by PUR is airtight.The conducting copper belt of described water-proof type live wire is the live wire copper strips.The conducting copper belt of water-proof type zero line is the zero line copper strips.

The tail end in right side of the live wire copper contact pin of the receptacle portion of above-mentioned spontaneous heating assembly is welded on the extension left of live wire copper strips of water-proof type live wire and mutually is electrically connected to, or the extension left of live wire copper strips is simultaneously as the first bronze medal member.In this structure, related appropriate section has formed socket side the first electrical connection module.

The tail end in right side of the zero line copper contact pin of above-mentioned receptacle portion is welded on the extension left of zero line copper strips of water-proof type zero line and mutually is electrically connected to, or the extension left of zero line copper strips is simultaneously as the second bronze medal member.In this structure, related appropriate section has formed socket side the second electrical connection module.

Above-mentioned spontaneous heating assembly also comprises the series connection device, and this series connection device is copper conductor, bar shaped copper sheet, temperature detect switch (TDS) or resettable fuse.A corresponding end of described series connection device is welded and fixed with the scolder of the solder joint at the linkage section place of the left end electrode copper sheet of front side electric heating piece and makes the left end electrode copper sheet of front side electric heating piece be electrically connected to a corresponding end of the device of connecting.The other end of series connection device is welded and fixed with the scolder of the solder joint at the linkage section place of the left end electrode copper sheet of rear side electric heating piece and makes the left end electrode copper sheet of rear side electric heating piece be electrically connected to the other end of the device of connecting.This structure has formed socket side the 3rd electrical connection module.

Above-mentioned socket side the first electrical connection module, the second electrical connection module and the 3rd electrical connection module form the socket side electrical connection module jointly.This electrical connection module when the socket base injection moulding of receptacle portion and this socket base form one, and the afterbody of live wire copper contact pin, the afterbody of zero line copper contact pin, the left end position of water-proof type live wire, the left end position of water-proof type zero line, temperature detect switch (TDS), the left end position of front side electric heating piece and the left end position of rear side electric heating piece all are insulated and are sealed in socket base, the head of live wire copper contact pin is arranged in the spliced eye of front side spliced eye section, and spliced eye section is coaxially set with front side, the head of zero line copper contact pin is arranged in the spliced eye of rear side spliced eye section, and section is coaxially set with the rear side spliced eye.

The double plug section of above-mentioned spontaneous heating assembly also comprises 2 U-shaped connectors being made by copper sheet.These 2 U-shaped connectors are different according to the copper strips from connected, are divided into live wire end connection and zero line side connector.

The live wire end connection of above-mentioned double plug section, then is turned down forwards, backwards respectively and makes the live wire end connection be electrically connected to the live wire copper strips respectively from bottom to top through the blank position of live wire copper strips and front side electric heating piece right-hand member by two pin.The rear end of the inverted sections of the pin that is positioned at rear side of live wire end connection is welded and fixed and makes the live wire end connection be electrically connected to the right-hand member electrode copper sheet of front side electric heating piece with the scolder of the solder joint at the linkage section place of the right-hand member electrode copper sheet of front side electric heating piece.The middle part of live wire end connection is provided with extension to the right, the tail end of live wire copper sheathing is welded on the extension to the right of live wire end connection, perhaps the live wire copper sheathing is made in the direct bending in extension to the right of live wire end connection, perhaps the extension to the right of live wire end connection is directly as the 3rd bronze medal member, thereby makes the live wire end connection be electrically connected to the live wire copper sheathing.In described structure, related appropriate section has formed plug side the first electrical connection module.

The zero line side connector of above-mentioned double plug section, then is turned down forwards, backwards respectively and makes the zero line side connector be electrically connected to the zero line copper strips respectively from bottom to top through the blank position of zero line copper strips and rear side electric heating piece right-hand member by two pin.The front end of the inverted sections of the pin that is positioned at front side of zero line side connector is welded and fixed and makes the zero line side connector be electrically connected to the right-hand member electrode copper sheet of rear side electric heating piece with the scolder of the solder joint at the linkage section place of the right-hand member electrode copper sheet of rear side electric heating piece.The middle part of zero line side connector is provided with extension to the right, the tail end of zero line copper sheathing is welded on the extension to the right of zero line side connector, perhaps the zero line copper sheathing is made in the direct bending in extension to the right of zero line side connector, perhaps the extension to the right of zero line side connector is directly as the 4th bronze medal member, thereby makes the zero line side connector be electrically connected to the zero line copper sheathing.In described structure, related appropriate section has formed plug side the second electrical connection module.

Before and after above-mentioned plug side the first electrical connection module and the second electrical connection module divide as the front and back inserts when the Plug base injection moulding of double plug section with this Plug base formation one, and live wire copper sheathing afterbody, the afterbody of zero line copper sheathing, the right-hand member position of water-proof type live wire, the right-hand member position of water-proof type zero line, the right-hand member position of front side electric heating piece and the right-hand member position of rear side electric heating piece all are insulated and are sealed in Plug base.And the head of live wire copper sheathing is arranged in the front side plug, is coaxially set with the front side plug and communicates with the external world towards direction from the front side plug.The head of zero line copper sheathing is arranged in the rear side plug, is coaxially set with the rear side plug and communicates with the external world towards direction from the rear side plug.

The basic technical scheme of above-mentioned spontaneous heating assembly of take also has as basic technical scheme: the receptacle portion of spontaneous heating assembly is positioned at the left side of electric heating piece, and double plug section is positioned at the right side of electric heating piece.

The Access Division of the socket base of the receptacle portion of above-mentioned spontaneous heating assembly is included in protuberance and the inserting groove from inside to outside arranged successively on left and right directions.Protuberance is divided into upper protuberance and lower protuberance by the difference of its residing upper-lower position, inserting groove is divided into upper inserting groove and lower inserting groove according to the difference of residing upper-lower position.The Access Division of the Plug base of the double plug section of spontaneous heating assembly is included in protuberance and the inserting groove from inside to outside arranged successively on left and right directions.Protuberance is divided into upper protuberance and lower protuberance by the difference of its residing upper-lower position, inserting groove is divided into and is called upper inserting groove and lower inserting groove according to the difference of residing upper-lower position.When the axis of the spliced eye section of the socket base of the receptacle portion of spontaneous heating assembly arranges along left and right directions, the shape of copper contact pin is shape linearly, and the shape of the copper sheathing of double plug section is shape linearly also, and the axis of the plug of Plug base is also along the left and right directions setting.

When the axis of the spliced eye section of the socket base of the receptacle portion of above-mentioned spontaneous heating assembly arranges along fore-and-aft direction, receptacle portion also comprises the first bronze medal member and the second bronze medal member.Live wire copper contact pin and zero line copper contact pin all a direction in fore-and-aft direction arrange in the same way, and the spliced eye of spliced eye section towards with copper contact pin towards identical, the first bronze medal member and the second bronze medal member are all along the left and right directions setting.The outside left at left and right directions of the spliced eye section of the socket base of receptacle portion is the first outwardly inserted block position, socket base with the adjacent position towards upper spliced eye section, is provided with the first slot position.Double plug section also comprises the 3rd bronze medal member and the 4th bronze medal member.The live wire copper sheathing of double plug section and zero line copper sheathing all arrange in the same way along another direction in fore-and-aft direction, this another direction and copper contact pin towards relative, and plug towards with copper sheathing towards identical, the 3rd bronze medal member and the 4th bronze medal member are all along the left and right directions setting.The outside left at left and right directions of the plug of the Plug base of double plug section is the second outwardly inserted block position, Plug base with the adjacent position towards upper plug, is provided with the second slot position.

The basic technical scheme of above-mentioned spontaneous heating assembly of take also has as basic technical scheme: the receptacle portion of described spontaneous heating assembly is positioned at the left side of electric heating piece, and double plug section is positioned at the right side of electric heating piece.

The axis of the spliced eye section of the socket base of the receptacle portion of above-mentioned spontaneous heating assembly arranges along the vertical direction, and receptacle portion also comprises the first bronze medal member and the second bronze medal member.Live wire copper contact pin and zero line copper contact pin be the same direction in above-below direction all, and the spliced eye of spliced eye section towards with copper contact pin towards identical, the first bronze medal member and the second bronze medal member are all along the left and right directions setting.Double plug section also comprises the 3rd bronze medal member and the 4th bronze medal member.The live wire copper sheathing of double plug section and zero line copper sheathing be the direction of another in above-below direction all, this another direction and copper contact pin towards relative, and plug towards with copper sheathing towards identical, the 3rd bronze medal member and the 4th bronze medal member are all along the left and right directions setting.

The Access Division of the socket base of the receptacle portion of above-mentioned spontaneous heating assembly is included in protuberance and the inserting groove from inside to outside arranged successively on left and right directions.Protuberance is divided into upper protuberance and lower protuberance by the difference of its residing upper-lower position, inserting groove is divided into upper inserting groove and lower inserting groove according to the difference of residing upper-lower position.The Access Division of the Plug base of the double plug section of spontaneous heating assembly is included in protuberance and the inserting groove from inside to outside arranged successively on left and right directions.Protuberance is divided into upper protuberance and lower protuberance by the difference of its residing upper-lower position, inserting groove is divided into and is called upper inserting groove and lower inserting groove according to the difference of residing upper-lower position.

Each appropriate technical solution of above-mentioned spontaneous heating assembly of take has as basic technical scheme: the Access Division of the socket base of the receptacle portion of described spontaneous heating assembly is included in protuberance and the inserting groove from inside to outside arranged successively on left and right directions.Protuberance is divided into upper protuberance and lower protuberance by the difference of its residing upper-lower position, inserting groove is divided into upper inserting groove and lower inserting groove according to the difference of residing upper-lower position.The Access Division of the Plug base of the double plug section of spontaneous heating assembly is included in protuberance and the inserting groove from inside to outside arranged successively on left and right directions.Protuberance is divided into upper protuberance and lower protuberance by the difference of its residing upper-lower position, inserting groove is divided into and is called upper inserting groove and lower inserting groove according to the difference of residing upper-lower position.

When the axis of the spliced eye section of the socket base of the receptacle portion of above-mentioned spontaneous heating assembly arranges along left and right directions, the shape of copper contact pin is shape linearly, and the shape of the copper sheathing of double plug section is shape linearly also, and the axis of the plug of Plug base is also along the left and right directions setting.

When the axis of the spliced eye section of the socket base of the receptacle portion of above-mentioned spontaneous heating assembly arranges along fore-and-aft direction, receptacle portion also comprises the first bronze medal member and the second bronze medal member.Live wire copper contact pin and zero line copper contact pin all a direction in fore-and-aft direction arrange in the same way, and the spliced eye of spliced eye section towards with copper contact pin towards identical, the first bronze medal member and the second bronze medal member are all along the left and right directions setting.The outside left at left and right directions of the spliced eye section of the socket base of receptacle portion is the first outwardly inserted block position, socket base with the adjacent position towards upper spliced eye section, is provided with the first slot position.Double plug section also comprises the 3rd bronze medal member and the 4th bronze medal member.The live wire copper sheathing of double plug section and zero line copper sheathing all arrange in the same way along another direction in fore-and-aft direction, this another direction and copper contact pin towards relative, and plug towards with copper sheathing towards identical, the 3rd bronze medal member and the 4th bronze medal member are all along the left and right directions setting.The outside left at left and right directions of the plug of the Plug base of double plug section is the second outwardly inserted block position, Plug base with the adjacent position towards upper plug, is provided with the second slot position.

Each appropriate technical solution of above-mentioned spontaneous heating assembly of take also has as basic technical scheme: the axis of the spliced eye section of the socket base of the receptacle portion of above-mentioned spontaneous heating assembly arranges along the vertical direction, and receptacle portion also comprises the first bronze medal member and the second bronze medal member.Live wire copper contact pin and zero line copper contact pin be the same direction in above-below direction all, and the spliced eye of spliced eye section towards with copper contact pin towards identical, the first bronze medal member and the second bronze medal member are all along the left and right directions setting.Double plug section also comprises the 3rd bronze medal member and the 4th bronze medal member.The live wire copper sheathing of double plug section and zero line copper sheathing be the direction of another in above-below direction all, this another direction and copper contact pin towards relative, and plug towards with copper sheathing towards identical, the 3rd bronze medal member and the 4th bronze medal member are all along the left and right directions setting.

The basic technical scheme of above-mentioned spontaneous heating assembly of take also has as basic technical scheme: the Access Division of the socket base of the receptacle portion of described spontaneous heating assembly is included in protuberance and the inserting groove from inside to outside arranged successively on left and right directions.Protuberance is divided into upper protuberance and lower protuberance by the difference of its residing upper-lower position, inserting groove is divided into upper inserting groove and lower inserting groove according to the difference of residing upper-lower position.The Access Division of the Plug base of the double plug section of spontaneous heating assembly is included in protuberance and the inserting groove from inside to outside arranged successively on left and right directions.Protuberance is divided into upper protuberance and lower protuberance by the difference of its residing upper-lower position, inserting groove is divided into and is called upper inserting groove and lower inserting groove according to the difference of residing upper-lower position.

The basic technical scheme of above-mentioned spontaneous heating assembly of take also has as basic technical scheme: described spontaneous heating assembly also comprises locating piece.Locating piece has 4, and each locating piece includes main part, dovetail and positioning boss.The cross sectional shape of the main part of locating piece is identical with the cross sectional shape of the socket base of receptacle portion.Dovetail is corresponding with the dovetail groove of receptacle portion.

The socket base rear and front end along continuous straight runs of above-mentioned receptacle portion is provided with dovetail groove, and dovetail groove is divided into the first dovetail groove and the second dovetail groove by its residing front and back position.

The Plug base rear and front end along continuous straight runs of above-mentioned double plug section is provided with dovetail groove, and dovetail groove is divided into the first dovetail groove and the second dovetail groove by its residing front and back position.The first dovetail groove of the first dovetail groove of receptacle portion and the second dovetail groove and double plug section is all identical with the structure of the second dovetail groove.During use, in the first dovetail groove, the second dovetail groove that 4 locating pieces are inserted to the first dovetail groove, the second dovetail groove and the double plug section of corresponding receptacle portion by dovetail separately respectively.

All be provided with successively from outside to inside cross section on the inwall of 2 spliced eyes of the socket base of above-mentioned receptacle portion and be the first arc seal groove and the second seal groove.

The cross section that 2 plugs of the Plug base of above-mentioned double plug section all are provided with from inside to outside successively as the first plug Access Division and the second plug Access Division is arc annular protrusion position.And the first plug Access Division is corresponding with the first seal groove of the spliced eye of the socket base of receptacle portion, the second plug Access Division is corresponding with the second seal groove of the spliced eye of the socket base of receptacle portion.

The basic technical scheme of above-mentioned spontaneous heating assembly of take also has as basic technical scheme: the receptacle portion of described spontaneous heating assembly also comprises 2 blocked hole sections, and 2 blocked hole sections are divided into the first blocked hole section and the second blocked hole section by the difference of its residing front and back position.The first blocked hole section and the second blocked hole section are the position that is provided with L-shaped hole, cross section, an opening in the hole of its described " L " shape left, another opening upwards.The double plug section of spontaneous heating assembly also comprises 2 blocked hole sections.These 2 blocked hole sections are divided into the 3rd blocked hole section and the 4th blocked hole section by the difference of its residing front and back position.The 3rd blocked hole section and the 4th blocked hole section are the position that is provided with L-shaped hole, cross section, an opening in the hole of its described " L " shape to the right, another opening upwards.

The basic technical scheme of implementing the second purpose of the present invention is: water-proof type self-heating floor of the present invention comprises floor main body and spontaneous heating assembly, the floor main body comprises upper body and base plate, and the floor main body is bonded and fixed at by the lower surface of upper body on the upper surface of base plate and forms.The floor main body is provided with the connecting portion for being connected with adjacent water-proof type self-heating floor while using in the both sides, front and back.It is characterized in that:

The left and right sides of described floor main body is equipped with the electrical connectors that supplies that belongs to the spontaneous heating assembly.Upper body each side be provided with 1 grafting limiting section, 2 grafting limiting sections are divided into left grafting limiting section and right grafting limiting section according to the difference of position, residing left and right.2 the grafting limiting sections in left and right all run through the upper body on floor along the short side direction on floor.

The left and right sides of above-mentioned base plate also respectively is provided with 1 grafting support portion corresponding with the grafting limiting section of upper body.2 grafting support portions are divided into left grafting support portion and right grafting support portion according to position, residing left and right difference.The short side direction on Jun Yan floor, 2 grafting support portions runs through base plate.The upper surface of the middle part of base plate is provided with upper grooves along left and right directions.

Above-mentioned spontaneous heating assembly is the water-proof type electric-heating assembly, comprise transmission unit, electric heating piece, be positioned at two ends, electric heating piece left and right an end receptacle portion and be positioned at the double plug section of the other end at two ends, electric heating piece left and right.The floor main body is all exposed from the outside of left and right directions or a side of above-below direction by receptacle portion and double plug section.

Above-mentioned electric heating piece is 1 to 5, and each sheet electric heating piece be arranged in parallel each other on same plane.Every electric heating piece is that the laminar sealing waterproof type electrothermal device of an electrode is set at the left and right end.Receptacle portion is can mutually peg graft and fixedly be electrically connected to and the mutual waterproof link sealed with the double plug section of the spontaneous heating assembly of corresponding adjacent water-proof type self-heating floor while using.Double plug section can mutually peg graft and fixedly be electrically connected to and the mutual waterproof link sealed with the receptacle portion of the spontaneous heating assembly of corresponding adjacent water-proof type self-heating floor while using.

Above-mentioned receptacle portion comprises socket base and 2 copper contact pins.The integrated through injection molding part that socket base is the bar shaped bulk, be included on left and right directions and be positioned at inboard Access Division, also be included on left and right directions 2 spliced eye sections that are positioned at the outside, the spliced eye of these 2 spliced eye sections is cylinder blind hole shape substantially, 2 equal openings of spliced eye are towards the outside of left and right directions or a side of the fore-and-aft direction at the protrusion position in the outside of a side of above-below direction or left and right directions, make the axis of 2 spliced eye sections along respective direction, also along left and right directions or along the vertical direction or along the fore-and-aft direction setting.1 in 2 copper contact pins is the live wire copper contact pin, and another 1 is the zero line copper contact pin, and each copper contact pin is arranged in corresponding 1 spliced eye section of socket base, and along the axis setting of described spliced eye section.

Above-mentioned double plug section comprises Plug base and 2 copper sheathings.The integrated through injection molding part that Plug base is the bar shaped bulk, be included on left and right directions and be positioned at inboard Access Division, also is included on left and right directions 2 plugs that are positioned at the outside.The profile of described plug is corresponding with the shape of the spliced eye of the spliced eye section of receptacle portion, and the direction of its axis is identical with the axis direction of the spliced eye section of receptacle portion.1 in 2 copper sheathings is the live wire copper sheathing, and another 1 is the zero line copper sheathing, and each copper sheathing is arranged in corresponding 1 plug of Plug base.

Above-mentioned transmission unit is comprised of water-proof type live wire and water-proof type zero line.The water-proof type live wire is connected electrically between live wire copper contact pin and live wire copper sheathing, and the water-proof type zero line is connected electrically between zero line copper contact pin and zero line copper sheathing.Parallel with one another or series connection between electric heating piece, and the electric heating piece group is connected electrically between water-proof type live wire and water-proof type zero line by the respective electrode of its corresponding electric heating piece.

The device be electrically connected to the live wire copper contact pin of above-mentioned spontaneous heating assembly forms socket side the first electrical connection module.Described socket side the first electrical connection module refers to all devices that directly are electrically connected to the afterbody of live wire copper contact pin, perhaps receptacle portion also comprises the first bronze medal member, and the afterbody of live wire copper contact pin is electrically connected to an end of the first bronze medal member, thereby socket side the first electrical connection module refers to all devices that directly are electrically connected to the other end of the first bronze medal member.

The device be electrically connected to the zero line copper contact pin of above-mentioned spontaneous heating assembly forms socket side the second electrical connection module.Described socket side the second electrical connection module refers to all devices that directly are electrically connected to the afterbody of zero line copper contact pin, or receptacle portion also comprises the second bronze medal member, and an end of the second bronze medal member on the afterbody of zero line copper contact pin is electrically connected to, thereby socket side the second electrical connection module refers to all devices that directly are electrically connected to the other end of the second bronze medal member.

The sidepiece position that is positioned at socket base one side of whole and all the other devices of the corresponding device of described 2 socket side electrical connection modules is jointly as inserts, when the socket base injection moulding of receptacle portion and this socket base form one, and the afterbody of each copper contact pin is covered by the plastic body of socket base, the head of each copper contact pin is arranged in the hole section that connects of corresponding spliced eye section, and is coaxially set with this spliced eye section.

The device be electrically connected to the live wire copper sheathing of above-mentioned spontaneous heating assembly forms plug side the first electrical connection module.Described plug side the first electrical connection module refers to all devices that directly are electrically connected to the afterbody of live wire copper sheathing, perhaps double plug section also comprises the 3rd bronze medal member, and the afterbody of live wire copper sheathing is electrically connected to an end of the 3rd bronze medal member, thereby plug side the first electrical connection module refers to all devices that directly are electrically connected to the other end of the 3rd bronze medal member.

The device be electrically connected to the zero line copper sheathing of above-mentioned spontaneous heating assembly forms plug side the second electrical connection module.Described plug side the second electrical connection module refers to all devices that directly are electrically connected to the afterbody of zero line copper sheathing, perhaps double plug section also comprises the 4th bronze medal member, and the afterbody of zero line copper sheathing is electrically connected to an end of the 4th bronze medal member, thereby plug side the second electrical connection module refers to all devices that directly are electrically connected to the other end of the 4th bronze medal member.

The sidepiece position that is positioned at Plug base one side of whole and all the other devices of the corresponding device of described 2 plug side electrical connection modules is jointly as inserts, when the Plug base injection moulding of double plug section and this Plug base form one, and the afterbody of each copper sheathing is covered by the plastic body of corresponding plug of Plug base and from the outside of left and right directions or a side of the fore-and-aft direction at the protrusion position in the outside of a side of above-below direction or left and right directions with the external world, communicate.

The electric heating piece of above-mentioned spontaneous heating assembly is arranged in the upper grooves of base plate.Receptacle portion is limited in a corresponding grafting limiting section of upper body by the upper end of the Access Division of its socket base, and the lower end of the Access Division of socket base is limited in a corresponding grafting support portion of base plate.Double plug section is limited in a corresponding grafting limiting section of upper body by the upper end of the Access Division of its Plug base, and the lower end of the Access Division of Plug base is limited in a corresponding grafting support portion of base plate.

The basic technical scheme of above-mentioned water-proof type self-heating floor of take is that the further technical scheme on basis is: the Access Division that the both sides, front and back of described upper body form through cut as bottom.2 Access Divisions are divided into He Hou Access Division, front Access Division according to the difference of residing front and back position.Access Division, 2 of front and back is symmetrical arranged with respect to the vertical guide of the central straight line through the upper body long side direction, and all along the long side direction on floor, runs through the upper body on floor.Each Access Division comprises all the lower protuberance that stretches along the left and right directions of upper body and contacts limiting section.Lower protuberance with contact limiting section and set gradually according to order from outside to inside on fore-and-aft direction.

The both sides, front and back of above-mentioned base plate are the support portion that top forms through cut.2 support portions are divided into front support section and rear support section according to the difference of residing front and back position.Support portion, 2 of front and back is symmetrical arranged with respect to the vertical guide of the central straight line through the upper body long side direction, corresponding top of side before and after it that each support portion is base plate is provided with the position of gap, this gap all runs through the base plate on floor along the long side direction on floor, and each support portion is corresponding with the corresponding Access Division of upper body respectively, jointly form the position of the buckling groove as connecting portion that lays respectively at the both sides, front and back of floor main body.

The basic technical scheme of above-mentioned water-proof type self-heating floor of take is that the further technical scheme on basis also has: described base plate also comprises 2 wiring ducts.The upper grooves of base plate comprises top forward recess and the top rearward recess that connects minute front and back setting of base plate along the floor long side direction.Article 2, wiring duct is divided into front wiring duct and rear wiring duct according to the difference of residing front and back position.Front wiring duct is arranged in the top forward recess, and connects base plate along the floor long side direction.Rear wiring duct is arranged in the top rearward recess, and connects base plate along the floor long side direction.

Water-proof type live wire and the water-proof type zero line of the transmission unit of above-mentioned spontaneous heating assembly are electric wire, and 2 wires are the conductor wire that single copper core outside is coated with the ambroin skin, and 2 wires are separately positioned in 2 wiring ducts of base plate.In 2 wires, what be used as the water-proof type live wire is the first electric wire, and as the water-proof type zero line is the second electric wire.

The receptacle portion of above-mentioned spontaneous heating assembly is positioned at the left side of electric heating piece, and double plug section is positioned at the right side of electric heating piece.The electric heating piece of spontaneous heating assembly has 2, is divided into front side electric heating piece and rear side electric heating piece according to the difference of residing front and back position, and front side electric heating piece and rear side electric heating piece are connected electrically between water-proof type live wire and water-proof type zero line by parallel way.Each electric heating piece includes 1 square strip-shaped conductive heating layer, 2 plate electrode copper sheets, plays the epoxy resin skin that contains glass fibre of insulation isolation and protection effect.Described electrode copper sheet is plane " L " shape copper sheet, by the section of overlaying according to the fore-and-aft direction setting, with linkage section according to the left and right directions setting, is connected and forms.2 plate electrode copper sheets overlay on the left end of conductive heating layer and right-hand member and corresponding to left end electrode copper sheet and right-hand member electrode copper sheet from top by its section of overlaying respectively, and the linkage section of each electrode copper sheet is positioned at the outside of left and right directions.Epoxy resin is outer whole cover be enclosed in conductive heating layer and electrode copper sheet reach up and down surrounding, thereby the outer field part corresponding with the linkage section of electrode copper sheet of epoxy resin becomes the outer field linkage section of epoxy resin, and the linkage section of the outer field linkage section of this epoxy resin and electrode copper sheet forms the linkage section of electric heating piece.In the linkage section of electric heating piece without conductive heating layer, and by machining thereon surface a breach of the part of the linkage section expose the electrode copper sheet is set.Two of the left and right of front side electric heating piece linkage section is positioned at rear side, and two of the left and right of rear side electric heating piece linkage section is positioned at front side.

The live wire copper contact pin of the receptacle portion of above-mentioned spontaneous heating assembly is positioned at the left of front side electric heating piece, and the zero line copper contact pin is positioned at the left of rear side electric heating piece.The live wire copper sheathing of double plug section is positioned at the right-hand of front side electric heating piece, and the zero line copper sheathing is positioned at the right-hand of rear side electric heating piece.

The receptacle portion of above-mentioned spontaneous heating assembly also comprises live wire end conductive copper sheet.Between the upper surface of live wire end conductive copper sheet across the left side linkage section of the upper surface of the left side linkage section at the front side electric heating piece and rear side electric heating piece.The front portion of live wire end conductive copper sheet is positioned at the top at the position of upwards exposing of linkage section of the left end electrode copper sheet of front side electric heating piece, by copper rivet from bottom to top successively through the front portion of the position Nei front side electric heating piece upwards exposed of the linkage section that comprises left end electrode copper sheet and live wire end conductive copper sheet, again both are anchored at together and are electrically connected to.The front end in the place ahead of the left side linkage section that is positioned at the front side electric heating piece of live wire end conductive copper sheet welds together and is electrically connected to the afterbody of live wire copper contact pin, and the tail end of live wire copper contact pin welds together and is electrically connected to the left end of the first electric wire of transmission unit, or the front end in the place ahead of the left side linkage section that is positioned at the front side electric heating piece of live wire end conductive copper sheet is electrically connected to the first bronze medal member, the first bronze medal member is electrically connected to the afterbody of live wire copper contact pin again, and the first bronze medal member welds together and is electrically connected to the left end of the first electric wire of transmission unit.The rear end of live wire end conductive copper sheet is positioned at the top at the position of upwards exposing of linkage section of the left end electrode copper sheet of rear side electric heating piece, by copper rivet from bottom to top successively through the rear end of the rear side electric heating piece at the position of upwards exposing of the linkage section that comprises left end electrode copper sheet and live wire end conductive copper sheet, again both are anchored at together and are electrically connected to.In described structure, related appropriate section has formed socket side the first electrical connection module.

The tail end in right side of the zero line copper contact pin of above-mentioned receptacle portion welds together and is electrically connected to the left end of the second electric wire, or the tail end in right side of zero line copper contact pin is electrically connected to the second bronze medal member, the second bronze medal member welds together and is electrically connected to the left end of the second electric wire again.In described structure, related appropriate section has formed socket side the second electrical connection module.

Described socket side the first electrical connection module and socket side the second electrical connection module divide front and back as the front and back inserts, when the socket base injection moulding of receptacle portion and this socket base form one, and afterbody, live wire end conductive copper sheet, the left side of front side electric heating piece, the left side of rear side electric heating piece, the left end of the first electric wire and the left end of the second electric wire of the afterbody of live wire copper contact pin, zero line copper contact pin all are insulated and are sealed in socket base.And the head of live wire copper contact pin is arranged in the spliced eye of front side spliced eye section, and be coaxially set with front side spliced eye section.The head of zero line copper contact pin is arranged in the spliced eye of rear side spliced eye section, and is coaxially set with rear side spliced eye section.

The tail end in left side of the live wire copper sheathing of above-mentioned double plug section welds together and is electrically connected to the right-hand member of the first electric wire, or the tail end in left side of live wire copper sheathing is electrically connected to the 3rd bronze medal member, the 3rd bronze medal member welds together and is electrically connected to the right-hand member of the first electric wire again.In described structure, related appropriate section has formed plug side the first electrical connection module.

Above-mentioned double plug section also comprises the zero line side conductive copper sheet.Between the upper surface of the zero line side conductive copper sheet of double plug section across the right side linkage section of the upper surface of the right side linkage section at the front side electric heating piece and rear side electric heating piece.The front end of zero line side conductive copper sheet is positioned at the top at the position of upwards exposing of linkage section of the right-hand member electrode copper sheet of front side electric heating piece, by copper rivet from bottom to top successively through the front end of the position Nei front side electric heating piece upwards exposed of the linkage section that comprises right-hand member electrode copper sheet and zero line side conductive copper sheet, again both are anchored at together and are electrically connected to.The rear portion of zero line side conductive copper sheet is positioned at the top at the position of upwards exposing of linkage section of the right-hand member electrode copper sheet of rear side electric heating piece, by copper rivet from bottom to top successively through the rear portion of the rear side electric heating piece at the position of upwards exposing of the linkage section that comprises right-hand member electrode copper sheet and zero line side conductive copper sheet and both anchorings are electrically connected to.The rear end at the rear of the right side linkage section that is positioned at the rear side electric heating piece of zero line side conductive copper sheet welds together and is electrically connected to the afterbody of zero line copper sheathing, and the tail end of zero line copper sheathing welds together and is electrically connected to the right-hand member of the second electric wire of transmission unit, the bending of prolongation to the right that perhaps the zero line copper sheathing is set up by the rear end of zero line side conductive copper sheet forms, and the rear end of zero line side conductive copper sheet also welds together and is electrically connected to the right-hand member of the second electric wire of transmission unit, or left section of the prolongation to the right set up of the rear end of zero line side conductive copper sheet is as the 4th bronze medal member, this right section bending of prolongation to the right forms the zero line copper sheathing, and the rear end of zero line side conductive copper sheet also welds together and is electrically connected to the right-hand member of the second electric wire of transmission unit.The appropriate section reached described in described structure has formed plug side the second electrical connection module.

Before and after above-mentioned plug side the first electrical connection module and plug side the second electrical connection module divide as the front and back inserts when the Plug base injection moulding of double plug section with this Plug base formation one, and afterbody, zero line side conductive copper sheet, the right side of front side electric heating piece, the right side of rear side electric heating piece, the right-hand member of the first electric wire and the right-hand member of the second electric wire of the afterbody of live wire copper sheathing, zero line copper sheathing all are sealed in Plug base.And the head of live wire copper sheathing is arranged in the front side plug, is coaxially set with the front side plug and communicates with the external world towards direction from the front side plug.The head of zero line copper sheathing is arranged in the rear side plug, is coaxially set with the rear side plug and communicates with the external world towards direction from the rear side plug.

The position between receptacle portion and double plug section of the front side electric heating piece of above-mentioned spontaneous heating assembly is arranged in the top forward recess of base plate, during the position between receptacle portion and double plug section of the rear side electric heating piece of spontaneous heating assembly is arranged on the top rearward recess.

The basic technical scheme of above-mentioned water-proof type self-heating floor of take also has as basic technical scheme: the upper grooves of described base plate comprise along the floor long side direction connect base plate minute before and after the top forward recess and the top rearward recess that arrange.

The receptacle portion of above-mentioned spontaneous heating assembly is positioned at the left side of electric heating piece, and double plug section is positioned at the right side of electric heating piece.The electric heating piece of spontaneous heating assembly has 2, is divided into front side electric heating piece and rear side electric heating piece according to the difference of residing front and back position, and front side electric heating piece and rear side electric heating piece are connected electrically between water-proof type live wire and water-proof type zero line by parallel way.Each electric heating piece includes 1 square strip-shaped conductive heating layer, 2 plate electrode copper sheets, plays the epoxy resin skin that contains glass fibre of insulation isolation and protection effect.Described electrode copper sheet is plane " L " shape copper sheet, by the linkage section of the section of overlaying of fore-and-aft direction and left and right directions, is connected and is formed.2 plate electrode copper sheets overlay on the left end of conductive heating layer and right-hand member and corresponding to left end electrode copper sheet and right-hand member electrode copper sheet from top by its section of overlaying respectively, and the linkage section of each electrode copper sheet is positioned at the outside of left and right directions.What the outer integral body of epoxy resin covered conductive heating layer and electrode copper sheet reaches surrounding up and down, thereby the outer field part corresponding with the linkage section of electrode copper sheet of epoxy resin becomes the outer field linkage section of epoxy resin, and the linkage section of the outer field linkage section of this epoxy resin and electrode copper sheet forms the linkage section of electric heating piece.In the linkage section of electric heating piece without conductive heating layer, and by machining thereon surface a breach of the part of the linkage section expose the electrode copper sheet is set.Two of the left and right of front side electric heating piece linkage section is positioned at rear side, and two of the left and right of rear side electric heating piece linkage section is positioned at front side.

The live wire copper contact pin of the receptacle portion of above-mentioned spontaneous heating assembly is positioned at the left of front side electric heating piece, and the zero line copper contact pin is positioned at the left of rear side electric heating piece.The live wire copper sheathing of double plug section is positioned at the right-hand of front side electric heating piece, and the zero line copper sheathing is positioned at the right-hand of rear side electric heating piece.

The water-proof type live wire of the transmission unit of above-mentioned spontaneous heating assembly and water-proof type zero line include 2 copper sheets for conduction, aluminium foil and polyvinyl chloride thin plate.Each conduction is fixed on the lower surface of electric heating piece from below with copper sheet, and is coated with conducting resinl on the lower surface of each conduction with copper sheet.The shape of aluminium foil is identical with the shape of the strip-shaped conductive heating layer of electric heating piece, be positioned at the below of electric heating piece, and shelter from the strip-shaped conductive heating layer from below, and the upper surface of the left and right end of aluminium foil is electrically connected to copper sheet with corresponding conduction.The polyvinyl chloride thin plate covers from below and is bonded and fixed at aluminium foil and is positioned on the lower surface of electric heating piece of aluminium foil surrounding by PUR is airtight.

The aluminium foil of described water-proof type live wire is the live wire aluminium foil.2 conduction copper sheets of described water-proof type live wire are the live wire copper sheet, and the live wire copper sheet is divided into left side live wire copper sheet and right side live wire copper sheet according to the difference of position, residing left and right.The middle part of left side live wire copper sheet is provided with extension left, the tail end of live wire copper contact pin is welded on the extension left of left side live wire copper sheet, or right section of the extension left of left side live wire copper sheet as the first bronze medal member, this left the left section tail end with the live wire copper contact pin of extension weld together, thereby make the live wire copper contact pin be electrically connected to left side live wire copper sheet.The middle part of right side live wire copper sheet is provided with extension to the right, the tail end of live wire copper sheathing is welded on the extension to the right of right side live wire copper sheet and makes the live wire copper sheathing be electrically connected to right side live wire copper sheet, perhaps the live wire copper sheathing is made in the direct bending in extension to the right of right side live wire copper sheet, or left section of the extension to the right of right side live wire copper sheet be as the 3rd bronze medal member, the live wire copper sheathing is made in this right section bending of extension to the right.

The aluminium foil of described water-proof type zero line is the zero line aluminium foil.2 conduction copper sheets of described water-proof type zero line are the zero line copper sheet, and the zero line copper sheet is divided into left side zero line copper sheet and right side zero line copper sheet according to the difference of position, residing left and right.The middle part of left side zero line copper sheet is provided with extension left, the tail end of zero line copper contact pin is welded on the extension left of left side zero line copper sheet, or right section of the extension left of left side zero line copper sheet as the second bronze medal member, this left the left section tail end with the zero line copper contact pin of extension weld together, thereby make the zero line copper contact pin be electrically connected to left side zero line copper sheet.The middle part of right side zero line copper sheet is provided with extension to the right, the tail end of zero line copper sheathing is welded on the extension to the right of right side zero line copper sheet and makes the zero line copper sheathing be electrically connected to right side zero line copper sheet, perhaps the zero line copper sheathing is made in the direct bending in extension to the right of right side zero line copper sheet, or left section of the extension to the right of right side zero line copper sheet be as the 4th bronze medal member, the zero line copper sheathing is made in this right section bending of extension to the right.

The receptacle portion of above-mentioned spontaneous heating assembly also comprises live wire end conductive copper sheet.Between the upper surface of live wire end conductive copper sheet across the left side linkage section of the upper surface of the left side linkage section at the front side electric heating piece and rear side electric heating piece.The front end of live wire end conductive copper sheet is positioned at the top at the position of upwards exposing of linkage section of the left end electrode copper sheet of front side electric heating piece, the rear end of the left side live wire copper sheet of water-proof type live wire is positioned at the below of linkage section of the left end electrode copper sheet of front side electric heating piece,, then the three is anchored at together and is electrically connected to from bottom to top successively through the left side live wire copper sheet of water-proof type live wire, the position Nei front side electric heating piece upwards exposed of linkage section that comprises left end electrode copper sheet and the front end of live wire end conductive copper sheet by copper rivet.The rear end of live wire end conductive copper sheet is positioned at the top at the position of upwards exposing of linkage section of the left end electrode copper sheet of rear side electric heating piece, by copper rivet from bottom to top successively through the rear end of the rear side electric heating piece at the position of upwards exposing of the linkage section that comprises left end electrode copper sheet and live wire end conductive copper sheet, again both are anchored at together and are electrically connected to.Described structure has formed socket side the first electrical connection module together with the live wire copper contact pin or with related appropriate section in the electrical connection of the left side live wire copper sheet of the live wire copper contact pin of the first bronze medal member and water-proof type live wire and live wire aluminium foil.

Above-mentioned zero line copper contact pin or formed socket side the second electrical connection module with related appropriate section in the electrical connection of the left side zero line copper sheet of the zero line copper contact pin of the second bronze medal member and water-proof type zero line and zero line aluminium foil.

Before and after described socket side the first electrical connection module and socket side the second electrical connection module divide as the front and back inserts when the socket base injection moulding of receptacle portion with this socket base formation one, and the afterbody of live wire copper contact pin, the afterbody of zero line copper contact pin, live wire end conductive copper sheet, the left side of front side electric heating piece, the left side of rear side electric heating piece, the left-hand portion of the left side live wire copper sheet of water-proof type live wire and the left-hand portion of live wire aluminium foil and corresponding polyvinyl chloride thin plate, the left-hand portion of the left side zero line copper sheet of water-proof type zero line and the left-hand portion of zero line aluminium foil and corresponding polyvinyl chloride thin plate all is insulated and is sealed in socket base, the head of live wire copper contact pin is arranged in the spliced eye of front side spliced eye section, and spliced eye section is coaxially set with front side, the head of zero line copper contact pin is arranged in the spliced eye of rear side spliced eye section, and section is coaxially set with the rear side spliced eye.

The live wire copper sheathing of the double plug section of above-mentioned spontaneous heating assembly or formed plug side the first electrical connection module with related appropriate section in the electrical connection of the right side live wire copper sheet of the live wire copper sheathing of the 3rd bronze medal member and water-proof type live wire and live wire aluminium foil.

Above-mentioned double plug section also comprises the zero line side conductive copper sheet.Between the upper surface of zero line side conductive copper sheet across the right side linkage section of the upper surface of the right side linkage section at the front side electric heating piece and rear side electric heating piece.The front end of zero line side conductive copper sheet is positioned at the top at the position of upwards exposing of linkage section of the right-hand member electrode copper sheet of front side electric heating piece, by copper rivet from bottom to top successively through the front end of the position Nei front side electric heating piece upwards exposed of the linkage section that comprises right-hand member electrode copper sheet and zero line side conductive copper sheet, again both are anchored at together and are electrically connected to.The rear end of zero line side conductive copper sheet is positioned at the top at the position of upwards exposing of the linkage section that is positioned at right-hand member electrode copper sheet of rear side electric heating piece, the rear end of the right side zero line copper sheet of water-proof type zero line is positioned at the below of linkage section of the right-hand member electrode copper sheet of rear side electric heating piece,, then the three is anchored at together and is electrically connected to from bottom to top successively through the right side live wire copper sheet of water-proof type zero line, the rear side electric heating piece at the position of upwards exposing of linkage section that comprises right-hand member electrode copper sheet and the front end of zero line side conductive copper sheet by copper rivet.Described structure has formed plug side the second electrical connection module together with the zero line copper sheathing or with related appropriate section in the electrical connection of the right side zero line copper sheet of the zero line copper sheathing of the 4th bronze medal member and water-proof type zero line and zero line aluminium foil.

Before and after described plug side the first electrical connection module and plug side the second electrical connection module divide as the front and back inserts when the Plug base injection moulding of double plug section with this Plug base formation one, and live wire copper sheathing afterbody, the afterbody of zero line copper sheathing, the zero line side conductive copper sheet, the right side of front side electric heating piece, the right side of rear side electric heating piece, the position, right side of the right side zero line copper sheet of water-proof type zero line and the position, right side of zero line aluminium foil and corresponding polyvinyl chloride thin plate, the position, right side of the right side live wire copper sheet of water-proof type live wire and the position, right side of live wire aluminium foil and corresponding polyvinyl chloride thin plate all is sealed in Plug base.And the head of live wire copper sheathing is arranged in the front side plug, is coaxially set with the front side plug and communicates with the external world towards direction from the front side plug.The head of zero line copper sheathing is arranged in the rear side plug, is coaxially set with the rear side plug and communicates with the external world towards direction from the rear side plug.

The position between receptacle portion and double plug section of the front side electric heating piece of above-mentioned spontaneous heating assembly is arranged in the top forward recess of base plate, during the position between receptacle portion and double plug section of the rear side electric heating piece of spontaneous heating assembly is arranged on the top rearward recess.

The basic technical scheme of above-mentioned water-proof type self-heating floor of take also has as basic technical scheme: the upper grooves of described base plate comprise along the floor long side direction connect base plate minute before and after the top forward recess and the top rearward recess that arrange.

The receptacle portion of above-mentioned spontaneous heating assembly is positioned at the left side of electric heating piece, and double plug section is positioned at the right side of electric heating piece.The electric heating piece of spontaneous heating assembly has 2, is divided into front side electric heating piece and rear side electric heating piece according to the difference of residing front and back position, and front side electric heating piece and rear side electric heating piece are connected electrically between water-proof type live wire and water-proof type zero line according to series system.Each electric heating piece includes 1 square strip-shaped conductive heating layer, 2 plate electrode copper sheets, plays the epoxy resin skin that contains glass fibre of insulation isolation and protection effect.Described electrode copper sheet is plane " L " shape copper sheet, by the linkage section of the section of overlaying of fore-and-aft direction and left and right directions, is connected and is formed.2 plate electrode copper sheets overlay on the left end of conductive heating layer and right-hand member and corresponding to left end electrode copper sheet and right-hand member electrode copper sheet from top by its section of overlaying respectively, and the linkage section of each electrode copper sheet is positioned at the outside of left and right directions.What the outer integral body of epoxy resin covered conductive heating layer and electrode copper sheet reaches surrounding up and down, thereby the outer field part corresponding with the linkage section of electrode copper sheet of epoxy resin becomes the outer field linkage section of epoxy resin, and the linkage section of the outer field linkage section of this epoxy resin and electrode copper sheet forms the linkage section of electric heating piece.In the linkage section of electric heating piece without conductive heating layer, and by machining thereon surface a breach of the part of the linkage section expose the electrode copper sheet is set, then this breach is arranged to solder joint.Two of the left and right of front side electric heating piece linkage section is positioned at rear side, and two of the left and right of rear side electric heating piece linkage section is positioned at front side.

The live wire copper contact pin of the receptacle portion of above-mentioned spontaneous heating assembly is positioned at the left of front side electric heating piece, and the zero line copper contact pin is positioned at the left of rear side electric heating piece.The live wire copper sheathing of double plug section is positioned at the right-hand of front side electric heating piece, and the zero line copper sheathing is positioned at the right-hand of rear side electric heating piece.

The water-proof type live wire of the transmission unit of above-mentioned spontaneous heating assembly and water-proof type zero line include the polyvinyl chloride thin plate and are called the copper strips for conduction of conducting copper belt.Each conducting copper belt is bonded and fixed on the lower surface of corresponding a slice electric heating piece along the left and right directions of electric heating piece, and the polyvinyl chloride thin plate covers from below and is bonded and fixed at conducting copper belt and is positioned on the lower surface of electric heating piece of conducting copper belt surrounding by PUR is airtight.The conducting copper belt of described water-proof type live wire is the live wire copper strips.The conducting copper belt of water-proof type zero line is the zero line copper strips.

The tail end in right side of the live wire copper contact pin of the receptacle portion of above-mentioned spontaneous heating assembly is welded on the extension left of live wire copper strips of water-proof type live wire and mutually is electrically connected to, or the extension left of live wire copper strips is simultaneously as the first bronze medal member.In this structure, related appropriate section has formed socket side the first electrical connection module.

The tail end in right side of the zero line copper contact pin of above-mentioned receptacle portion is welded on the extension left of zero line copper strips of water-proof type zero line and mutually is electrically connected to, or the extension left of zero line copper strips is simultaneously as the second bronze medal member.In this structure, related appropriate section has formed socket side the second electrical connection module.

Above-mentioned spontaneous heating assembly also comprises the series connection device, and this series connection device is copper conductor, bar shaped copper sheet, temperature detect switch (TDS) or resettable fuse.A corresponding end of described series connection device is welded and fixed with the scolder of the solder joint at the linkage section place of the left end electrode copper sheet of front side electric heating piece and makes the left end electrode copper sheet of front side electric heating piece be electrically connected to a corresponding end of the device of connecting.The other end of series connection device is welded and fixed with the scolder of the solder joint at the linkage section place of the left end electrode copper sheet of rear side electric heating piece and makes the left end electrode copper sheet of rear side electric heating piece be electrically connected to the other end of the device of connecting.This structure has formed socket side the 3rd electrical connection module.

Above-mentioned socket side the first electrical connection module, the second electrical connection module and the 3rd electrical connection module form the socket side electrical connection module jointly.This electrical connection module when the socket base injection moulding of receptacle portion and this socket base form one, and the afterbody of live wire copper contact pin, the afterbody of zero line copper contact pin, the left end position of water-proof type live wire, the left end position of water-proof type zero line, temperature detect switch (TDS), the left end position of front side electric heating piece and the left end position of rear side electric heating piece all are insulated and are sealed in socket base, the head of live wire copper contact pin is arranged in the spliced eye of front side spliced eye section, and spliced eye section is coaxially set with front side, the head of zero line copper contact pin is arranged in the spliced eye of rear side spliced eye section, and section is coaxially set with the rear side spliced eye.

The double plug section of above-mentioned spontaneous heating assembly also comprises 2 U-shaped connectors being made by copper sheet.These 2 U-shaped connectors are different according to the copper strips from connected, are divided into live wire end connection and zero line side connector.

The live wire end connection of above-mentioned double plug section, then is turned down forwards, backwards respectively and makes the live wire end connection be electrically connected to the live wire copper strips respectively from bottom to top through the blank position of live wire copper strips and front side electric heating piece right-hand member by two pin.The rear end of the inverted sections of the pin that is positioned at rear side of live wire end connection is welded and fixed and makes the live wire end connection be electrically connected to the right-hand member electrode copper sheet of front side electric heating piece with the scolder of the solder joint at the linkage section place of the right-hand member electrode copper sheet of front side electric heating piece.The middle part of live wire end connection is provided with extension to the right, the tail end of live wire copper sheathing is welded on the extension to the right of live wire end connection, perhaps the live wire copper sheathing is made in the direct bending in extension to the right of live wire end connection, perhaps the extension to the right of live wire end connection is directly as the 3rd bronze medal member, thereby makes the live wire end connection be electrically connected to the live wire copper sheathing.In described structure, related appropriate section has formed plug side the first electrical connection module.

The zero line side connector of above-mentioned double plug section, then is turned down forwards, backwards respectively and makes the zero line side connector be electrically connected to the zero line copper strips respectively from bottom to top through the blank position of zero line copper strips and rear side electric heating piece right-hand member by two pin.The front end of the inverted sections of the pin that is positioned at front side of zero line side connector is welded and fixed and makes the zero line side connector be electrically connected to the right-hand member electrode copper sheet of rear side electric heating piece with the scolder of the solder joint at the linkage section place of the right-hand member electrode copper sheet of rear side electric heating piece.The middle part of zero line side connector is provided with extension to the right, the tail end of zero line copper sheathing is welded on the extension to the right of zero line side connector, perhaps the zero line copper sheathing is made in the direct bending in extension to the right of zero line side connector, perhaps the extension to the right of zero line side connector is directly as the 4th bronze medal member, thereby makes the zero line side connector be electrically connected to the zero line copper sheathing.In described structure, related appropriate section has formed plug side the second electrical connection module.

Before and after above-mentioned plug side the first electrical connection module and the second electrical connection module divide as the front and back inserts when the Plug base injection moulding of double plug section with this Plug base formation one, and live wire copper sheathing afterbody, the afterbody of zero line copper sheathing, the right-hand member position of water-proof type live wire, the right-hand member position of water-proof type zero line, the right-hand member position of front side electric heating piece and the right-hand member position of rear side electric heating piece all are insulated and are sealed in Plug base.And the head of live wire copper sheathing is arranged in the front side plug, is coaxially set with the front side plug and communicates with the external world towards direction from the front side plug.The head of zero line copper sheathing is arranged in the rear side plug, is coaxially set with the rear side plug and communicates with the external world towards direction from the rear side plug.

The position between receptacle portion and double plug section of the front side electric heating piece of above-mentioned spontaneous heating assembly is arranged in the top forward recess of base plate, during the position between receptacle portion and double plug section of the rear side electric heating piece of spontaneous heating assembly is arranged on the top rearward recess.

The appropriate technical solution of above-mentioned water-proof type self-heating floor of take has as basic technical scheme: the receptacle portion of described spontaneous heating assembly is positioned at the left side of electric heating piece, and double plug section is positioned at the right side of electric heating piece.

2 grafting limiting sections of above-mentioned upper body are symmetrical arranged with respect to the vertical guide of the central straight line of the short side direction through upper body.Each grafting limiting section of upper body comprises all concave part, protuberance and the shielding part stretched along the fore-and-aft direction of upper body.Concave part, protuberance and shielding part set gradually according to order from inside to outside on left and right directions.Open Side Down for concave part, and protuberance is to lower convexity, and shielding part is plate body, and the lower surface of shielding part is higher than the lower surface of concave part, and the lower surface of concave part is higher than the lower surface of protuberance.

2 grafting support portions of above-mentioned base plate are symmetrical arranged with respect to the vertical guide of the central straight line of the short side direction through base plate.Each grafting support portion of base plate comprises all concave part, lug boss and the supporting plate section of stretching along the fore-and-aft direction of base plate.Concave part, lug boss and supporting plate section set gradually according to order from inside to outside on left and right directions.The opening upwards of concave part, lug boss raises up, and supporting plate section is plate body, and the upper surface of lug boss is higher than the upper surface of concave part, and the upper surface of concave part is higher than the upper surface of supporting plate section.

The Access Division of the socket base of the receptacle portion of above-mentioned spontaneous heating assembly is included in protuberance and the inserting groove from inside to outside arranged successively on left and right directions.Protuberance is divided into upper protuberance and lower protuberance by the difference of its residing upper-lower position, inserting groove is divided into upper inserting groove and lower inserting groove according to the difference of residing upper-lower position.The receptacle portion of spontaneous heating assembly is pegged graft and is coordinated up and down each other with the concave part of the left grafting limiting section of upper body by the upper protuberance of the Access Division of its socket base.The receptacle portion of spontaneous heating assembly is pegged graft and is coordinated up and down each other with the protuberance of the left grafting limiting section of upper body by the upper inserting groove of the Access Division of its socket base.The receptacle portion of spontaneous heating assembly is mutually pegged graft and is coordinated with the concave part of the left grafting support portion of base plate by the lower protuberance of the Access Division of its socket base.The receptacle portion of spontaneous heating assembly is mutually pegged graft and is coordinated with the lug boss of the left grafting support portion of base plate by the lower inserting groove of the Access Division of its socket base.

The Access Division of the Plug base of the double plug section of above-mentioned spontaneous heating assembly is included in protuberance and the inserting groove from inside to outside arranged successively on left and right directions.Protuberance is divided into upper protuberance and lower protuberance by the difference of its residing upper-lower position, inserting groove is divided into and is called upper inserting groove and lower inserting groove according to the difference of residing upper-lower position.The double plug section of spontaneous heating assembly is pegged graft and coordinates up and down each other with the concave part of the right grafting limiting section of upper body by the upper protuberance of the Access Division of its Plug base.The double plug section of spontaneous heating assembly is pegged graft and coordinates up and down each other with the protuberance of the right grafting limiting section of upper body by the upper inserting groove of the Access Division of its Plug base.The double plug section of spontaneous heating assembly is mutually pegged graft and coordinates with the concave part of the right grafting support portion of base plate by the lower protuberance of the Access Division of its Plug base.The double plug section of spontaneous heating assembly is mutually pegged graft and coordinates with the lug boss of the right grafting support portion of base plate by the lower inserting groove of the Access Division of its Plug base.

The receptacle portion that described structure makes the spontaneous heating assembly is fixed between the left grafting support portion of the left grafting limiting section of upper body and base plate by the Access Division of its socket base, and the double plug section that makes the spontaneous heating assembly is fixed between the right grafting support portion of the right grafting limiting section of upper body and base plate by the Access Division of its Plug base.

When the axis of the spliced eye section of the socket base of the receptacle portion of spontaneous heating assembly arranges along left and right directions, the shape of copper contact pin is shape linearly, and the shape of the copper sheathing of double plug section is shape linearly also, and the axis of the plug of Plug base is also along the left and right directions setting.

When the axis of the spliced eye section of the socket base of the receptacle portion of spontaneous heating assembly arranges along fore-and-aft direction, receptacle portion also comprises the first bronze medal member and the second bronze medal member.Live wire copper contact pin and zero line copper contact pin all a direction in fore-and-aft direction arrange in the same way, and the spliced eye of spliced eye section towards with copper contact pin towards identical, the first bronze medal member and the second bronze medal member are all along the left and right directions setting.The outside left at left and right directions of the spliced eye section of the socket base of receptacle portion is the first outwardly inserted block position, socket base with the adjacent position towards upper spliced eye section, is provided with the first slot position.Double plug section also comprises the 3rd bronze medal member and the 4th bronze medal member.The live wire copper sheathing of double plug section and zero line copper sheathing all arrange in the same way along another direction in fore-and-aft direction, this another direction and copper contact pin towards relative, and plug towards with copper sheathing towards identical, the 3rd bronze medal member and the 4th bronze medal member are all along the left and right directions setting.The outside left at left and right directions of the plug of the Plug base of double plug section is the second outwardly inserted block position, Plug base with the adjacent position towards upper plug, is provided with the second slot position.

The appropriate technical solution of above-mentioned water-proof type self-heating floor of take also has as basic technical scheme: the receptacle portion of described spontaneous heating assembly is positioned at the left side of electric heating piece, and double plug section is positioned at the right side of electric heating piece.The left part of receptacle portion upwards exposes the left grafting limiting section of upper body.The right part of double plug section exposes the right grafting support portion of base plate downwards.

The axis of the spliced eye section of the socket base of the receptacle portion of above-mentioned spontaneous heating assembly arranges along the vertical direction, and receptacle portion also comprises the first bronze medal member and the second bronze medal member.Live wire copper contact pin and zero line copper contact pin be the same direction in above-below direction all, and the spliced eye of spliced eye section towards with copper contact pin towards identical, the first bronze medal member and the second bronze medal member are all along the left and right directions setting.Double plug section also comprises the 3rd bronze medal member and the 4th bronze medal member.The live wire copper sheathing of double plug section and zero line copper sheathing be the direction of another in above-below direction all, this another direction and copper contact pin towards relative, and plug towards with copper sheathing towards identical, the 3rd bronze medal member and the 4th bronze medal member are all along the left and right directions setting.

The left grafting limiting section of above-mentioned upper body comprises all concave part and the protuberance stretched along the fore-and-aft direction of upper body.Concave part and protuberance set gradually according to order from inside to outside on left and right directions.Open Side Down for concave part, and protuberance is to lower convexity, and the lower surface of concave part is higher than the lower surface of protuberance.

The right grafting limiting section of above-mentioned upper body comprises all concave part, protuberance and the shielding part stretched along the fore-and-aft direction of upper body.Concave part, protuberance and shielding part set gradually according to order from inside to outside on left and right directions.Open Side Down for concave part, and protuberance is to lower convexity, and shielding part is plate body, and the lower surface of shielding part is higher than the lower surface of concave part, and the lower surface of concave part is higher than the lower surface of protuberance.The left grafting support portion of base plate comprises all concave part, lug boss and the supporting plate section of stretching along the fore-and-aft direction of base plate.Concave part, lug boss and supporting plate section set gradually according to order from inside to outside on left and right directions.The opening upwards of concave part, lug boss raises up, and supporting plate section is plate body, and the upper surface of lug boss is higher than the upper surface of concave part, and the upper surface of concave part is higher than the upper surface of supporting plate section.

The right grafting support portion of above-mentioned base plate comprises all concave part and the lug boss stretched along the fore-and-aft direction of base plate.Concave part and lug boss set gradually according to order from inside to outside on left and right directions.The opening upwards of concave part, lug boss raises up, and the upper surface of lug boss is higher than the upper surface of concave part.

The Access Division of the socket base of the receptacle portion of above-mentioned spontaneous heating assembly is included in protuberance and the inserting groove from inside to outside arranged successively on left and right directions.Protuberance is divided into upper protuberance and lower protuberance by the difference of its residing upper-lower position, inserting groove is divided into upper inserting groove and lower inserting groove according to the difference of residing upper-lower position.The receptacle portion of spontaneous heating assembly is pegged graft and is coordinated up and down each other with the concave part of the left grafting limiting section of upper body by the upper protuberance of the Access Division of its socket base.The receptacle portion of spontaneous heating assembly is pegged graft and is coordinated up and down each other with the protuberance of the left grafting limiting section of upper body by the upper inserting groove of the Access Division of its socket base.The receptacle portion of spontaneous heating assembly is mutually pegged graft and is coordinated with the concave part of the left grafting support portion of base plate by the lower protuberance of the Access Division of its socket base.The receptacle portion of spontaneous heating assembly is mutually pegged graft and is coordinated with the lug boss of the left grafting support portion of base plate by the lower inserting groove of the Access Division of its socket base.

The Access Division of the Plug base of the double plug section of above-mentioned spontaneous heating assembly is included in protuberance and the inserting groove from inside to outside arranged successively on left and right directions.Protuberance is divided into upper protuberance and lower protuberance by the difference of its residing upper-lower position, inserting groove is divided into and is called upper inserting groove and lower inserting groove according to the difference of residing upper-lower position.The double plug section of spontaneous heating assembly is pegged graft and coordinates up and down each other with the concave part of the right grafting limiting section of upper body by the upper protuberance of the Access Division of its Plug base.The double plug section of spontaneous heating assembly is pegged graft and coordinates up and down each other with the protuberance of the right grafting limiting section of upper body by the upper inserting groove of the Access Division of its Plug base.The double plug section of spontaneous heating assembly is mutually pegged graft and coordinates with the concave part of the right grafting support portion of base plate by the lower protuberance of the Access Division of its Plug base.The double plug section of spontaneous heating assembly is mutually pegged graft and coordinates with the lug boss of the right grafting support portion of base plate by the lower inserting groove of the Access Division of its Plug base.

The receptacle portion that described structure makes the spontaneous heating assembly is fixed between the left grafting support portion of the left grafting limiting section of upper body and base plate by the Access Division of its socket base, and the double plug section that makes the spontaneous heating assembly is fixed between the right grafting support portion of the right grafting limiting section of upper body and base plate by the Access Division of its Plug base.

Each appropriate technical solution of above-mentioned water-proof type self-heating floor of take also has as basic technical scheme: 2 grafting limiting sections of described upper body are symmetrical arranged with respect to the vertical guide of the central straight line of the short side direction through upper body.Each grafting limiting section of upper body comprises all concave part, protuberance and the shielding part stretched along the fore-and-aft direction of upper body.Concave part, protuberance and shielding part set gradually according to order from inside to outside on left and right directions.Open Side Down for concave part, and protuberance is to lower convexity, and shielding part is plate body, and the lower surface of shielding part is higher than the lower surface of concave part, and the lower surface of concave part is higher than the lower surface of protuberance.

2 grafting support portions of above-mentioned base plate are symmetrical arranged with respect to the vertical guide of the central straight line of the short side direction through base plate.Each grafting support portion of base plate comprises all concave part, lug boss and the supporting plate section of stretching along the fore-and-aft direction of base plate.Concave part, lug boss and supporting plate section set gradually according to order from inside to outside on left and right directions.The opening upwards of concave part, lug boss raises up, and supporting plate section is plate body, and the upper surface of lug boss is higher than the upper surface of concave part, and the upper surface of concave part is higher than the upper surface of supporting plate section.

The Access Division of the socket base of the receptacle portion of above-mentioned spontaneous heating assembly is included in protuberance and the inserting groove from inside to outside arranged successively on left and right directions.Protuberance is divided into upper protuberance and lower protuberance by the difference of its residing upper-lower position, inserting groove is divided into upper inserting groove and lower inserting groove according to the difference of residing upper-lower position.The receptacle portion of spontaneous heating assembly is pegged graft and is coordinated up and down each other with the concave part of the left grafting limiting section of upper body by the upper protuberance of the Access Division of its socket base.The receptacle portion of spontaneous heating assembly is pegged graft and is coordinated up and down each other with the protuberance of the left grafting limiting section of upper body by the upper inserting groove of the Access Division of its socket base.The receptacle portion of spontaneous heating assembly is mutually pegged graft and is coordinated with the concave part of the left grafting support portion of base plate by the lower protuberance of the Access Division of its socket base.The receptacle portion of spontaneous heating assembly is mutually pegged graft and is coordinated with the lug boss of the left grafting support portion of base plate by the lower inserting groove of the Access Division of its socket base.

The Access Division of the Plug base of the double plug section of above-mentioned spontaneous heating assembly is included in protuberance and the inserting groove from inside to outside arranged successively on left and right directions.Protuberance is divided into upper protuberance and lower protuberance by the difference of its residing upper-lower position, inserting groove is divided into and is called upper inserting groove and lower inserting groove according to the difference of residing upper-lower position.The double plug section of spontaneous heating assembly is pegged graft and coordinates up and down each other with the concave part of the right grafting limiting section of upper body by the upper protuberance of the Access Division of its Plug base.The double plug section of spontaneous heating assembly is pegged graft and coordinates up and down each other with the protuberance of the right grafting limiting section of upper body by the upper inserting groove of the Access Division of its Plug base.The double plug section of spontaneous heating assembly is mutually pegged graft and coordinates with the concave part of the right grafting support portion of base plate by the lower protuberance of the Access Division of its Plug base.The double plug section of spontaneous heating assembly is mutually pegged graft and coordinates with the lug boss of the right grafting support portion of base plate by the lower inserting groove of the Access Division of its Plug base.

The receptacle portion that described structure makes the spontaneous heating assembly is fixed between the left grafting support portion of the left grafting limiting section of upper body and base plate by the Access Division of its socket base, and the double plug section that makes the spontaneous heating assembly is fixed between the right grafting support portion of the right grafting limiting section of upper body and base plate by the Access Division of its Plug base.

When the axis of the spliced eye section of the socket base of the receptacle portion of spontaneous heating assembly arranges along left and right directions, the shape of copper contact pin is shape linearly, and the shape of the copper sheathing of double plug section is shape linearly also, and the axis of the plug of Plug base is also along the left and right directions setting.

When the axis of the spliced eye section of the socket base of the receptacle portion of spontaneous heating assembly arranges along fore-and-aft direction, receptacle portion also comprises the first bronze medal member and the second bronze medal member.Live wire copper contact pin and zero line copper contact pin all a direction in fore-and-aft direction arrange in the same way, and the spliced eye of spliced eye section towards with copper contact pin towards identical, the first bronze medal member and the second bronze medal member are all along the left and right directions setting.The outside left at left and right directions of the spliced eye section of the socket base of receptacle portion is the first outwardly inserted block position, socket base with the adjacent position towards upper spliced eye section, is provided with the first slot position.Double plug section also comprises the 3rd bronze medal member and the 4th bronze medal member.The live wire copper sheathing of double plug section and zero line copper sheathing all arrange in the same way along another direction in fore-and-aft direction, this another direction and copper contact pin towards relative, and plug towards with copper sheathing towards identical, the 3rd bronze medal member and the 4th bronze medal member are all along the left and right directions setting.The outside left at left and right directions of the plug of the Plug base of double plug section is the second outwardly inserted block position, Plug base with the adjacent position towards upper plug, is provided with the second slot position.

Each appropriate technical solution of above-mentioned water-proof type self-heating floor of take also has as basic technical scheme: the left part of described receptacle portion upwards exposes the left grafting limiting section of upper body.The right part of double plug section exposes the right grafting support portion of base plate downwards.

The axis of the spliced eye section of the socket base of the receptacle portion of above-mentioned spontaneous heating assembly arranges along the vertical direction, and receptacle portion also comprises the first bronze medal member and the second bronze medal member.Live wire copper contact pin and zero line copper contact pin be the same direction in above-below direction all, and the spliced eye of spliced eye section towards with copper contact pin towards identical, the first bronze medal member and the second bronze medal member are all along the left and right directions setting.Double plug section also comprises the 3rd bronze medal member and the 4th bronze medal member.The live wire copper sheathing of double plug section and zero line copper sheathing be the direction of another in above-below direction all, this another direction and copper contact pin towards relative, and plug towards with copper sheathing towards identical, the 3rd bronze medal member and the 4th bronze medal member are all along the left and right directions setting.

The left grafting limiting section of above-mentioned upper body comprises all concave part and the protuberance stretched along the fore-and-aft direction of upper body.Concave part and protuberance set gradually according to order from inside to outside on left and right directions.Open Side Down for concave part, and protuberance is to lower convexity, and the lower surface of concave part is higher than the lower surface of protuberance.

The right grafting limiting section of above-mentioned upper body comprises all concave part, protuberance and the shielding part stretched along the fore-and-aft direction of upper body.Concave part, protuberance and shielding part set gradually according to order from inside to outside on left and right directions.Open Side Down for concave part, and protuberance is to lower convexity, and shielding part is plate body, and the lower surface of shielding part is higher than the lower surface of concave part, and the lower surface of concave part is higher than the lower surface of protuberance.The left grafting support portion of base plate comprises all concave part, lug boss and the supporting plate section of stretching along the fore-and-aft direction of base plate.Concave part, lug boss and supporting plate section set gradually according to order from inside to outside on left and right directions.The opening upwards of concave part, lug boss raises up, and supporting plate section is plate body, and the upper surface of lug boss is higher than the upper surface of concave part, and the upper surface of concave part is higher than the upper surface of supporting plate section.

The right grafting support portion of above-mentioned base plate comprises all concave part and the lug boss stretched along the fore-and-aft direction of base plate.Concave part and lug boss set gradually according to order from inside to outside on left and right directions.The opening upwards of concave part, lug boss raises up, and the upper surface of lug boss is higher than the upper surface of concave part.

The Access Division of the socket base of the receptacle portion of above-mentioned spontaneous heating assembly is included in protuberance and the inserting groove from inside to outside arranged successively on left and right directions.Protuberance is divided into upper protuberance and lower protuberance by the difference of its residing upper-lower position, inserting groove is divided into upper inserting groove and lower inserting groove according to the difference of residing upper-lower position.The receptacle portion of spontaneous heating assembly is pegged graft and is coordinated up and down each other with the concave part of the left grafting limiting section of upper body by the upper protuberance of the Access Division of its socket base.The receptacle portion of spontaneous heating assembly is pegged graft and is coordinated up and down each other with the protuberance of the left grafting limiting section of upper body by the upper inserting groove of the Access Division of its socket base.The receptacle portion of spontaneous heating assembly is mutually pegged graft and is coordinated with the concave part of the left grafting support portion of base plate by the lower protuberance of the Access Division of its socket base.The receptacle portion of spontaneous heating assembly is mutually pegged graft and is coordinated with the lug boss of the left grafting support portion of base plate by the lower inserting groove of the Access Division of its socket base.

The Access Division of the Plug base of the double plug section of above-mentioned spontaneous heating assembly is included in protuberance and the inserting groove from inside to outside arranged successively on left and right directions.Protuberance is divided into upper protuberance and lower protuberance by the difference of its residing upper-lower position, inserting groove is divided into and is called upper inserting groove and lower inserting groove according to the difference of residing upper-lower position.The double plug section of spontaneous heating assembly is pegged graft and coordinates up and down each other with the concave part of the right grafting limiting section of upper body by the upper protuberance of the Access Division of its Plug base.The double plug section of spontaneous heating assembly is pegged graft and coordinates up and down each other with the protuberance of the right grafting limiting section of upper body by the upper inserting groove of the Access Division of its Plug base.The double plug section of spontaneous heating assembly is mutually pegged graft and coordinates with the concave part of the right grafting support portion of base plate by the lower protuberance of the Access Division of its Plug base.The double plug section of spontaneous heating assembly is mutually pegged graft and coordinates with the lug boss of the right grafting support portion of base plate by the lower inserting groove of the Access Division of its Plug base.

The receptacle portion that described structure makes the spontaneous heating assembly is fixed between the left grafting support portion of the left grafting limiting section of upper body and base plate by the Access Division of its socket base, and the double plug section that makes the spontaneous heating assembly is fixed between the right grafting support portion of the right grafting limiting section of upper body and base plate by the Access Division of its Plug base.

The basic technical scheme of above-mentioned water-proof type self-heating floor of take also has as basic technical scheme: described water-proof type self-heating floor also comprises locating piece.Locating piece has 4, and each locating piece includes main part, dovetail and positioning boss.The cross sectional shape of the main part of locating piece is identical with the cross sectional shape of the socket base of receptacle portion.Dovetail is corresponding with the dovetail groove of receptacle portion.

The socket base rear and front end along continuous straight runs of above-mentioned receptacle portion is provided with dovetail groove, and dovetail groove is divided into the first dovetail groove and the second dovetail groove by its residing front and back position.

The Plug base rear and front end along continuous straight runs of above-mentioned double plug section is provided with dovetail groove, and dovetail groove is divided into the first dovetail groove and the second dovetail groove by its residing front and back position.The first dovetail groove of the first dovetail groove of receptacle portion and the second dovetail groove and double plug section is all identical with the structure of the second dovetail groove.During use, in the first dovetail groove, the second dovetail groove that 4 locating pieces are inserted to the first dovetail groove, the second dovetail groove and the double plug section of corresponding receptacle portion by dovetail separately respectively.

All be provided with successively from outside to inside cross section on the inwall of 2 spliced eyes of the socket base of above-mentioned receptacle portion and be the first arc seal groove and the second seal groove.

The cross section that 2 plugs of the Plug base of above-mentioned double plug section all are provided with from inside to outside successively as the first plug Access Division and the second plug Access Division is arc annular protrusion position.And the first plug Access Division is corresponding with the first seal groove of the spliced eye of the socket base of receptacle portion, the second plug Access Division is corresponding with the second seal groove of the spliced eye of the socket base of receptacle portion.

The basic technical scheme of above-mentioned water-proof type self-heating floor of take also has as basic technical scheme: the receptacle portion of described spontaneous heating assembly also comprises 2 blocked hole sections, and 2 blocked hole sections are divided into the first blocked hole section and the second blocked hole section by the difference of its residing front and back position.The first blocked hole section and the second blocked hole section are the position that is provided with L-shaped hole, cross section, an opening in the hole of its described " L " shape left, another opening upwards.The double plug section of spontaneous heating assembly also comprises 2 blocked hole sections.These 2 blocked hole sections are divided into the 3rd blocked hole section and the 4th blocked hole section by the difference of its residing front and back position.The 3rd blocked hole section and the 4th blocked hole section are the position that is provided with L-shaped hole, cross section, an opening in the hole of its described " L " shape to the right, another opening upwards.

The basic technical scheme of implementing the 3rd purpose of the present invention is: water-proof type self-heating floor system of the present invention comprises water-proof type self-heating floor, connector and electric power system.Electric power system is supply line.

The quantity of above-mentioned water-proof type self-heating floor meets the requirement of laying area, each water-proof type self-heating floor comprises floor main body and spontaneous heating assembly, the floor main body comprises upper body and base plate, and the floor main body is bonded and fixed at by the lower surface of upper body on the upper surface of base plate and forms.The floor main body is provided with the connecting portion for being connected with adjacent water-proof type self-heating floor while using in the both sides, front and back.The left and right sides of described floor main body is equipped with the electrical connectors that supplies that belongs to the spontaneous heating assembly.Upper body each side be provided with 1 grafting limiting section, 2 grafting limiting sections are divided into left grafting limiting section and right grafting limiting section according to the difference of position, residing left and right.2 the grafting limiting sections in left and right all run through the upper body on floor along the short side direction on floor.

The left and right sides of above-mentioned base plate also respectively is provided with 1 grafting support portion corresponding with the grafting limiting section of upper body.2 grafting support portions are divided into left grafting support portion and right grafting support portion according to position, residing left and right difference.The short side direction on Jun Yan floor, 2 grafting support portions runs through base plate.The upper surface of the middle part of base plate is provided with upper grooves along left and right directions.

Above-mentioned spontaneous heating assembly is the water-proof type electric-heating assembly, comprise transmission unit, electric heating piece, be positioned at two ends, electric heating piece left and right an end receptacle portion and be positioned at the double plug section of the other end at two ends, electric heating piece left and right.The floor main body is all exposed from the outside of left and right directions or a side of above-below direction by receptacle portion and double plug section.

Above-mentioned electric heating piece is 1 to 5, and each sheet electric heating piece be arranged in parallel each other on same plane.Every electric heating piece is that the laminar sealing waterproof type electrothermal device of an electrode is set at the left and right end.Receptacle portion is can mutually peg graft and fixedly be electrically connected to and the mutual waterproof link sealed with the double plug section of the spontaneous heating assembly of corresponding adjacent water-proof type self-heating floor while using.Double plug section can mutually peg graft and fixedly be electrically connected to and the mutual waterproof link sealed with the receptacle portion of the spontaneous heating assembly of corresponding adjacent water-proof type self-heating floor while using.

Above-mentioned receptacle portion comprises socket base and 2 copper contact pins.The integrated through injection molding part that socket base is the bar shaped bulk, be included on left and right directions and be positioned at inboard Access Division, also be included on left and right directions 2 spliced eye sections that are positioned at the outside, the spliced eye of these 2 spliced eye sections is cylinder blind hole shape substantially, 2 equal openings of spliced eye are towards the outside of left and right directions or a side of the fore-and-aft direction at the protrusion position in the outside of a side of above-below direction or left and right directions, make the axis of 2 spliced eye sections along respective direction, also along left and right directions or along the vertical direction or along the fore-and-aft direction setting.1 in 2 copper contact pins is the live wire copper contact pin, and another 1 is the zero line copper contact pin, and each copper contact pin is arranged in corresponding 1 spliced eye section of socket base, and along the axis setting of described spliced eye section.

Above-mentioned double plug section comprises Plug base and 2 copper sheathings.The integrated through injection molding part that Plug base is the bar shaped bulk, be included on left and right directions and be positioned at inboard Access Division, also is included on left and right directions 2 plugs that are positioned at the outside.The profile of described plug is corresponding with the shape of the spliced eye of the spliced eye section of receptacle portion, and the direction of its axis is identical with the axis direction of the spliced eye section of receptacle portion.1 in 2 copper sheathings is the live wire copper sheathing, and another 1 is the zero line copper sheathing, and each copper sheathing is arranged in corresponding 1 plug of Plug base.

Above-mentioned transmission unit is comprised of water-proof type live wire and water-proof type zero line.The water-proof type live wire is connected electrically between live wire copper contact pin and live wire copper sheathing, and the water-proof type zero line is connected electrically between zero line copper contact pin and zero line copper sheathing.Parallel with one another or series connection between electric heating piece, and the electric heating piece group is connected electrically between water-proof type live wire and water-proof type zero line by the respective electrode of its corresponding electric heating piece.

The device be electrically connected to the live wire copper contact pin of above-mentioned spontaneous heating assembly forms socket side the first electrical connection module.Described socket side the first electrical connection module refers to all devices that directly are electrically connected to the afterbody of live wire copper contact pin, perhaps receptacle portion also comprises the first bronze medal member, and the afterbody of live wire copper contact pin is electrically connected to an end of the first bronze medal member, thereby socket side the first electrical connection module refers to all devices that directly are electrically connected to the other end of the first bronze medal member.

The device be electrically connected to the zero line copper contact pin of above-mentioned spontaneous heating assembly forms socket side the second electrical connection module.Described socket side the second electrical connection module refers to all devices that directly are electrically connected to the afterbody of zero line copper contact pin, or receptacle portion also comprises the second bronze medal member, and an end of the second bronze medal member on the afterbody of zero line copper contact pin is electrically connected to, thereby socket side the second electrical connection module refers to all devices that directly are electrically connected to the other end of the second bronze medal member.

The sidepiece position that is positioned at socket base one side of whole and all the other devices of the corresponding device of described 2 socket side electrical connection modules is jointly as inserts, when the socket base injection moulding of receptacle portion and this socket base form one, and the afterbody of each copper contact pin is covered by the plastic body of socket base, the head of each copper contact pin is arranged in the hole section that connects of corresponding spliced eye section, and is coaxially set with this spliced eye section.

The device be electrically connected to the live wire copper sheathing of above-mentioned spontaneous heating assembly forms plug side the first electrical connection module.Described plug side the first electrical connection module refers to all devices that directly are electrically connected to the afterbody of live wire copper sheathing, perhaps double plug section also comprises the 3rd bronze medal member, and the afterbody of live wire copper sheathing is electrically connected to an end of the 3rd bronze medal member, thereby plug side the first electrical connection module refers to all devices that directly are electrically connected to the other end of the 3rd bronze medal member.

The device be electrically connected to the zero line copper sheathing of above-mentioned spontaneous heating assembly forms plug side the second electrical connection module.Described plug side the second electrical connection module refers to all devices that directly are electrically connected to the afterbody of zero line copper sheathing, perhaps double plug section also comprises the 4th bronze medal member, and the afterbody of zero line copper sheathing is electrically connected to an end of the 4th bronze medal member, thereby plug side the second electrical connection module refers to all devices that directly are electrically connected to the other end of the 4th bronze medal member.

The sidepiece position that is positioned at Plug base one side of whole and all the other devices of the corresponding device of described 2 plug side electrical connection modules is jointly as inserts, when the Plug base injection moulding of double plug section and this Plug base form one, and the afterbody of each copper sheathing is covered by the plastic body of corresponding plug of Plug base and from the outside of left and right directions or a side of above-below direction or a side of fore-and-aft direction with the external world, communicate.

The electric heating piece of above-mentioned spontaneous heating assembly is arranged in the upper grooves of base plate.Receptacle portion is limited in a corresponding grafting limiting section of upper body by the upper end of the Access Division of its socket base, and the lower end of the Access Division of socket base is limited in a corresponding grafting support portion of base plate.Double plug section is limited in a corresponding grafting limiting section of upper body by the upper end of the Access Division of its Plug base, and the lower end of the Access Division of Plug base is limited in a corresponding grafting support portion of base plate.

When above-mentioned connector is use, adjacent two water-proof type self-heating floors are locked to the parts that connect.

Above-mentioned supply line has 1, and supply line comprises power supply base and 2 wires that a plurality of shape and structures are identical.2 wires are divided into the first electric wire and the second electric wire.Every 2 power supply bases are 1 group.Each power supply base includes pedestal and power supply plug pin.Pedestal is the integrated through injection molding part, and the power supply plug pin is fixed in pedestal.The first electric wire is electrically connected with the power supply plug pin of respectively organizing power supply base that each is the odd number setting successively, and the second electric wire is electrically connected with the power supply plug pin of respectively organizing power supply base that each is the even numbers setting successively.The first electric wire is in use as the circuit that electrode is electrically connected to in the both positive and negative polarity of DC power supply, and airtight being fixedly connected with between the appearance of pedestal and the extending area of corresponding the first electric wire.The circuit that the second electric wire is electrically connected to as another electrode in the both positive and negative polarity with DC power supply in use.And airtight being fixedly connected with between the appearance of pedestal and the extending area of corresponding the second electric wire.Described the first electric wire and the second electric wire are the electric wire formed at copper wire twisted wire outer cladding plastic skin.

The basic technical scheme of above-mentioned water-proof type self-heating floor system of take as basic technical scheme is: the Access Division that the both sides, front and back of described upper body form through cut as bottom.2 Access Divisions are divided into He Hou Access Division, front Access Division according to the difference of residing front and back position.Access Division, 2 of front and back is symmetrical arranged with respect to the vertical guide of the central straight line through the upper body long side direction, and all along the long side direction on floor, runs through the upper body on floor.Each Access Division comprises all the lower protuberance that stretches along the left and right directions of upper body and contacts limiting section.Lower protuberance with contact limiting section and set gradually according to order from outside to inside on fore-and-aft direction.

The both sides, front and back of above-mentioned base plate are the support portion that top forms through cut.2 support portions are divided into front support section and rear support section according to the difference of residing front and back position.Support portion, 2 of front and back is symmetrical arranged with respect to the vertical guide of the central straight line through the upper body long side direction, corresponding top of side before and after it that each support portion is base plate is provided with the position of gap, this gap all runs through the base plate on floor along the long side direction on floor, and each support portion is corresponding with the corresponding Access Division of upper body respectively, jointly form the position of the buckling groove as connecting portion that lays respectively at the both sides, front and back of floor main body.

Above-mentioned connector comprises the first connector.The first connector is symmetrical extrusion molding integral piece, comprises the connecting portion that is positioned at middle part and the flexible clamping section that is positioned at the connecting portion left and right sides.Before and after being positioned at of the shape of the exterior contour of the free state of the flexible clamping section of the first connector and water-proof type self-heating floor, the shape at the buckling groove position of both sides is corresponding, and between the adjacent buckling groove position of the shape of the exterior contour of the first connector and two water-proof type self-heating floors of the adjacent laying in front and back, the shape in formed space is corresponding.During use, two water-proof type self-heating floor lockings that the first connector can be adjacent by front and back link together.

The basic technical scheme of above-mentioned water-proof type self-heating floor system of take also has as basic technical scheme: described base plate also comprises 2 wiring ducts.The upper grooves of base plate comprises top forward recess and the top rearward recess that connects minute front and back setting of base plate along the floor long side direction.Article 2, wiring duct is divided into front wiring duct and rear wiring duct according to the difference of residing front and back position.Front wiring duct is arranged in the top forward recess, and connects base plate along the floor long side direction.Rear wiring duct is arranged in the top rearward recess, and connects base plate along the floor long side direction.

Water-proof type live wire and the water-proof type zero line of the transmission unit of above-mentioned spontaneous heating assembly are electric wire, and 2 wires are the conductor wire that single copper core outside is coated with the ambroin skin, and 2 wires are separately positioned in 2 wiring ducts of base plate.In 2 wires, what be used as the water-proof type live wire is the first electric wire, and as the water-proof type zero line is the second electric wire.

The receptacle portion of above-mentioned spontaneous heating assembly is positioned at the left side of electric heating piece, and double plug section is positioned at the right side of electric heating piece.The electric heating piece of spontaneous heating assembly has 2, is divided into front side electric heating piece and rear side electric heating piece according to the difference of residing front and back position, and front side electric heating piece and rear side electric heating piece are connected electrically between water-proof type live wire and water-proof type zero line by parallel way.Each electric heating piece includes 1 square strip-shaped conductive heating layer, 2 plate electrode copper sheets, plays the epoxy resin skin that contains glass fibre of insulation isolation and protection effect.Described electrode copper sheet is plane " L " shape copper sheet, by the section of overlaying according to the fore-and-aft direction setting, with linkage section according to the left and right directions setting, is connected and forms.2 plate electrode copper sheets overlay on the left end of conductive heating layer and right-hand member and corresponding to left end electrode copper sheet and right-hand member electrode copper sheet from top by its section of overlaying respectively, and the linkage section of each electrode copper sheet is positioned at the outside of left and right directions.Epoxy resin is outer whole cover be enclosed in conductive heating layer and electrode copper sheet reach up and down surrounding, thereby the outer field part corresponding with the linkage section of electrode copper sheet of epoxy resin becomes the outer field linkage section of epoxy resin, and the linkage section of the outer field linkage section of this epoxy resin and electrode copper sheet forms the linkage section of electric heating piece.In the linkage section of electric heating piece without conductive heating layer, and by machining thereon surface a breach of the part of the linkage section expose the electrode copper sheet is set.Two of the left and right of front side electric heating piece linkage section is positioned at rear side, and two of the left and right of rear side electric heating piece linkage section is positioned at front side.

The live wire copper contact pin of the receptacle portion of above-mentioned spontaneous heating assembly is positioned at the left of front side electric heating piece, and the zero line copper contact pin is positioned at the left of rear side electric heating piece.The live wire copper sheathing of double plug section is positioned at the right-hand of front side electric heating piece, and the zero line copper sheathing is positioned at the right-hand of rear side electric heating piece.

The receptacle portion of above-mentioned spontaneous heating assembly also comprises live wire end conductive copper sheet.Between the upper surface of live wire end conductive copper sheet across the left side linkage section of the upper surface of the left side linkage section at the front side electric heating piece and rear side electric heating piece.The front portion of live wire end conductive copper sheet is positioned at the top at the position of upwards exposing of linkage section of the left end electrode copper sheet of front side electric heating piece, by copper rivet from bottom to top successively through the front portion of the position Nei front side electric heating piece upwards exposed of the linkage section that comprises left end electrode copper sheet and live wire end conductive copper sheet, again both are anchored at together and are electrically connected to.The front end in the place ahead of the left side linkage section that is positioned at the front side electric heating piece of live wire end conductive copper sheet welds together and is electrically connected to the afterbody of live wire copper contact pin, and the tail end of live wire copper contact pin welds together and is electrically connected to the left end of the first electric wire of transmission unit, or the front end in the place ahead of the left side linkage section that is positioned at the front side electric heating piece of live wire end conductive copper sheet is electrically connected to the first bronze medal member, the first bronze medal member is electrically connected to the afterbody of live wire copper contact pin again, and the first bronze medal member welds together and is electrically connected to the left end of the first electric wire of transmission unit.The rear end of live wire end conductive copper sheet is positioned at the top at the position of upwards exposing of linkage section of the left end electrode copper sheet of rear side electric heating piece, by copper rivet from bottom to top successively through the rear end of the rear side electric heating piece at the position of upwards exposing of the linkage section that comprises left end electrode copper sheet and live wire end conductive copper sheet, again both are anchored at together and are electrically connected to.In described structure, related appropriate section has formed socket side the first electrical connection module.

The tail end in right side of the zero line copper contact pin of above-mentioned receptacle portion welds together and is electrically connected to the left end of the second electric wire, or the tail end in right side of zero line copper contact pin is electrically connected to the second bronze medal member, the second bronze medal member welds together and is electrically connected to the left end of the second electric wire again.In described structure, related appropriate section has formed socket side the second electrical connection module.

Described socket side the first electrical connection module and socket side the second electrical connection module divide front and back as the front and back inserts, when the socket base injection moulding of receptacle portion and this socket base form one, and afterbody, live wire end conductive copper sheet, the left side of front side electric heating piece, the left side of rear side electric heating piece, the left end of the first electric wire and the left end of the second electric wire of the afterbody of live wire copper contact pin, zero line copper contact pin all are insulated and are sealed in socket base.And the head of live wire copper contact pin is arranged in the spliced eye of front side spliced eye section, and be coaxially set with front side spliced eye section.The head of zero line copper contact pin is arranged in the spliced eye of rear side spliced eye section, and is coaxially set with rear side spliced eye section.

The tail end in left side of the live wire copper sheathing of above-mentioned double plug section welds together and is electrically connected to the right-hand member of the first electric wire, or the tail end in left side of live wire copper sheathing is electrically connected to the 3rd bronze medal member, the 3rd bronze medal member welds together and is electrically connected to the right-hand member of the first electric wire again.In described structure, related appropriate section has formed plug side the first electrical connection module.

Above-mentioned double plug section also comprises the zero line side conductive copper sheet.Between the upper surface of the zero line side conductive copper sheet of double plug section across the right side linkage section of the upper surface of the right side linkage section at the front side electric heating piece and rear side electric heating piece.The front end of zero line side conductive copper sheet is positioned at the top at the position of upwards exposing of linkage section of the right-hand member electrode copper sheet of front side electric heating piece, by copper rivet from bottom to top successively through the front end of the position Nei front side electric heating piece upwards exposed of the linkage section that comprises right-hand member electrode copper sheet and zero line side conductive copper sheet, again both are anchored at together and are electrically connected to.The rear portion of zero line side conductive copper sheet is positioned at the top at the position of upwards exposing of linkage section of the right-hand member electrode copper sheet of rear side electric heating piece, by copper rivet from bottom to top successively through the rear portion of the rear side electric heating piece at the position of upwards exposing of the linkage section that comprises right-hand member electrode copper sheet and zero line side conductive copper sheet and both anchorings are electrically connected to.The rear end at the rear of the right side linkage section that is positioned at the rear side electric heating piece of zero line side conductive copper sheet welds together and is electrically connected to the afterbody of zero line copper sheathing, and the tail end of zero line copper sheathing welds together and is electrically connected to the right-hand member of the second electric wire of transmission unit, the bending of prolongation to the right that perhaps the zero line copper sheathing is set up by the rear end of zero line side conductive copper sheet forms, and the rear end of zero line side conductive copper sheet also welds together and is electrically connected to the right-hand member of the second electric wire of transmission unit, or left section of the prolongation to the right set up of the rear end of zero line side conductive copper sheet is as the 4th bronze medal member, this right section bending of prolongation to the right forms the zero line copper sheathing, and the rear end of zero line side conductive copper sheet also welds together and is electrically connected to the right-hand member of the second electric wire of transmission unit.The appropriate section reached described in described structure has formed plug side the second electrical connection module.

Before and after above-mentioned plug side the first electrical connection module and plug side the second electrical connection module divide as the front and back inserts when the Plug base injection moulding of double plug section with this Plug base formation one, and afterbody, zero line side conductive copper sheet, the right side of front side electric heating piece, the right side of rear side electric heating piece, the right-hand member of the first electric wire and the right-hand member of the second electric wire of the afterbody of live wire copper sheathing, zero line copper sheathing all are sealed in Plug base.And the head of live wire copper sheathing is arranged in the front side plug, is coaxially set with the front side plug and communicates with the external world towards direction from the front side plug.The head of zero line copper sheathing is arranged in the rear side plug, is coaxially set with the rear side plug and communicates with the external world towards direction from the rear side plug.

The position between receptacle portion and double plug section of the front side electric heating piece of above-mentioned spontaneous heating assembly is arranged in the top forward recess of base plate, during the position between receptacle portion and double plug section of the rear side electric heating piece of spontaneous heating assembly is arranged on the top rearward recess.

The basic technical scheme of above-mentioned water-proof type self-heating floor system of take also has as basic technical scheme: the upper grooves of described base plate comprise along the floor long side direction connect base plate minute before and after the top forward recess and the top rearward recess that arrange.

The receptacle portion of above-mentioned spontaneous heating assembly is positioned at the left side of electric heating piece, and double plug section is positioned at the right side of electric heating piece.The electric heating piece of spontaneous heating assembly has 2, is divided into front side electric heating piece and rear side electric heating piece according to the difference of residing front and back position, and front side electric heating piece and rear side electric heating piece are connected electrically between water-proof type live wire and water-proof type zero line by parallel way.Each electric heating piece includes 1 square strip-shaped conductive heating layer, 2 plate electrode copper sheets, plays the epoxy resin skin that contains glass fibre of insulation isolation and protection effect.Described electrode copper sheet is plane " L " shape copper sheet, by the linkage section of the section of overlaying of fore-and-aft direction and left and right directions, is connected and is formed.2 plate electrode copper sheets overlay on the left end of conductive heating layer and right-hand member and corresponding to left end electrode copper sheet and right-hand member electrode copper sheet from top by its section of overlaying respectively, and the linkage section of each electrode copper sheet is positioned at the outside of left and right directions.What the outer integral body of epoxy resin covered conductive heating layer and electrode copper sheet reaches surrounding up and down, thereby the outer field part corresponding with the linkage section of electrode copper sheet of epoxy resin becomes the outer field linkage section of epoxy resin, and the linkage section of the outer field linkage section of this epoxy resin and electrode copper sheet forms the linkage section of electric heating piece.In the linkage section of electric heating piece without conductive heating layer, and by machining thereon surface a breach of the part of the linkage section expose the electrode copper sheet is set.Two of the left and right of front side electric heating piece linkage section is positioned at rear side, and two of the left and right of rear side electric heating piece linkage section is positioned at front side.

The live wire copper contact pin of the receptacle portion of above-mentioned spontaneous heating assembly is positioned at the left of front side electric heating piece, and the zero line copper contact pin is positioned at the left of rear side electric heating piece.The live wire copper sheathing of double plug section is positioned at the right-hand of front side electric heating piece, and the zero line copper sheathing is positioned at the right-hand of rear side electric heating piece.

The water-proof type live wire of the transmission unit of above-mentioned spontaneous heating assembly and water-proof type zero line include 2 copper sheets for conduction, aluminium foil and polyvinyl chloride thin plate.Each conduction is fixed on the lower surface of electric heating piece from below with copper sheet, and is coated with conducting resinl on the lower surface of each conduction with copper sheet.The shape of aluminium foil is identical with the shape of the strip-shaped conductive heating layer of electric heating piece, be positioned at the below of electric heating piece, and shelter from the strip-shaped conductive heating layer from below, and the upper surface of the left and right end of aluminium foil is electrically connected to copper sheet with corresponding conduction.The polyvinyl chloride thin plate covers from below and is bonded and fixed at aluminium foil and is positioned on the lower surface of electric heating piece of aluminium foil surrounding by PUR is airtight.

The aluminium foil of described water-proof type live wire is the live wire aluminium foil.2 conduction copper sheets of described water-proof type live wire are the live wire copper sheet, and the live wire copper sheet is divided into left side live wire copper sheet and right side live wire copper sheet according to the difference of position, residing left and right.The middle part of left side live wire copper sheet is provided with extension left, the tail end of live wire copper contact pin is welded on the extension left of left side live wire copper sheet, or right section of the extension left of left side live wire copper sheet as the first bronze medal member, this left the left section tail end with the live wire copper contact pin of extension weld together, thereby make the live wire copper contact pin be electrically connected to left side live wire copper sheet.The middle part of right side live wire copper sheet is provided with extension to the right, the tail end of live wire copper sheathing is welded on the extension to the right of right side live wire copper sheet and makes the live wire copper sheathing be electrically connected to right side live wire copper sheet, perhaps the live wire copper sheathing is made in the direct bending in extension to the right of right side live wire copper sheet, or left section of the extension to the right of right side live wire copper sheet be as the 3rd bronze medal member, the live wire copper sheathing is made in this right section bending of extension to the right.

The aluminium foil of described water-proof type zero line is the zero line aluminium foil.2 conduction copper sheets of described water-proof type zero line are the zero line copper sheet, and the zero line copper sheet is divided into left side zero line copper sheet and right side zero line copper sheet according to the difference of position, residing left and right.The middle part of left side zero line copper sheet is provided with extension left, the tail end of zero line copper contact pin is welded on the extension left of left side zero line copper sheet, or right section of the extension left of left side zero line copper sheet as the second bronze medal member, this left the left section tail end with the zero line copper contact pin of extension weld together, thereby make the zero line copper contact pin be electrically connected to left side zero line copper sheet.The middle part of right side zero line copper sheet is provided with extension to the right, the tail end of zero line copper sheathing is welded on the extension to the right of right side zero line copper sheet and makes the zero line copper sheathing be electrically connected to right side zero line copper sheet, perhaps the zero line copper sheathing is made in the direct bending in extension to the right of right side zero line copper sheet, or left section of the extension to the right of right side zero line copper sheet be as the 4th bronze medal member, the zero line copper sheathing is made in this right section bending of extension to the right.

The receptacle portion of above-mentioned spontaneous heating assembly also comprises live wire end conductive copper sheet.Between the upper surface of live wire end conductive copper sheet across the left side linkage section of the upper surface of the left side linkage section at the front side electric heating piece and rear side electric heating piece.The front end of live wire end conductive copper sheet is positioned at the top at the position of upwards exposing of linkage section of the left end electrode copper sheet of front side electric heating piece, the rear end of the left side live wire copper sheet of water-proof type live wire is positioned at the below of linkage section of the left end electrode copper sheet of front side electric heating piece,, then the three is anchored at together and is electrically connected to from bottom to top successively through the left side live wire copper sheet of water-proof type live wire, the position Nei front side electric heating piece upwards exposed of linkage section that comprises left end electrode copper sheet and the front end of live wire end conductive copper sheet by copper rivet.The rear end of live wire end conductive copper sheet is positioned at the top at the position of upwards exposing of linkage section of the left end electrode copper sheet of rear side electric heating piece, by copper rivet from bottom to top successively through the rear end of the rear side electric heating piece at the position of upwards exposing of the linkage section that comprises left end electrode copper sheet and live wire end conductive copper sheet, again both are anchored at together and are electrically connected to.Described structure has formed socket side the first electrical connection module together with the live wire copper contact pin or with related appropriate section in the electrical connection of the left side live wire copper sheet of the live wire copper contact pin of the first bronze medal member and water-proof type live wire and live wire aluminium foil.

Above-mentioned zero line copper contact pin or formed socket side the second electrical connection module with related appropriate section in the electrical connection of the left side zero line copper sheet of the zero line copper contact pin of the second bronze medal member and water-proof type zero line and zero line aluminium foil.

Before and after described socket side the first electrical connection module and socket side the second electrical connection module divide as the front and back inserts when the socket base injection moulding of receptacle portion with this socket base formation one, and the afterbody of live wire copper contact pin, the afterbody of zero line copper contact pin, live wire end conductive copper sheet, the left side of front side electric heating piece, the left side of rear side electric heating piece, the left-hand portion of the left side live wire copper sheet of water-proof type live wire and the left-hand portion of live wire aluminium foil and corresponding polyvinyl chloride thin plate, the left-hand portion of the left side zero line copper sheet of water-proof type zero line and the left-hand portion of zero line aluminium foil and corresponding polyvinyl chloride thin plate all is insulated and is sealed in socket base, the head of live wire copper contact pin is arranged in the spliced eye of front side spliced eye section, and spliced eye section is coaxially set with front side, the head of zero line copper contact pin is arranged in the spliced eye of rear side spliced eye section, and section is coaxially set with the rear side spliced eye.

The live wire copper sheathing of the double plug section of above-mentioned spontaneous heating assembly or formed plug side the first electrical connection module with related appropriate section in the electrical connection of the right side live wire copper sheet of the live wire copper sheathing of the 3rd bronze medal member and water-proof type live wire and live wire aluminium foil.

Above-mentioned double plug section also comprises the zero line side conductive copper sheet.Between the upper surface of zero line side conductive copper sheet across the right side linkage section of the upper surface of the right side linkage section at the front side electric heating piece and rear side electric heating piece.The front end of zero line side conductive copper sheet is positioned at the top at the position of upwards exposing of linkage section of the right-hand member electrode copper sheet of front side electric heating piece, by copper rivet from bottom to top successively through the front end of the position Nei front side electric heating piece upwards exposed of the linkage section that comprises right-hand member electrode copper sheet and zero line side conductive copper sheet, again both are anchored at together and are electrically connected to.The rear end of zero line side conductive copper sheet is positioned at the top at the position of upwards exposing of the linkage section that is positioned at right-hand member electrode copper sheet of rear side electric heating piece, the rear end of the right side zero line copper sheet of water-proof type zero line is positioned at the below of linkage section of the right-hand member electrode copper sheet of rear side electric heating piece,, then the three is anchored at together and is electrically connected to from bottom to top successively through the right side live wire copper sheet of water-proof type zero line, the rear side electric heating piece at the position of upwards exposing of linkage section that comprises right-hand member electrode copper sheet and the front end of zero line side conductive copper sheet by copper rivet.Described structure has formed plug side the second electrical connection module together with the zero line copper sheathing or with related appropriate section in the electrical connection of the right side zero line copper sheet of the zero line copper sheathing of the 4th bronze medal member and water-proof type zero line and zero line aluminium foil.

Before and after described plug side the first electrical connection module and plug side the second electrical connection module divide as the front and back inserts when the Plug base injection moulding of double plug section with this Plug base formation one, and live wire copper sheathing afterbody, the afterbody of zero line copper sheathing, the zero line side conductive copper sheet, the right side of front side electric heating piece, the right side of rear side electric heating piece, the position, right side of the right side zero line copper sheet of water-proof type zero line and the position, right side of zero line aluminium foil and corresponding polyvinyl chloride thin plate, the position, right side of the right side live wire copper sheet of water-proof type live wire and the position, right side of live wire aluminium foil and corresponding polyvinyl chloride thin plate all is sealed in Plug base.And the head of live wire copper sheathing is arranged in the front side plug, is coaxially set with the front side plug and communicates with the external world towards direction from the front side plug.The head of zero line copper sheathing is arranged in the rear side plug, is coaxially set with the rear side plug and communicates with the external world towards direction from the rear side plug.

The position between receptacle portion and double plug section of the front side electric heating piece of above-mentioned spontaneous heating assembly is arranged in the top forward recess of base plate, during the position between receptacle portion and double plug section of the rear side electric heating piece of spontaneous heating assembly is arranged on the top rearward recess.

The basic technical scheme of above-mentioned water-proof type self-heating floor system of take also has as basic technical scheme: the upper grooves of base plate comprise along the floor long side direction connect base plate minute before and after the top forward recess and the top rearward recess that arrange.

The receptacle portion of above-mentioned spontaneous heating assembly is positioned at the left side of electric heating piece, and double plug section is positioned at the right side of electric heating piece.The electric heating piece of spontaneous heating assembly has 2, is divided into front side electric heating piece and rear side electric heating piece according to the difference of residing front and back position, and front side electric heating piece and rear side electric heating piece are connected electrically between water-proof type live wire and water-proof type zero line according to series system.Each electric heating piece includes 1 square strip-shaped conductive heating layer, 2 plate electrode copper sheets, plays the epoxy resin skin that contains glass fibre of insulation isolation and protection effect.Described electrode copper sheet is plane " L " shape copper sheet, by the linkage section of the section of overlaying of fore-and-aft direction and left and right directions, is connected and is formed.2 plate electrode copper sheets overlay on the left end of conductive heating layer and right-hand member and corresponding to left end electrode copper sheet and right-hand member electrode copper sheet from top by its section of overlaying respectively, and the linkage section of each electrode copper sheet is positioned at the outside of left and right directions.What the outer integral body of epoxy resin covered conductive heating layer and electrode copper sheet reaches surrounding up and down, thereby the outer field part corresponding with the linkage section of electrode copper sheet of epoxy resin becomes the outer field linkage section of epoxy resin, and the linkage section of the outer field linkage section of this epoxy resin and electrode copper sheet forms the linkage section of electric heating piece.In the linkage section of electric heating piece without conductive heating layer, and by machining thereon surface a breach of the part of the linkage section expose the electrode copper sheet is set, then this breach is arranged to solder joint.Two of the left and right of front side electric heating piece linkage section is positioned at rear side, and two of the left and right of rear side electric heating piece linkage section is positioned at front side.

The live wire copper contact pin of the receptacle portion of above-mentioned spontaneous heating assembly is positioned at the left of front side electric heating piece, and the zero line copper contact pin is positioned at the left of rear side electric heating piece.The live wire copper sheathing of double plug section is positioned at the right-hand of front side electric heating piece, and the zero line copper sheathing is positioned at the right-hand of rear side electric heating piece.

The water-proof type live wire of the transmission unit of above-mentioned spontaneous heating assembly and water-proof type zero line include the polyvinyl chloride thin plate and are called the copper strips for conduction of conducting copper belt.Each conducting copper belt is bonded and fixed on the lower surface of corresponding a slice electric heating piece along the left and right directions of electric heating piece, and the polyvinyl chloride thin plate covers from below and is bonded and fixed at conducting copper belt and is positioned on the lower surface of electric heating piece of conducting copper belt surrounding by PUR is airtight.The conducting copper belt of described water-proof type live wire is the live wire copper strips.The conducting copper belt of water-proof type zero line is the zero line copper strips.

The tail end in right side of the live wire copper contact pin of the receptacle portion of above-mentioned spontaneous heating assembly is welded on the extension left of live wire copper strips of water-proof type live wire and mutually is electrically connected to, or the extension left of live wire copper strips is simultaneously as the first bronze medal member.In this structure, related appropriate section has formed socket side the first electrical connection module.

The tail end in right side of the zero line copper contact pin of receptacle portion is welded on the extension left of zero line copper strips of water-proof type zero line and mutually is electrically connected to, or the extension left of zero line copper strips is simultaneously as the second bronze medal member.In this structure, related appropriate section has formed socket side the second electrical connection module.

Above-mentioned spontaneous heating assembly also comprises the series connection device, and this series connection device is copper conductor, bar shaped copper sheet, temperature detect switch (TDS) or resettable fuse.A corresponding end of described series connection device is welded and fixed with the scolder of the solder joint at the linkage section place of the left end electrode copper sheet of front side electric heating piece and makes the left end electrode copper sheet of front side electric heating piece be electrically connected to a corresponding end of the device of connecting.The other end of series connection device is welded and fixed with the scolder of the solder joint at the linkage section place of the left end electrode copper sheet of rear side electric heating piece and makes the left end electrode copper sheet of rear side electric heating piece be electrically connected to the other end of the device of connecting.This structure has formed socket side the 3rd electrical connection module.

Above-mentioned socket side the first electrical connection module, the second electrical connection module and the 3rd electrical connection module form the socket side electrical connection module jointly.This electrical connection module when the socket base injection moulding of receptacle portion and this socket base form one, and the afterbody of live wire copper contact pin, the afterbody of zero line copper contact pin, the left end position of water-proof type live wire, the left end position of water-proof type zero line, temperature detect switch (TDS), the left end position of front side electric heating piece and the left end position of rear side electric heating piece all are insulated and are sealed in socket base, the head of live wire copper contact pin is arranged in the spliced eye of front side spliced eye section, and spliced eye section is coaxially set with front side, the head of zero line copper contact pin is arranged in the spliced eye of rear side spliced eye section, and section is coaxially set with the rear side spliced eye.

The double plug section of above-mentioned spontaneous heating assembly also comprises 2 U-shaped connectors being made by copper sheet.These 2 U-shaped connectors are different according to the copper strips from connected, are divided into live wire end connection and zero line side connector.

The live wire end connection of above-mentioned double plug section, then is turned down forwards, backwards respectively and makes the live wire end connection be electrically connected to the live wire copper strips respectively from bottom to top through the blank position of live wire copper strips and front side electric heating piece right-hand member by two pin.The rear end of the inverted sections of the pin that is positioned at rear side of live wire end connection is welded and fixed and makes the live wire end connection be electrically connected to the right-hand member electrode copper sheet of front side electric heating piece with the scolder of the solder joint at the linkage section place of the right-hand member electrode copper sheet of front side electric heating piece.The middle part of live wire end connection is provided with extension to the right, the tail end of live wire copper sheathing is welded on the extension to the right of live wire end connection, perhaps the live wire copper sheathing is made in the direct bending in extension to the right of live wire end connection, perhaps the extension to the right of live wire end connection is directly as the 3rd bronze medal member, thereby makes the live wire end connection be electrically connected to the live wire copper sheathing.In described structure, related appropriate section has formed plug side the first electrical connection module.

The zero line side connector of above-mentioned double plug section, then is turned down forwards, backwards respectively and makes the zero line side connector be electrically connected to the zero line copper strips respectively from bottom to top through the blank position of zero line copper strips and rear side electric heating piece right-hand member by two pin.The front end of the inverted sections of the pin that is positioned at front side of zero line side connector is welded and fixed and makes the zero line side connector be electrically connected to the right-hand member electrode copper sheet of rear side electric heating piece with the scolder of the solder joint at the linkage section place of the right-hand member electrode copper sheet of rear side electric heating piece.The middle part of zero line side connector is provided with extension to the right, the tail end of zero line copper sheathing is welded on the extension to the right of zero line side connector, perhaps the zero line copper sheathing is made in the direct bending in extension to the right of zero line side connector, perhaps the extension to the right of zero line side connector is directly as the 4th bronze medal member, thereby makes the zero line side connector be electrically connected to the zero line copper sheathing.In described structure, related appropriate section has formed plug side the second electrical connection module.

Before and after above-mentioned plug side the first electrical connection module and the second electrical connection module divide as the front and back inserts when the Plug base injection moulding of double plug section with this Plug base formation one, and live wire copper sheathing afterbody, the afterbody of zero line copper sheathing, the right-hand member position of water-proof type live wire, the right-hand member position of water-proof type zero line, the right-hand member position of front side electric heating piece and the right-hand member position of rear side electric heating piece all are insulated and are sealed in Plug base.And the head of live wire copper sheathing is arranged in the front side plug, is coaxially set with the front side plug and communicates with the external world towards direction from the front side plug.The head of zero line copper sheathing is arranged in the rear side plug, is coaxially set with the rear side plug and communicates with the external world towards direction from the rear side plug.

The position between receptacle portion and double plug section of the front side electric heating piece of above-mentioned spontaneous heating assembly is arranged in the top forward recess of base plate, during the position between receptacle portion and double plug section of the rear side electric heating piece of spontaneous heating assembly is arranged on the top rearward recess.

Each appropriate technical solution of above-mentioned water-proof type self-heating floor system of take has as basic technical scheme: the receptacle portion of described spontaneous heating assembly is positioned at the left side of electric heating piece, and double plug section is positioned at the right side of electric heating piece.

2 grafting limiting sections of above-mentioned upper body are symmetrical arranged with respect to the vertical guide of the central straight line of the short side direction through upper body.Each grafting limiting section of upper body comprises all concave part, protuberance and the shielding part stretched along the fore-and-aft direction of upper body.Concave part, protuberance and shielding part set gradually according to order from inside to outside on left and right directions.Open Side Down for concave part, and protuberance is to lower convexity, and shielding part is plate body, and the lower surface of shielding part is higher than the lower surface of concave part, and the lower surface of concave part is higher than the lower surface of protuberance.

2 grafting support portions of above-mentioned base plate are symmetrical arranged with respect to the vertical guide of the central straight line of the short side direction through base plate.Each grafting support portion of base plate comprises all concave part, lug boss and the supporting plate section of stretching along the fore-and-aft direction of base plate.Concave part, lug boss and supporting plate section set gradually according to order from inside to outside on left and right directions.The opening upwards of concave part, lug boss raises up, and supporting plate section is plate body, and the upper surface of lug boss is higher than the upper surface of concave part, and the upper surface of concave part is higher than the upper surface of supporting plate section.

The Access Division of the socket base of the receptacle portion of above-mentioned spontaneous heating assembly is included in protuberance and the inserting groove from inside to outside arranged successively on left and right directions.Protuberance is divided into upper protuberance and lower protuberance by the difference of its residing upper-lower position, inserting groove is divided into upper inserting groove and lower inserting groove according to the difference of residing upper-lower position.The receptacle portion of spontaneous heating assembly is pegged graft and is coordinated up and down each other with the concave part of the left grafting limiting section of upper body by the upper protuberance of the Access Division of its socket base.The receptacle portion of spontaneous heating assembly is pegged graft and is coordinated up and down each other with the protuberance of the left grafting limiting section of upper body by the upper inserting groove of the Access Division of its socket base.The receptacle portion of spontaneous heating assembly is mutually pegged graft and is coordinated with the concave part of the left grafting support portion of base plate by the lower protuberance of the Access Division of its socket base.The receptacle portion of spontaneous heating assembly is mutually pegged graft and is coordinated with the lug boss of the left grafting support portion of base plate by the lower inserting groove of the Access Division of its socket base.

The Access Division of the Plug base of the double plug section of above-mentioned spontaneous heating assembly is included in protuberance and the inserting groove from inside to outside arranged successively on left and right directions.Protuberance is divided into upper protuberance and lower protuberance by the difference of its residing upper-lower position, inserting groove is divided into and is called upper inserting groove and lower inserting groove according to the difference of residing upper-lower position.The double plug section of spontaneous heating assembly is pegged graft and coordinates up and down each other with the concave part of the right grafting limiting section of upper body by the upper protuberance of the Access Division of its Plug base.The double plug section of spontaneous heating assembly is pegged graft and coordinates up and down each other with the protuberance of the right grafting limiting section of upper body by the upper inserting groove of the Access Division of its Plug base.The double plug section of spontaneous heating assembly is mutually pegged graft and coordinates with the concave part of the right grafting support portion of base plate by the lower protuberance of the Access Division of its Plug base.The double plug section of spontaneous heating assembly is mutually pegged graft and coordinates with the lug boss of the right grafting support portion of base plate by the lower inserting groove of the Access Division of its Plug base.

The receptacle portion that described structure makes the spontaneous heating assembly is fixed between the left grafting support portion of the left grafting limiting section of upper body and base plate by the Access Division of its socket base, and the double plug section that makes the spontaneous heating assembly is fixed between the right grafting support portion of the right grafting limiting section of upper body and base plate by the Access Division of its Plug base.

When the axis of the spliced eye section of the socket base of the receptacle portion of spontaneous heating assembly arranges along left and right directions, the shape of copper contact pin is shape linearly, and the shape of the copper sheathing of double plug section is shape linearly also, and the axis of the plug of Plug base is also along the left and right directions setting.

When the axis of the spliced eye section of the socket base of the receptacle portion of spontaneous heating assembly arranges along fore-and-aft direction, receptacle portion also comprises the first bronze medal member and the second bronze medal member.Live wire copper contact pin and zero line copper contact pin all a direction in fore-and-aft direction arrange in the same way, and the spliced eye of spliced eye section towards with copper contact pin towards identical, the first bronze medal member and the second bronze medal member are all along the left and right directions setting.The outside left at left and right directions of the spliced eye section of the socket base of receptacle portion is the first outwardly inserted block position, socket base with the adjacent position towards upper spliced eye section, is provided with the first slot position.Double plug section also comprises the 3rd bronze medal member and the 4th bronze medal member.The live wire copper sheathing of double plug section and zero line copper sheathing all arrange in the same way along another direction in fore-and-aft direction, this another direction and copper contact pin towards relative, and plug towards with copper sheathing towards identical, the 3rd bronze medal member and the 4th bronze medal member are all along the left and right directions setting.The outside left at left and right directions of the plug of the Plug base of double plug section is the second outwardly inserted block position, Plug base with the adjacent position towards upper plug, is provided with the second slot position.

Each appropriate technical solution of above-mentioned water-proof type self-heating floor system of take also has as basic technical scheme: the receptacle portion of described spontaneous heating assembly is positioned at the left side of electric heating piece, and double plug section is positioned at the right side of electric heating piece.The left part of receptacle portion upwards exposes the left grafting limiting section of upper body.The right part of double plug section exposes the right grafting support portion of base plate downwards.

The axis of the spliced eye section of the socket base of the receptacle portion of above-mentioned spontaneous heating assembly arranges along the vertical direction, and receptacle portion also comprises the first bronze medal member and the second bronze medal member.Live wire copper contact pin and zero line copper contact pin be the same direction in above-below direction all, and the spliced eye of spliced eye section towards with copper contact pin towards identical, the first bronze medal member and the second bronze medal member are all along the left and right directions setting.Double plug section also comprises the 3rd bronze medal member and the 4th bronze medal member.The live wire copper sheathing of double plug section and zero line copper sheathing be the direction of another in above-below direction all, this another direction and copper contact pin towards relative, and plug towards with copper sheathing towards identical, the 3rd bronze medal member and the 4th bronze medal member are all along the left and right directions setting.

The left grafting limiting section of above-mentioned upper body comprises all concave part and the protuberance stretched along the fore-and-aft direction of upper body.Concave part and protuberance set gradually according to order from inside to outside on left and right directions.Open Side Down for concave part, and protuberance is to lower convexity, and the lower surface of concave part is higher than the lower surface of protuberance.

The right grafting limiting section of above-mentioned upper body comprises all concave part, protuberance and the shielding part stretched along the fore-and-aft direction of upper body.Concave part, protuberance and shielding part set gradually according to order from inside to outside on left and right directions.Open Side Down for concave part, and protuberance is to lower convexity, and shielding part is plate body, and the lower surface of shielding part is higher than the lower surface of concave part, and the lower surface of concave part is higher than the lower surface of protuberance.

The left grafting support portion of above-mentioned base plate comprises all concave part, lug boss and the supporting plate section of stretching along the fore-and-aft direction of base plate.Concave part, lug boss and supporting plate section set gradually according to order from inside to outside on left and right directions.The opening upwards of concave part, lug boss raises up, and supporting plate section is plate body, and the upper surface of lug boss is higher than the upper surface of concave part, and the upper surface of concave part is higher than the upper surface of supporting plate section.

The right grafting support portion of base plate comprises all concave part and the lug boss stretched along the fore-and-aft direction of base plate.Concave part and lug boss set gradually according to order from inside to outside on left and right directions.The opening upwards of concave part, lug boss raises up, and the upper surface of lug boss is higher than the upper surface of concave part.

The Access Division of the socket base of the receptacle portion of above-mentioned spontaneous heating assembly is included in protuberance and the inserting groove from inside to outside arranged successively on left and right directions.Protuberance is divided into upper protuberance and lower protuberance by the difference of its residing upper-lower position, inserting groove is divided into upper inserting groove and lower inserting groove according to the difference of residing upper-lower position.The receptacle portion of spontaneous heating assembly is pegged graft and is coordinated up and down each other with the concave part of the left grafting limiting section of upper body by the upper protuberance of the Access Division of its socket base.The receptacle portion of spontaneous heating assembly is pegged graft and is coordinated up and down each other with the protuberance of the left grafting limiting section of upper body by the upper inserting groove of the Access Division of its socket base.The receptacle portion of spontaneous heating assembly is mutually pegged graft and is coordinated with the concave part of the left grafting support portion of base plate by the lower protuberance of the Access Division of its socket base.The receptacle portion of spontaneous heating assembly is mutually pegged graft and is coordinated with the lug boss of the left grafting support portion of base plate by the lower inserting groove of the Access Division of its socket base.

The Access Division of the Plug base of the double plug section of above-mentioned spontaneous heating assembly is included in protuberance and the inserting groove from inside to outside arranged successively on left and right directions.Protuberance is divided into upper protuberance and lower protuberance by the difference of its residing upper-lower position, inserting groove is divided into and is called upper inserting groove and lower inserting groove according to the difference of residing upper-lower position.The double plug section of spontaneous heating assembly is pegged graft and coordinates up and down each other with the concave part of the right grafting limiting section of upper body by the upper protuberance of the Access Division of its Plug base.The double plug section of spontaneous heating assembly is pegged graft and coordinates up and down each other with the protuberance of the right grafting limiting section of upper body by the upper inserting groove of the Access Division of its Plug base.The double plug section of spontaneous heating assembly is mutually pegged graft and coordinates with the concave part of the right grafting support portion of base plate by the lower protuberance of the Access Division of its Plug base.The double plug section of spontaneous heating assembly is mutually pegged graft and coordinates with the lug boss of the right grafting support portion of base plate by the lower inserting groove of the Access Division of its Plug base.

The receptacle portion that structure described above makes the spontaneous heating assembly is fixed between the left grafting support portion of the left grafting limiting section of upper body and base plate by the Access Division of its socket base, and the double plug section that makes the spontaneous heating assembly is fixed between the right grafting support portion of the right grafting limiting section of upper body and base plate by the Access Division of its Plug base.

Each appropriate technical solution of above-mentioned water-proof type self-heating floor system of take also has as basic technical scheme: 2 grafting limiting sections of described upper body are symmetrical arranged with respect to the vertical guide of the central straight line of the short side direction through upper body.Each grafting limiting section of upper body comprises all concave part, protuberance and the shielding part stretched along the fore-and-aft direction of upper body.Concave part, protuberance and shielding part set gradually according to order from inside to outside on left and right directions.Open Side Down for concave part, and protuberance is to lower convexity, and shielding part is plate body, and the lower surface of shielding part is higher than the lower surface of concave part, and the lower surface of concave part is higher than the lower surface of protuberance.

2 grafting support portions of above-mentioned base plate are symmetrical arranged with respect to the vertical guide of the central straight line of the short side direction through base plate.Each grafting support portion of base plate comprises all concave part, lug boss and the supporting plate section of stretching along the fore-and-aft direction of base plate.Concave part, lug boss and supporting plate section set gradually according to order from inside to outside on left and right directions.The opening upwards of concave part, lug boss raises up, and supporting plate section is plate body, and the upper surface of lug boss is higher than the upper surface of concave part, and the upper surface of concave part is higher than the upper surface of supporting plate section.

The Access Division of the socket base of the receptacle portion of above-mentioned spontaneous heating assembly is included in protuberance and the inserting groove from inside to outside arranged successively on left and right directions.Protuberance is divided into upper protuberance and lower protuberance by the difference of its residing upper-lower position, inserting groove is divided into upper inserting groove and lower inserting groove according to the difference of residing upper-lower position.The receptacle portion of spontaneous heating assembly is pegged graft and is coordinated up and down each other with the concave part of the left grafting limiting section of upper body by the upper protuberance of the Access Division of its socket base.The receptacle portion of spontaneous heating assembly is pegged graft and is coordinated up and down each other with the protuberance of the left grafting limiting section of upper body by the upper inserting groove of the Access Division of its socket base.The receptacle portion of spontaneous heating assembly is mutually pegged graft and is coordinated with the concave part of the left grafting support portion of base plate by the lower protuberance of the Access Division of its socket base.The receptacle portion of spontaneous heating assembly is mutually pegged graft and is coordinated with the lug boss of the left grafting support portion of base plate by the lower inserting groove of the Access Division of its socket base.

The Access Division of the Plug base of the double plug section of above-mentioned spontaneous heating assembly is included in protuberance and the inserting groove from inside to outside arranged successively on left and right directions.Protuberance is divided into upper protuberance and lower protuberance by the difference of its residing upper-lower position, inserting groove is divided into and is called upper inserting groove and lower inserting groove according to the difference of residing upper-lower position.The double plug section of spontaneous heating assembly is pegged graft and coordinates up and down each other with the concave part of the right grafting limiting section of upper body by the upper protuberance of the Access Division of its Plug base.The double plug section of spontaneous heating assembly is pegged graft and coordinates up and down each other with the protuberance of the right grafting limiting section of upper body by the upper inserting groove of the Access Division of its Plug base.The double plug section of spontaneous heating assembly is mutually pegged graft and coordinates with the concave part of the right grafting support portion of base plate by the lower protuberance of the Access Division of its Plug base.The double plug section of spontaneous heating assembly is mutually pegged graft and coordinates with the lug boss of the right grafting support portion of base plate by the lower inserting groove of the Access Division of its Plug base.

The receptacle portion that described structure makes the spontaneous heating assembly is fixed between the left grafting support portion of the left grafting limiting section of upper body and base plate by the Access Division of its socket base, and the double plug section that makes the spontaneous heating assembly is fixed between the right grafting support portion of the right grafting limiting section of upper body and base plate by the Access Division of its Plug base.

When the axis of the spliced eye section of the socket base of the receptacle portion of spontaneous heating assembly arranges along left and right directions, the shape of copper contact pin is shape linearly, and the shape of the copper sheathing of double plug section is shape linearly also, and the axis of the plug of Plug base is also along the left and right directions setting.

When the axis of the spliced eye section of the socket base of the receptacle portion of spontaneous heating assembly arranges along fore-and-aft direction, receptacle portion also comprises the first bronze medal member and the second bronze medal member.Live wire copper contact pin and zero line copper contact pin all a direction in fore-and-aft direction arrange in the same way, and the spliced eye of spliced eye section towards with copper contact pin towards identical, the first bronze medal member and the second bronze medal member are all along the left and right directions setting.The outside left at left and right directions of the spliced eye section of the socket base of receptacle portion is the first outwardly inserted block position, socket base with the adjacent position towards upper spliced eye section, is provided with the first slot position.Double plug section also comprises the 3rd bronze medal member and the 4th bronze medal member.The live wire copper sheathing of double plug section and zero line copper sheathing all arrange in the same way along another direction in fore-and-aft direction, this another direction and copper contact pin towards relative, and plug towards with copper sheathing towards identical, the 3rd bronze medal member and the 4th bronze medal member are all along the left and right directions setting.The outside left at left and right directions of the plug of the Plug base of double plug section is the second outwardly inserted block position, Plug base with the adjacent position towards upper plug, is provided with the second slot position.

Each appropriate technical solution of above-mentioned water-proof type self-heating floor system of take also has as basic technical scheme: the left part of described receptacle portion upwards exposes the left grafting limiting section of upper body.The right part of double plug section exposes the right grafting support portion of base plate downwards.

The axis of the spliced eye section of the socket base of the receptacle portion of above-mentioned spontaneous heating assembly arranges along the vertical direction, and receptacle portion also comprises the first bronze medal member and the second bronze medal member.Live wire copper contact pin and zero line copper contact pin be the same direction in above-below direction all, and the spliced eye of spliced eye section towards with copper contact pin towards identical, the first bronze medal member and the second bronze medal member are all along the left and right directions setting.Double plug section also comprises the 3rd bronze medal member and the 4th bronze medal member.The live wire copper sheathing of double plug section and zero line copper sheathing be the direction of another in above-below direction all, this another direction and copper contact pin towards relative, and plug towards with copper sheathing towards identical, the 3rd bronze medal member and the 4th bronze medal member are all along the left and right directions setting.

The left grafting limiting section of above-mentioned upper body comprises all concave part and the protuberance stretched along the fore-and-aft direction of upper body.Concave part and protuberance set gradually according to order from inside to outside on left and right directions.Open Side Down for concave part, and protuberance is to lower convexity, and the lower surface of concave part is higher than the lower surface of protuberance.

The right grafting limiting section of above-mentioned upper body comprises all concave part, protuberance and the shielding part stretched along the fore-and-aft direction of upper body.Concave part, protuberance and shielding part set gradually according to order from inside to outside on left and right directions.Open Side Down for concave part, and protuberance is to lower convexity, and shielding part is plate body, and the lower surface of shielding part is higher than the lower surface of concave part, and the lower surface of concave part is higher than the lower surface of protuberance.The left grafting support portion of base plate comprises all concave part, lug boss and the supporting plate section of stretching along the fore-and-aft direction of base plate.Concave part, lug boss and supporting plate section set gradually according to order from inside to outside on left and right directions.The opening upwards of concave part, lug boss raises up, and supporting plate section is plate body, and the upper surface of lug boss is higher than the upper surface of concave part, and the upper surface of concave part is higher than the upper surface of supporting plate section.

The right grafting support portion of above-mentioned base plate comprises all concave part and the lug boss stretched along the fore-and-aft direction of base plate.Concave part and lug boss set gradually according to order from inside to outside on left and right directions.The opening upwards of concave part, lug boss raises up, and the upper surface of lug boss is higher than the upper surface of concave part.

The Access Division of the socket base of the receptacle portion of above-mentioned spontaneous heating assembly is included in protuberance and the inserting groove from inside to outside arranged successively on left and right directions.Protuberance is divided into upper protuberance and lower protuberance by the difference of its residing upper-lower position, inserting groove is divided into upper inserting groove and lower inserting groove according to the difference of residing upper-lower position.The receptacle portion of spontaneous heating assembly is pegged graft and is coordinated up and down each other with the concave part of the left grafting limiting section of upper body by the upper protuberance of the Access Division of its socket base.The receptacle portion of spontaneous heating assembly is pegged graft and is coordinated up and down each other with the protuberance of the left grafting limiting section of upper body by the upper inserting groove of the Access Division of its socket base.The receptacle portion of spontaneous heating assembly is mutually pegged graft and is coordinated with the concave part of the left grafting support portion of base plate by the lower protuberance of the Access Division of its socket base.The receptacle portion of spontaneous heating assembly is mutually pegged graft and is coordinated with the lug boss of the left grafting support portion of base plate by the lower inserting groove of the Access Division of its socket base.

The Access Division of the Plug base of the double plug section of above-mentioned spontaneous heating assembly is included in protuberance and the inserting groove from inside to outside arranged successively on left and right directions.Protuberance is divided into upper protuberance and lower protuberance by the difference of its residing upper-lower position, inserting groove is divided into and is called upper inserting groove and lower inserting groove according to the difference of residing upper-lower position.The double plug section of spontaneous heating assembly is pegged graft and coordinates up and down each other with the concave part of the right grafting limiting section of upper body by the upper protuberance of the Access Division of its Plug base.The double plug section of spontaneous heating assembly is pegged graft and coordinates up and down each other with the protuberance of the right grafting limiting section of upper body by the upper inserting groove of the Access Division of its Plug base.The double plug section of spontaneous heating assembly is mutually pegged graft and coordinates with the concave part of the right grafting support portion of base plate by the lower protuberance of the Access Division of its Plug base.The double plug section of spontaneous heating assembly is mutually pegged graft and coordinates with the lug boss of the right grafting support portion of base plate by the lower inserting groove of the Access Division of its Plug base.

The receptacle portion that described structure makes the spontaneous heating assembly is fixed between the left grafting support portion of the left grafting limiting section of upper body and base plate by the Access Division of its socket base, and the double plug section that makes the spontaneous heating assembly is fixed between the right grafting support portion of the right grafting limiting section of upper body and base plate by the Access Division of its Plug base.

The basic technical scheme of above-mentioned water-proof type self-heating floor system of take also has as basic technical scheme: described water-proof type self-heating floor system also comprises locating piece.Locating piece has 4, and each locating piece includes main part, dovetail and positioning boss.The cross sectional shape of the main part of locating piece is identical with the cross sectional shape of the socket base of receptacle portion.Dovetail is corresponding with the dovetail groove of receptacle portion.

The socket base rear and front end along continuous straight runs of above-mentioned receptacle portion is provided with dovetail groove, and dovetail groove is divided into the first dovetail groove and the second dovetail groove by its residing front and back position.

The Plug base rear and front end along continuous straight runs of above-mentioned double plug section is provided with dovetail groove, and dovetail groove is divided into the first dovetail groove and the second dovetail groove by its residing front and back position.The first dovetail groove of the first dovetail groove of receptacle portion and the second dovetail groove and double plug section is all identical with the structure of the second dovetail groove.During use, in the first dovetail groove, the second dovetail groove that 4 locating pieces are inserted to the first dovetail groove, the second dovetail groove and the double plug section of corresponding receptacle portion by dovetail separately respectively.

All be provided with successively from outside to inside cross section on the inwall of 2 spliced eyes of the socket base of above-mentioned receptacle portion and be the first arc seal groove and the second seal groove.

The cross section that 2 plugs of the Plug base of above-mentioned double plug section all are provided with from inside to outside successively as the first plug Access Division and the second plug Access Division is arc annular protrusion position.And the first plug Access Division is corresponding with the first seal groove of the spliced eye of the socket base of receptacle portion, the second plug Access Division is corresponding with the second seal groove of the spliced eye of the socket base of receptacle portion.

The basic technical scheme of above-mentioned water-proof type self-heating floor system of take also has as basic technical scheme: the receptacle portion of described spontaneous heating assembly also comprises 2 blocked hole sections, and 2 blocked hole sections are divided into the first blocked hole section and the second blocked hole section by the difference of its residing front and back position.The first blocked hole section and the second blocked hole section are the position that is provided with L-shaped hole, cross section, an opening in the hole of its described " L " shape left, another opening upwards.The double plug section of spontaneous heating assembly also comprises 2 blocked hole sections.These 2 blocked hole sections are divided into the 3rd blocked hole section and the 4th blocked hole section by the difference of its residing front and back position.The 3rd blocked hole section and the 4th blocked hole section are the position that is provided with L-shaped hole, cross section, an opening in the hole of its described " L " shape to the right, another opening upwards.

Above-mentioned connector also comprises the second connector.The second connector comprises the connecting portion that is positioned at middle part and the flexible clamping section that is positioned at the connecting portion left and right sides.The shape of connecting portion is " mouth " font substantially, the structure of the flexible clamping section of the structure of flexible clamping section and the first connector is basic identical, and flexible clamping section is connected to connecting portion from the bottom, the left and right sides of connecting portion, thereby formed a corresponding distortion groove between connecting portion and each flexible clamping section.During use, the second connector is pressed downward contracting and is stretched in a corresponding blocked hole seat of water-proof type self-heating floor by the free end position of its flexible clamping section, because the end face of the free end of flexible clamping section is now stopped by the corresponding inwall of the blocked hole seat of the power supply Plug Division of water-proof type self-heating floor, two water-proof type self-heating floors lockings that the second connector is adjacent by left and right link together.

The appropriate technical solution of above-mentioned spontaneous heating assembly of take has as basic technical scheme: described spontaneous heating assembly also comprises temperature switch or resettable fuse; When between the electric heating piece of spontaneous heating assembly, forming series circuit, also be in series with temperature switch or resettable fuse in this series circuit; When between the electric heating piece of spontaneous heating assembly, forming parallel circuits, be in series with a corresponding temperature switch or resettable fuse on the branch road of every electric heating piece.

The appropriate technical solution of above-mentioned water-proof type self-heating floor of take has as basic technical scheme: described heat generating component also comprises temperature switch or resettable fuse; When between the electric heating piece of spontaneous heating assembly, forming series circuit, also be in series with temperature switch or resettable fuse in this series circuit; When between the electric heating piece of spontaneous heating assembly, forming parallel circuits, be in series with a corresponding temperature switch or resettable fuse on the branch road of every electric heating piece.

The present invention has positive effect:

(1) all electrical connections position in spontaneous heating assembly of the present invention all is injection-moulded in corresponding receptacle portion and double plug section, and make spontaneous heating assembly of the present invention, it is a kind of water-proof type spontaneous heating assembly, accomplished whole insulated enclosure, can not produce leaky, greatly improve the safety and reliability of product.

(2) conductive heating layer of the electric heating piece of spontaneous heating assembly of the present invention preferably 800 to 1000 purpose graphite powders as main electric conducting material, make the temperature of different parts of whole electric heating piece very approaching, maximum temperature gap also can remain in 1 degree, thereby whole electric heating piece heating is comparatively even, and conductive heating layer and copper sheet are compacted vacuum seal between two epoxy resin thin plates, avoided the electrode place to produce larger electric current, greatly extended the useful life of electrode.

(3) conductive heating layer of the electric heating piece of spontaneous heating assembly of the present invention and copper sheet are compacted and are sealed between two epoxy resin thin plates, make conductive heating layer and copper sheet and air isolated, thus the useful life of greatly having improved electric heating piece.

(4) also be provided with temperature switch or resettable fuse in spontaneous heating assembly of the present invention.Temperature switch is a kind of temperature switch of bimetal leaf as temperature-sensing element of using, and when the spontaneous heating assembly works, bimetal leaf is in free state, and contact is in closure state.When temperature is increased to the operating temperature value, bimetallic element is heated and produces internal stress and action rapidly, opens contact and cuts off circuit, thereby play the effect on heat protection floor.Contact auto-closing when temperature drops to design temperature, recover normal operating conditions, without artificial replacing, simple and reliable for structure.

While adopting resettable fuse; when circuit is short-circuited or transships; the large electric current of fuse of flowing through makes its collection temperature rise; when reaching Curie temperature; its density of states reduces rapidly; phase transformation increases; inner electrically conductive links is the snowslide state and becomes or rupture; fuse is phase step type and adjourns high-impedance state; electric current is by rapid pinch off; thereby circuit is limited fast and accurately and protects, and its small electric current makes fuse always in guard mode, effectively avoided the fire even caused because of circuit burnout that burns of circuit.After outage and fault eliminating, its collection temperature drop is low, and the density of states increases, and phase transformation is restored, and nanocrystal is reduced into the chain conductive path, and resettable fuse reverts to normal condition, without artificial replacing, simple and reliable for structure.

(5) electric heating piece that water-proof type self-heating floor of the present invention is usingd in the internal cavity that disposed thereon main body and base plate form is as heater element, also at the two ends, left and right of upper body and base plate, be respectively equipped with grafting limiting section and grafting support portion, the receptacle portion of the spontaneous heating assembly of water-proof type self-heating floor and double plug section can be rabbeted firmly and be fixed in the water-proof type self-heating floor, simple and reliable for structure.

(6) electric heating piece of spontaneous heating assembly of the present invention is arranged in the groove of base plate of water-proof type self-heating floor, the base plate of water-proof type self-heating floor is identical with the material of upper body and directly be bonded to and be integrated by polyurethane hot melt, having avoided between unlike material bonding mutually to be affected by thermal expansion and contraction and produces the problem of cracking; Also by binding agent, make the upper side of electric heating piece be bonded on upper panel, and make the downside of electric heating piece be bonded on base plate, reliable in structure.

(7) water-proof type self-heating floor of the present invention all adopts working of plastics to be connected and fixed each other, not only simple and reliable for structure, and has saved the timber slatterned due to the traditional tenon of making in a large number.

(8) the double plug section of the spontaneous heating assembly of the receptacle portion of the spontaneous heating assembly of water-proof type self-heating floor of the present invention and adjacent corresponding water-proof type self-heating floor coordinates and while being electrically connected to being mutually permanently connected, and can adopt along the floor long side direction is also that left and right directions is mutually pegged graft to be fixedly connected with and coordinated and be electrically connected to; Also can adopting pegs graft to be fixedly connected with along the above-below direction on floor mutually coordinates and is electrically connected to; Can also adopt pegs graft to be fixedly connected with along the fore-and-aft direction of the outside left of floor left and right directions mutually coordinates and is electrically connected to, and form is varied, can adapt to different installation requirements.

(9) electric power system in water-proof type self-heating floor system of the present invention consists of 1 supply line, all on the long side direction of floor the water-proof type self-heating floor in same row be form in parallel, each piece water-proof type self-heating floor is an independently heat-generating units, even the electric heating piece of certain piece water-proof type self-heating floor damages, also can not affect the work of other water-proof type self-heating floors.

(10) electric power system in water-proof type self-heating floor system of the present invention only is provided with 1 special supply line, each special socket set gradually by this supply line is powered to the double plug section of an end that is positioned at left and right directions of the spontaneous heating assembly of a corresponding self-heating floor, all on the long side direction of floor the water-proof type self-heating floor in same row each other the spontaneous heating assembly by separately be electrically connected to successively, and make the electric heating piece heating when carrying out current delivery, do not need extra electrical connector or supply line to be powered to each self-heating floor, simple in structure quick and easy for installation.

(11) supply line in the electric power system in water-proof type self-heating floor system of the present invention is comprised of a plurality of power supply bases and 1 RVV that contains 2 wires, and preferred sealing means is that corresponding a section of RVV is connected as a single entity with this pedestal as inserts when the pedestal injection moulding of a corresponding power supply base with corresponding power supply plug pin, thereby has water-tight completely between the pedestal of RVV and power supply base, when the receptacle portion of every water-proof type self-heating floor coordinates in the installation of the double plug section with corresponding water-proof type self-heating floor, and the power supply base of supply line and the double plug section of corresponding water-proof type self-heating floor install while coordinating, all adopt two seals, greatly improved the water-tight connected each other, the employing of above-mentioned these measures, make the water proofing property of floor system of the present invention very good, even the situation of leaking met accident, or the large situation of wet weather indoor humidity, also can not affect the normal operation of native system, fundamentally avoided the generation of security incident, and can also, after starting floor of the present invention electric power system, rapidly moisture content be driven away.

The accompanying drawing explanation

The schematic perspective view that Fig. 1 is water-proof type self-heating floor of the present invention;

The schematic perspective view of Fig. 2 when upwards observing from the right front below of Fig. 1;

The schematic perspective view of Fig. 3 when upwards observing from the left front below of Fig. 1;

The local enlarged diagram that Fig. 4 is the I place in Fig. 2;

The local enlarged diagram that Fig. 5 is the II place in Fig. 3;

The A-A cross-sectional schematic that Fig. 6 is Fig. 1;

The local enlarged diagram that Fig. 7 is the III place in Fig. 6;

The schematic diagram of the base plate that Fig. 8 is the water-proof type self-heating floor in Fig. 6;

The schematic diagram that Fig. 9 is water-proof type self-heating floor during from the forward observation of Fig. 1;

The upper body that Figure 10 is the water-proof type self-heating floor from Fig. 9 and the schematic diagram of base plate;

Figure 11 is the schematic diagram when observing from the F of Figure 10;

The schematic perspective view that Figure 12 is the electric heating piece in Fig. 6;

The perspective diagram that Figure 13 is the spontaneous heating assembly;

The schematic perspective view that Figure 14 is the spontaneous heating assembly in the water-proof type self-heating floor shown in Fig. 1;

The schematic diagram that Figure 15 is the locating piece in Fig. 1;

The schematic diagram that the spontaneous heating assembly that Figure 16 is Figure 14 and the locating piece of Figure 15 are combined;

The schematic diagram that Figure 17 is the first connector of the present invention;

The schematic diagram that Figure 18 is the first connector during from the forward observation of Figure 17;

Schematic diagram when Figure 19 links together the water-proof type self-heating floor shown in two Fig. 1 for the first connector as shown in Figure 17 in the long leg position;

The schematic diagram that Figure 20 is the second connector of the present invention;

The schematic diagram that Figure 21 is the second connector during from the forward observation of Figure 20;

Cross-sectional schematic when Figure 22 links together at the minor face position water-proof type self-heating floor shown in two Fig. 1 for the second connector as shown in Figure 20 by the power supply Plug Division of corresponding spontaneous heating assembly;

The schematic perspective view that Figure 23 is supply line of the present invention;

The B-B cross-sectional schematic that Figure 24 is Figure 21;

The schematic diagram that Figure 25 is water-proof type self-heating floor system of the present invention;

The perspective diagram that Figure 26 is another kind of spontaneous heating assembly of the present invention;

Figure 27 is C-C cross-sectional schematic in Figure 26;

The electric connection structure schematic diagram of the end portion that Figure 28 is the spontaneous heating assembly in Figure 26;

The perspective diagram that Figure 29 is the third spontaneous heating assembly of the present invention;

The electric connection structure schematic diagram of the end portion that Figure 30 is the spontaneous heating assembly in Figure 29;

The structural representation that Figure 31 is the 4th kind of spontaneous heating assembly of the present invention;

The schematic diagram that Figure 32 is the Plug base of double plug section in Figure 31;

The schematic diagram that Figure 33 is the socket base of receptacle portion in Figure 31;

Figure 34 schematic diagram that to be the Plug base shown in Figure 32 peg graft while coordinating mutually with the socket base shown in Figure 33;

The cooperation perspective diagram of the corresponding end portion that Figure 35 is two the 4th kind of spontaneous heating assemblies shown in Figure 31;

Figure 36 is the schematic diagram of the 5th kind of spontaneous heating component application of the present invention in the second water-proof type self-heating floor;

The schematic diagram that the minor face that Figure 37 is two water-proof type self-heating floors shown in Figure 36 cooperatively interacts and is electrically connected to;

The schematic diagram that Figure 38 is the supply line that is used in conjunction with the double plug section of the 4th kind of spontaneous heating assembly shown in Figure 31.

Mark in above-mentioned accompanying drawing is as follows:

Water-proof type self-heating floor 1,

Upper body 11, grafting limiting section 11-1, left grafting limiting section 11-11, right grafting limiting section 11-12, concave part 11-1-1, protuberance 11-1-2, shielding part 11-1-3,

Access Division 11-2, Access Division, front side 11-21, rear side Access Division 11-22, lower protuberance 11-2-1, spigot surface 11-2a, lower surface 11-2b, blocking surface 11-2c, contact limiting section 11-2-2, contact-making surface 11-2d, confined planes 11-2e,

Base plate 12, grafting support portion 12-1, left grafting support portion 12-11, right grafting support portion 12-12, concave part 12-1-1, lug boss 12-1-2, the 12-1-3 of supporting plate section, support portion 12-2, the 12-21 of front support section, the 12-22 of rear support section, supporting surface 12-2a, confined planes 12-2b, upper grooves 12-3, top forward recess 12-3-1, top rearward recess 12-3-2, wiring duct 12-4, front wiring duct 12-4-1, rear wiring duct 12-4-2

Spontaneous heating assembly 13, socket side the first electrical connection module 13a1, socket side the second electrical connection module 13a2, socket side the 3rd electrical connection module 13a3, plug side the first electrical connection module 13b1, plug side the second electrical connection module 13b2, electric heating piece 13-1, front side electric heating piece 13-11, rear side electric heating piece 13-12, conductive heating layer 13-1-1, electrode copper sheet 13-1-2, the outer 13-1-3 of epoxy resin, left connecting portion 13-1-3a, left inside connecting portion 13-1-3a1, left outside connecting portion 13-1-3a2, right connecting portion 13-1-3b, right inside connecting portion 13-1-3b1, right outside connecting portion 13-1-3b2, injection moulding connecting hole 13-1-4, solder joint 13-1-5, series connection device 13-1-6,

Receptacle portion 13-2, socket base 13-2-1, Access Division 13-2-1a, the 13-2-1b of spliced eye section, the 13-2-1b1 of front side spliced eye section, the rear side spliced eye 13-2-1b2 of section, the first inserted block position 13-2-1c, the first slot position 13-2-1d, live wire end conductive copper sheet 13-2-2, copper contact pin 13-2-3, live wire copper contact pin 13-2-3a, zero line copper contact pin 13-2-3b, the first bronze medal member 13-2-3c, the second bronze medal member 13-2-3d, protuberance 13-2-4, upper protuberance 13-2-4a, lower protuberance 13-2-4b, inserting groove 13-2-5, upper inserting groove 13-2-5a, lower inserting groove 13-2-5b the first seal groove 13-2-6, the second seal groove 13-2-7, the first blocked hole seat 13-2-8, the second blocked hole seat 13-2-9, dovetail groove 13-2-10, the first dovetail groove 13-2-10a, the second dovetail groove 13-2-10b,

The 13-3 of double plug section, Plug base 13-3-1, Access Division 13-3-1a, plug 13-3-1b, front side plug 13-3-1b1, rear side plug 13-3-1b2, the second inserted block position 13-3-1c, the second slot position 13-3-1d, zero line side conductive copper sheet 13-3-2, copper sheathing 13-3-3, live wire copper sheathing 13-3-3a, zero line copper sheathing 13-3-3b, the 3rd bronze medal member 13-3-3c, the 4th bronze medal member 13-3-3d, protuberance 13-3-4, upper protuberance 13-3-4a, lower protuberance 13-3-4b inserting groove 13-3-5, upper inserting groove 13-3-5a, lower inserting groove 13-3-5b the first plug Access Division 13-3-6, the second plug Access Division 13-3-7, the first blocked hole seat 13-3-8, the second blocked hole seat 13-3-9, dovetail groove 13-3-10, the first dovetail groove 13-3-10a, the second dovetail groove 13-3-10b, U-shaped connector 13-3-11, live wire end connection 13-3-11, zero line side connector 13-3-11b,

Electric wire 13-4, the first electric wire 13-41, the second electric wire 13-42, aluminium foil 13-5, live wire aluminium foil 13-51, zero line aluminium foil 13-52, conduction is used copper sheet 13-6, copper rivet 13-7, polyvinyl chloride thin plate 13-8, conducting copper belt 13-9, live wire copper strips 13-91, zero line copper strips 13-92,

Locating piece 14, main part 14-1, dovetail 14-2, positioning boss 14-3,

Connector 2, the first connectors 21, connecting portion 21-1, the 21-2 of flexible clamping section, end face 21-2a, distortion groove 21-3,

The second connector 22, connecting portion 22-1, the 22-2 of flexible clamping section, end face 22-2a, distortion groove 22-3,

Power supply base 6, pedestal 61, pedestal principal part 61-1, the 61-2 of adapter sleeve section, the first buckling groove 61-2-1, the second buckling groove 61-2-2, injection moulding connecting portion 61-3, power supply plug pin 62,

RVV 7, the first electric wire 71, the second electric wires 72,

The first fit clearance 91, the second fit clearances 92,

The first water-proof type self-heating floor 101, the second water-proof type self-heating floor 102, the three water-proof type self-heating floor 103, the four water-proof type self-heating floor 104, the five water-proof type self-heating floor 105, the six water-proof type self-heating floors 106,

Supply line 600.

Embodiment

The orientation of specific descriptions mode of the present invention is described according to the orientation shown in Fig. 1, the long side direction on floor of take is left and right directions, take the floor short side direction as fore-and-aft direction, be called inboard with the side near the center, floor, be called the outside with the side away from the center, floor, be that lower left in Fig. 1 is front side, upper right side is rear side.

(embodiment 1, spontaneous heating assembly)

See Figure 12 and Figure 13, spontaneous heating assembly 13 is the water-proof type electric-heating assembly, receptacle portion 13-2 and the 13-3 of double plug section that spontaneous heating assembly 13 comprises transmission unit, electric heating piece 13-1 and lays respectively at two ends, electric heating piece 13-1 left and right.The transmission unit of spontaneous heating assembly 13 is comprised of water-proof type live wire and water-proof type zero line, and the transmission unit of spontaneous heating assembly 13 comprises 2 wire 13-4.Receptacle portion 13-2 can mutually peg graft and fixedly be electrically connected to the 13-3 of double plug section of the spontaneous heating assembly 13 of corresponding adjacent water-proof type self-heating floor 1 while using, and the parts of mutual water-tight connection; The 13-3 of double plug section can mutually peg graft and fixedly be electrically connected to the 13-3 of double plug section of the spontaneous heating assembly 13 of corresponding adjacent water-proof type self-heating floor 1 while using, and the parts of mutual water-tight connection.

Electric heating piece 13-1 has 1 to 5, and the electric heating piece 13-1 of the present embodiment has two, and its planform is corresponding, and every electric heating piece is the laminar sealing waterproof type electrothermal device that an electrode is set at the left and right end; And the axis along the long side direction on floor is symmetrical arranged, and two electric heating piece 13-1 are divided into front side electric heating piece 13-11 and rear side electric heating piece 13-12 by its residing front and back position, between front side electric heating piece 13-11 and rear side electric heating piece 13-12, are arranged in parallel.2 wire 13-4 comprise the first electric wire 13-41 as the water-proof type live wire that is positioned at front side and the second electric wire 13-42 as the water-proof type zero line that is positioned at rear side.2 wire 13-4 are the conductor wire that single copper core outside is coated with the ambroin skin.The left end of front side electric heating piece 13-11 and rear side electric heating piece 13-12 is fixedly connected with and is electrically connected to the front and back, right side of receptacle portion 13-2 respectively, and the right-hand member of front side electric heating piece 13-11 and rear side electric heating piece 13-12 is fixedly connected with and is electrically connected to the front and back, left side of the 13-3 of double plug section respectively.

See Figure 12 and Figure 13, the manufacture method of electric heating piece 13-1 is: by conductive exothermal material (the present embodiment adopt conductive exothermal material be 800 order to 1000 purpose graphite powders) and resinoid bond (as epoxy adhesive, or polyurethane resin binding agent, or the melamine binding agent etc., the present embodiment adopts epoxy adhesive), stir and obtain electrically-conducting paint, wherein, the conductive exothermal material accounts for the 20%-85% of electrically-conducting paint total weight.Then by electrically-conducting paint, according to square banded shape, at the epoxy resin thin plate of the precuring that contains glass fibre, (lamella thickness is 0.2 millimeter, wherein glass fibre is 1 to 1 with the weight ratio of epoxy resin) upper by silk-screen printing technique printing side strip-shaped conductive heating layer 13-1-1, and make printed layers at 110 degrees centigrade to 120 degree celsius temperature, in 1 minute, be cured, and the groove width of the corresponding top forward recess 12-3-1 of the upper grooves 12-3 of the base plate 12 that the width of the conductive heating layer 13-1-1 of 1/2 to 3/4(the present embodiment of the groove width of the corresponding top forward recess 12-3-1 of the upper grooves 12-3 of the base plate 12 that the width of conductive heating layer 13-1-1 is water-proof type self-heating floor 1 is water-proof type self-heating floor 1 2/3).

After conductive heating layer solidifies, immediately the copper sheet of " L " shape of 0.05 millimeters thick is covered on the left end of conductive heating layer as electrode copper sheet 13-1-2, this electrode copper sheet is called left end electrode copper sheet, and the electrode copper sheet 13-1-2 of " L " shape of another 0.05 millimeters thick is covered on the right-hand member of conductive heating layer, this electrode copper sheet is called right-hand member electrode copper sheet, the described 2 plate electrode copper sheet 13-1-2 formation that is connected with the linkage section arranged according to left and right directions by the section of overlaying according to the fore-and-aft direction setting, 2 plate electrode copper sheet 13-1-2 are overlayed on the left end of conductive heating layer and right-hand member by its section of overlaying from top respectively and are corresponding to left end electrode copper sheet and right-hand member electrode copper sheet, the linkage section of each electrode copper sheet 13-1-2 is positioned at the outside of left and right directions, then with press the epoxy resin thin plate of the precuring that contains glass fibre that another piece is same under the pressure of the temperature of 160 degrees centigrade to 200 degrees centigrade, 20MPa, make the epoxy resin thin plate on upper strata and the epoxy resin Sticking of Thin Steel Sheets During Pack Rolling of lower floor be fixed together, and make strip-shaped conductive heating layer 13-1-1 and electrode copper sheet 13-1-2 be compacted vacuum seal between two epoxy resin thin plates, make the free minimum of graphite powder, two epoxy resin thin plates form the outer 13-1-3 of epoxy resin, thereby obtain the carbon ink thin plate that thickness is 0.5 millimeter.

Thereby the corresponding part of the linkage section with electrode copper sheet 13-1-2 of the outer 13-1-3 of epoxy resin becomes the linkage section of the outer 13-1-3 of epoxy resin, the linkage section of the outer 13-1-3 of this epoxy resin and the linkage section of electrode copper sheet 13-1-2 form the linkage section 13-1a of electric heating piece 13-1.In the linkage section 13-1a of electric heating piece 13-1 without conductive heating layer 13-1-1, and by machining thereon surface a breach of the part of the linkage section expose electrode copper sheet 13-1-2 is set; Two of the left and right of front side electric heating piece 13-11 linkage section 13-1a is positioned at rear side, and two of the left and right of rear side electric heating piece 13-12 linkage section 13-1a is positioned at front side; Each linkage section 13-1a is equipped with injection moulding connecting hole 13-1-4.

In other embodiments, can replace above-mentioned graphite powder with the carbon crystalline flour, the document that this carbon crystalline flour is 200610026524.3 by number of patent application is disclosed.

See Fig. 3, Figure 13, Figure 14 and Figure 16, receptacle portion 13-2 comprises socket base 13-2-1, live wire end conductive copper sheet 13-2-2 and 2 copper contact pin 13-2-3.2 copper contact pin 13-2-3 are divided into live wire copper contact pin 13-2-3a and zero line copper contact pin 13-2-3b by its residing front and back position.The integrated through injection molding part with inserts that socket base 13-2-1 is the bar shaped bulk, be included on left and right directions the Access Division 13-2-1a that is positioned at middle inside; The Access Division 13-2-1a of the socket base 13-2-1 of receptacle portion 13-2 is included in protuberance 13-2-4 and the inserting groove 13-2-5 from inside to outside arranged successively on left and right directions; Protuberance 13-2-4 is divided into upper protuberance 13-2-4a and lower protuberance 13-2-4b by the difference of its residing upper-lower position, form corresponding inserting groove 13-2-5 between protuberance 13-2-4 and socket base 13-2-1, inserting groove 13-2-5 is divided into upper inserting groove 13-2-5a and lower inserting groove 13-2-5b according to the difference of residing upper-lower position.The receptacle portion 13-2 of spontaneous heating assembly 13 is pegged graft and coordinates up and down each other with the concave part 11-1-1 of the left grafting limiting section 11-11 of upper body 11 by the upper protuberance 13-2-4a of the Access Division 13-2-1a of its socket base 13-2-1; The receptacle portion 13-2 of spontaneous heating assembly 13 is pegged graft and coordinates up and down each other with the protuberance 11-1-2 of the left grafting limiting section 11-11 of upper body 11 by the upper inserting groove 13-2-5a of the Access Division 13-2-1a of its socket base 13-2-1; The receptacle portion 13-2 of spontaneous heating assembly 13 is mutually pegged graft and coordinates with the concave part 12-1-1 of the left grafting support portion 12-11 of base plate 12 by the lower protuberance 13-2-4b of the Access Division 13-2-1a of its socket base 13-2-1; The receptacle portion 13-2 of spontaneous heating assembly 13 is mutually pegged graft and coordinates with the lug boss 12-1-2 of the left grafting support portion 12-11 of base plate 12 by the lower inserting groove 13-2-5b of the Access Division 13-2-1a of its socket base 13-2-1.

Socket base 13-2-1 also is provided with 2 spliced eye 13-2-1b and 2 the blocked hole seats that axis arranges along left and right directions, and the shape of copper contact pin 13-2-3 shape linearly.2 spliced eye 13-2-1b lay respectively at both sides before and after the outer middle side part of socket base 13-2-1, and the spliced eye of these 2 13-2-1b of spliced eye section is cylinder blind hole shape substantially, and 2 equal openings of spliced eye are towards the outside of left and right directions.2 spliced eye 13-2-1b are divided into front side spliced eye 13-2-1b1 and rear side spliced eye 13-2-1b2 by its residing position; 2 blocked hole seats are positioned at the both sides, front and back, the outside of socket base 13-2-1.All be provided with successively from outside to inside cross section on the inwall of 2 spliced eye 13-2-1b of socket base 13-2-1 and be the first arc seal groove 13-2-6 and the second seal groove 13-2-7.2 blocked hole seats are divided into the first blocked hole seat 13-2-8 and the second blocked hole seat 13-2-9 by its residing front and back position.The first blocked hole seat 13-2-8 and the second blocked hole seat 13-2-9 are equipped with the position in L-shaped hole, cross section, an opening in the hole of its described " L " shape left, another opening upwards (seeing Figure 22).The rear and front end along continuous straight runs of socket base 13-2-1 is provided with dovetail groove 13-2-10, and dovetail groove 13-2-10 is divided into the first dovetail groove 13-2-10a and the second dovetail groove 13-2-10b by its residing front and back position.

See Fig. 1, Figure 13, Figure 14 and Figure 16, the 13-3 of double plug section comprises Plug base 13-3-1, zero line side conductive copper sheet 13-3-2 and 2 copper sheathing 13-3-3.2 copper sheathing 13-3-3 are divided into live wire copper sheathing 13-3-3a and zero line copper sheathing 13-3-3b by its residing front and back position.The integrated through injection molding part with inserts that Plug base 13-3-1 is the bar shaped bulk, be included on left and right directions the Access Division 13-3-1a that is positioned at middle inside; The Access Division 13-3-1a of the Plug base 13-3-1 of the 13-3 of double plug section is included in protuberance 13-3-4 and the inserting groove 13-3-5 from inside to outside arranged successively on left and right directions; Protuberance 13-3-4 is divided into upper protuberance 13-3-4a and lower protuberance 13-3-4b by the difference of its residing upper-lower position, form corresponding inserting groove 13-3-5 between protuberance 13-3-4 and Plug base 13-3-1, inserting groove 13-3-5 is divided into upper inserting groove 13-3-5a and lower inserting groove 13-3-5b according to the difference of residing upper-lower position.The 13-3 of double plug section of spontaneous heating assembly 13 is pegged graft and coordinates up and down each other with the concave part 11-1-1 of the right grafting limiting section 11-12 of upper body 11 by the upper protuberance 13-3-4a of the Access Division 13-3-1a of its Plug base 13-3-1; The 13-3 of double plug section of spontaneous heating assembly 13 is pegged graft and coordinates up and down each other with the protuberance 11-1-2 of the right grafting limiting section 11-12 of upper body 11 by the upper inserting groove 13-3-5a of the Access Division 13-3-1a of its Plug base 13-3-1; The 13-3 of double plug section of spontaneous heating assembly 13 is mutually pegged graft and coordinates with the concave part 12-1-1 of the right grafting support portion 12-12 of base plate 12 by the lower protuberance 13-3-4b of the Access Division 13-3-1a of its Plug base 13-3-1; The 13-3 of double plug section of spontaneous heating assembly 13 is mutually pegged graft and coordinates with the lug boss 12-1-2 of the right grafting support portion 12-12 of base plate 12 by the lower inserting groove 13-3-5b of the Access Division 13-3-1a of its Plug base 13-3-1.

Plug base 13-3-1 also is provided with 2 cannon plug 13-3-1b and 2 the blocked hole seats that axis also arranges along left and right directions, and also shape linearly of the shape of the copper sheathing 13-3-3 of the 13-3 of double plug section.2 plug 13-3-1b lay respectively at both sides, Plug base 13-3-1 outer middle side part front and back, the profile of each plug 13-3-1b is corresponding with the shape of the spliced eye of each corresponding spliced eye 13-2-1b of section of receptacle portion 13-2, and the direction of its axis is identical with the axis direction of the 13-2-1b of spliced eye section of receptacle portion 13-2.2 plug 13-3-1b are divided into front side plug 13-3-1b1 and rear side plug 13-3-1b2 by its residing front and back position; The position that 2 plug 13-3-1b can mutually peg graft and coordinate with corresponding spliced eye 13-2-1b while being use, the cross section that plug 13-3-1b all is provided with from inside to outside successively as the first plug Access Division 13-3-6 and the second plug Access Division 13-3-7 is arc annular protrusion position; And the first plug Access Division 13-3-6 is corresponding with the first seal groove 13-2-6 of receptacle portion 13-2, the second plug Access Division 13-3-7 is corresponding with the second seal groove 13-2-7 of receptacle portion 13-2.

2 blocked hole seats are positioned at the both sides, front and back, the outside of Plug base 13-3-1.2 blocked hole seats are divided into the first blocked hole seat 13-3-8 and the second blocked hole seat 13-3-9 by its residing front and back position.The first blocked hole seat 13-3-8 and the second blocked hole seat 13-3-9 are L-shaped hole, cross section, and corresponding with the first blocked hole seat 13-2-8 and the second blocked hole seat 13-2-9 of receptacle portion 13-2 respectively.The rear and front end along continuous straight runs of Plug base 13-3-1 is provided with dovetail groove 13-3-10, and dovetail groove 13-3-10 is divided into the first dovetail groove 13-3-10a and the second dovetail groove 13-3-10b by its residing front and back position.The first dovetail groove 13-3-10a of the first dovetail groove 13-2-10a of receptacle portion 13-2 and the second dovetail groove 13-2-10b and the 13-3 of double plug section is all identical with the structure of the second dovetail groove 13-3-10b.

Locating piece 14 comprises main part 14-1, dovetail 14-2 and positioning boss 14-3.Locating piece 14 is the integrated through injection molding part.The cross sectional shape of the main part 14-1 of locating piece 14 is identical with the cross sectional shape of the socket base 13-2-1 of receptacle portion 13-2, and dovetail 14-2 is corresponding with the dovetail groove 13-2-10 of receptacle portion 13-2.Positioning boss 14-3 is positioned at the inboard of main part 14-1.During installation, by 4 identical locating pieces 14, by it, dovetail 14-2 separately inserts in the first dovetail groove 13-3-10a and the second dovetail groove 13-3-10b of the first dovetail groove 13-2-10a of corresponding receptacle portion 13-2 and the second dovetail groove 13-2-10b and the 13-3 of double plug section respectively, thereby locating piece 14 is separately fixed to the rear and front end of receptacle portion 13-2 and the 13-3 of double plug section, and positioning boss all is positioned at inboard.

See Figure 13, the right-hand member of the live wire copper contact pin 13-2-3a of receptacle portion 13-2 (being also tail end) is fixedly connected with and is electrically connected to the left end of the first electric wire 13-41, then the live wire end conductive copper sheet 13-2-2 by receptacle portion 13-2 is by the electrode copper sheet 13-1-2 that is positioned at left end of front side electric heating piece 13-11, the electrode copper sheet 13-1-2 that is positioned at left end and the live wire copper contact pin 13-2-3a of rear side electric heating piece 13-12 are fixedly connected with and are electrically connected to, between the upper surface that is live wire end conductive copper sheet 13-2-2 across the left side linkage section 13-1a of the upper surface of the left side linkage section 13-1a at front side electric heating piece 13-11 and rear side electric heating piece 13-12, the front portion of live wire end conductive copper sheet 13-2-2 is positioned at the top at the position of upwards exposing of linkage section of the left end electrode copper sheet 13-1-2 of front side electric heating piece 13-11, pass successively from bottom to top Nei front side, the position electric heating piece 13-11 upwards exposed of the linkage section that comprises left end electrode copper sheet 13-1-2 and the front portion of live wire end conductive copper sheet 13-2-2 by copper rivet, again both are anchored at together and are electrically connected to, the front end in the place ahead of the left side linkage section 13-1a that is positioned at front side electric heating piece 13-11 of live wire end conductive copper sheet 13-2-2 welds together and is electrically connected to the afterbody of live wire copper contact pin 13-2-3a, and the tail end of live wire copper contact pin 13-2-3a welds together and is electrically connected to the left end of the first electric wire 13-41 of transmission unit.The rear end of live wire end conductive copper sheet 13-2-2 is positioned at the top at the position of upwards exposing of linkage section of the left end electrode copper sheet 13-1-2 of rear side electric heating piece 13-12, by copper rivet from bottom to top successively through the rear end of the rear side electric heating piece 13-12 at the position of upwards exposing of the linkage section that comprises left end electrode copper sheet 13-1-2 and live wire end conductive copper sheet 13-2-2, again both are anchored at together and are electrically connected to; In said structure related appropriate section to have formed socket side the first electrical connection module 13a1(be also that all devices that the afterbody with live wire copper contact pin 13-2-3a of spontaneous heating assembly 13 directly is electrically connected to form socket side the first electrical connection module 13a1).

The tail end in right side of the zero line copper contact pin 13-2-3b of receptacle portion 13-2 welds together and is electrically connected to the left end of the second electric wire 13-42, in said structure related appropriate section to have formed socket side the second electrical connection module 13a2(be also that all devices that the afterbody with zero line copper contact pin 13-2-3b of spontaneous heating assembly 13 directly is electrically connected to form socket side the second electrical connection module 13a2).

The sidepiece position that is positioned at socket base 13-2-1 mono-side of whole and all the other devices of the corresponding device of above-mentioned socket side the first electrical connection module 13a1 and socket side the second electrical connection module 13a2 is jointly as inserts, when the socket base 13-2-1 of receptacle portion 13-2 injection moulding and this socket base 13-2-1 form one, and the afterbody of live wire copper contact pin 13-2-3a, the afterbody of zero line copper contact pin 13-2-3b, live wire end conductive copper sheet 13-2-2, the left side of front side electric heating piece 13-11, the left side of rear side electric heating piece 13-12, the left end of the left end of the first electric wire 13-41 and the second electric wire 13-42 all is insulated and is sealed in socket base 13-2-1, and the head of live wire copper contact pin 13-2-3a is arranged in the spliced eye of the 13-2-1b1 of front side spliced eye section, and be coaxially set with the 13-2-1b1 of front side spliced eye section, the head of zero line copper contact pin 13-2-3b is arranged in the spliced eye of the rear side spliced eye 13-2-1b2 of section, and is coaxially set with the rear side spliced eye 13-2-1b2 of section.

Carry out further waterproof sealing processing at the intersection of each electric heating piece 13-1 and the socket base 13-2-1 of corresponding receptacle portion 13-2 with available waterproof gasket cement also after injection formed.

The tail end in left side of the live wire copper sheathing 13-3-3a of the 13-3 of double plug section welds together and is electrically connected to the right-hand member of the first electric wire 13-41, in said structure related appropriate section to have formed plug side the first electrical connection module 13b1(be also that all devices that the afterbody with live wire copper sheathing 13-3-3a of spontaneous heating assembly 13 directly is electrically connected to form plug side the first electrical connection module 13b1).

The left end of the zero line copper sheathing 13-3-3b of the 13-3 of double plug section (being also tail end) is fixedly connected with and is electrically connected to the right-hand member of the second electric wire 13-42, then the zero line side conductive copper sheet 13-3-2 by the 13-3 of double plug section is by the electrode copper sheet 13-1-2 that is positioned at right-hand member of front side electric heating piece 13-11, the electrode copper sheet 13-1-2 that is positioned at right-hand member and the zero line copper sheathing 13-3-3b of rear side electric heating piece 13-12 are fixedly connected with and are electrically connected to, the left end of the second electric wire is fixedly connected with and is electrically connected to the right-hand member of the zero line copper contact pin 13-2-3b of receptacle portion 13-2, between the upper surface of the zero line side conductive copper sheet 13-3-2 of the 13-3 of double plug section across the right side linkage section 13-1a of the upper surface of the right side linkage section 13-1a at front side electric heating piece 13-11 and rear side electric heating piece 13-12.The front end of zero line side conductive copper sheet 13-3-2 is positioned at the top at the position of upwards exposing of linkage section of the right-hand member electrode copper sheet 13-1-2 of front side electric heating piece 13-11, by copper rivet from bottom to top successively through the front end of Nei front side, the position electric heating piece 13-11 upwards exposed of the linkage section that comprises right-hand member electrode copper sheet 13-1-2 and zero line side conductive copper sheet 13-3-2, again both are anchored at together and are electrically connected to.The rear portion of zero line side conductive copper sheet 13-3-2 is positioned at the top at the position of upwards exposing of linkage section of the right-hand member electrode copper sheet 13-1-2 of rear side electric heating piece 13-12, by copper rivet from bottom to top successively through the rear portion of the rear side electric heating piece 13-12 at the position of upwards exposing of the linkage section that comprises right-hand member electrode copper sheet 13-1-2 and zero line side conductive copper sheet 13-3-2 and both anchorings are electrically connected to.The rear end at the rear of the right side linkage section 13-1a that is positioned at rear side electric heating piece 13-12 of zero line side conductive copper sheet 13-3-2 welds together with the afterbody of zero line copper sheathing 13-3-3b and is electrically connected to and the tail end of zero line copper sheathing 13-3-3b welds together and is electrically connected to the right-hand member of the second electric wire 13-42 of transmission unit, or the zero line copper sheathing 13-3-3b bending of prolongation to the right of being set up by the rear end of zero line side conductive copper sheet 13-3-2 forms and the rear end of zero line side conductive copper sheet 13-3-2 also welds together and is electrically connected to the right-hand member of the second electric wire 13-42 of transmission unit; In said structure related appropriate section thereby to have formed the second electrical connection module 13b2(of intercalation part side be also that all devices that the afterbody with zero line copper sheathing 13-3-3b of spontaneous heating assembly 13 directly is electrically connected to form plug side the second electrical connection module 13b2).

The sidepiece position that is positioned at Plug base 13-3-1 mono-side of whole and all the other devices of the corresponding device of plug side the first electrical connection module 13b1 and plug side the second electrical connection module 13b2 is jointly as inserts, when the Plug base 13-3-1 of the 13-3 of double plug section injection moulding and this Plug base 13-3-1 form one, and the afterbody of live wire copper sheathing 13-3-3a, the afterbody of zero line copper sheathing 13-3-3b, zero line side conductive copper sheet 13-3-2, the right side of front side electric heating piece 13-11, the right side of rear side electric heating piece 13-12, the right-hand member of the right-hand member of the first electric wire 13-41 and the second electric wire 13-42 all is sealed in Plug base 13-3-1, and the head of live wire copper sheathing 13-3-3a is arranged in front side plug 13-3-1b1, be coaxially set with front side plug 13-3-1b1 and communicate with the external world towards direction from front side plug 13-3-1b1.The head of zero line copper sheathing 13-3-3b is arranged in rear side plug 13-3-1b2, is coaxially set with rear side plug 13-3-1b2 and communicates with the external world towards direction from rear side plug 13-3-1b2.

The intersection of the later Plug base 13-3-1 at each electric heating piece 13-1 and the corresponding double plug 13-3 of section of injection formed also available waterproof gasket cement carries out further waterproof sealing processing.

(embodiment 2, spontaneous heating assembly)

See Figure 13, spontaneous heating assembly 13 remainders of the present embodiment are identical with embodiment 1, its difference is: the front end in the place ahead of the left side linkage section 13-1a that is positioned at front side electric heating piece 13-11 of live wire end conductive copper sheet 13-2-2 is electrically connected to the first bronze medal member 13-2-3c, the first bronze medal member 13-2-3c is electrically connected to the afterbody of live wire copper contact pin 13-2-3a again, and the first bronze medal member 13-2-3c welds together and is electrically connected to the left end of the first electric wire 13-41 of transmission unit; In said structure, related appropriate section has formed socket side the first electrical connection module 13a1.

The tail end in right side of zero line copper contact pin 13-2-3b is electrically connected to the second bronze medal member 13-2-3d, and the second bronze medal member 13-2-3d welds together and is electrically connected to the left end of the second electric wire 13-42 again; In said structure, related appropriate section has formed socket side the second electrical connection module 13a2.

The tail end in left side of live wire copper sheathing 13-3-3a is electrically connected to the 3rd bronze medal member 13-3-3c, and the 3rd bronze medal member 13-3-3c welds together and is electrically connected to the right-hand member of the first electric wire 13-41 again; In said structure, related appropriate section has formed plug side the first electrical connection module 13b1.

Left section of the prolongation to the right that the rear end of zero line side conductive copper sheet 13-3-2 is set up rear end that forms zero line copper sheathing 13-3-3b and zero line side conductive copper sheet 13-3-2 as the 4th bronze medal member 13-3-3d, this right section bending of prolongation to the right also welds together and is electrically connected to the right-hand member of the second electric wire 13-42 of transmission unit; Thereby the appropriate section reached described in said structure has formed the second electrical connection module 13b2 of intercalation part side.

(embodiment 3, spontaneous heating assembly)

See Figure 26 to Figure 28, spontaneous heating assembly 13 remainders of the present embodiment are identical with embodiment 1, and its difference is: the water-proof type live wire of the transmission unit of spontaneous heating assembly 13 and water-proof type zero line include copper sheet 13-6, aluminium foil 13-5 and polyvinyl chloride thin plate 13-8 for 2 conductions.Each conduction is fixed on the lower surface of electric heating piece 13-1 from below with copper sheet 13-6, and is coated with conducting resinl on the lower surface of each conduction with copper sheet 13-6.The shape of aluminium foil 13-5 is identical with the shape of the strip-shaped conductive heating layer 13-1-1 of electric heating piece 13-1, be positioned at the below of electric heating piece 13-1, and shelter from strip-shaped conductive heating layer 13-1-1 from below, and the upper surface of the left and right end of aluminium foil 13-5 is electrically connected to copper sheet 13-6 with corresponding conduction.Polyvinyl chloride thin plate 13-8 covers from below and is bonded and fixed at aluminium foil 13-5 and is positioned on the lower surface of electric heating piece 13-1 of aluminium foil 13-5 surrounding by PUR is airtight.

The aluminium foil 13-5 of above-mentioned water-proof type live wire is live wire aluminium foil 13-51.2 conductions of above-mentioned water-proof type live wire are the live wire copper sheet with copper sheet 13-6, and the live wire copper sheet is divided into left side live wire copper sheet and right side live wire copper sheet according to the difference of position, residing left and right.The middle part of left side live wire copper sheet 13-6 is provided with extension left, the tail end of live wire copper contact pin 13-2-3a is welded on the extension left of left side live wire copper sheet 13-6, or right section of the extension left of left side live wire copper sheet 13-6 as the first bronze medal member 13-2-3c, this left the left section tail end with live wire copper contact pin 13-2-3a of extension weld together, thereby make live wire copper contact pin 13-2-3a be electrically connected to left side live wire copper sheet 13-6.The middle part of right side live wire copper sheet 13-6 is provided with extension to the right, the tail end of live wire copper sheathing 13-3-3a is welded on the extension to the right of right side live wire copper sheet and makes live wire copper sheathing 13-3-3a be electrically connected to right side live wire copper sheet 13-6, perhaps live wire copper sheathing 13-3-3a is made in the direct bending in extension to the right of right side live wire copper sheet 13-6, or left section of the extension to the right of right side live wire copper sheet 13-6 be as the 3rd bronze medal member 13-3-3c, live wire copper sheathing 13-3-3a is made in this right section bending of extension to the right.

The aluminium foil 13-5 of above-mentioned water-proof type zero line is zero line aluminium foil 13-52.2 conductions of above-mentioned water-proof type zero line are the zero line copper sheet with copper sheet 13-6, and the zero line copper sheet is divided into left side zero line copper sheet and right side zero line copper sheet according to the difference of position, residing left and right.The middle part of left side zero line copper sheet 13-6 is provided with extension left, the tail end of zero line copper contact pin 13-2-3b is welded on the extension left of left side zero line copper sheet 13-6, or right section of the extension left of left side zero line copper sheet 13-6 as the second bronze medal member 13-2-3d, this left the left section tail end with zero line copper contact pin 13-2-3b of extension weld together, thereby make zero line copper contact pin 13-2-3b be electrically connected to left side zero line copper sheet.The middle part of right side zero line copper sheet 13-6 is provided with extension to the right, the tail end of zero line copper sheathing 13-3-3b is welded on the extension to the right of right side zero line copper sheet 13-6 and makes zero line copper sheathing 13-3-3b be electrically connected to right side zero line copper sheet 13-6, perhaps zero line copper sheathing 13-3-3b is made in the direct bending in extension to the right of right side zero line copper sheet 13-6, or left section of the extension to the right of right side zero line copper sheet 13-6 be as the 4th bronze medal member 13-3-3d, zero line copper sheathing 13-3-3b is made in this right section bending of extension to the right.

The receptacle portion 13-2 of spontaneous heating assembly 13 also comprises live wire end conductive copper sheet 13-2-2.Between the upper surface of live wire end conductive copper sheet 13-2-2 across the left side linkage section 13-1a of the upper surface of the left side linkage section 13-1a at front side electric heating piece 13-11 and rear side electric heating piece 13-12.The front end of live wire end conductive copper sheet 13-2-2 is positioned at the top at the position of upwards exposing of linkage section of the left end electrode copper sheet 13-1-2 of front side electric heating piece 13-11, the rear end of the left side live wire copper sheet of water-proof type live wire is positioned at the below of linkage section of the left end electrode copper sheet 13-1-2 of front side electric heating piece 13-11, pass successively from bottom to top the left side live wire copper sheet of water-proof type live wire by copper rivet, comprise Nei front side, the position electric heating piece 13-11 upwards exposed of linkage section of left end electrode copper sheet 13-1-2 and the front end of live wire end conductive copper sheet 13-2-2, again the three is anchored at together and is electrically connected to.The rear end of live wire end conductive copper sheet 13-2-2 is positioned at the top at the position of upwards exposing of linkage section of the left end electrode copper sheet 13-1-2 of rear side electric heating piece 13-12, by copper rivet from bottom to top successively through the rear end of the rear side electric heating piece 13-12 at the position of upwards exposing of the linkage section that comprises left end electrode copper sheet 13-1-2 and live wire end conductive copper sheet 13-2-2, again both are anchored at together and are electrically connected to.Said structure has formed socket side the first electrical connection module 13a1 together with live wire copper contact pin 13-2-3a or with related appropriate section in the electrical connection of the left side live wire copper sheet 13-6 of the live wire copper contact pin 13-2-3a of the first bronze medal member 13-2-3c and water-proof type live wire and live wire aluminium foil 13-51.

Zero line copper contact pin 13-2-3b or formed socket side the second electrical connection module 13a2 with related appropriate section in the electrical connection of the left side zero line copper sheet 13-6 of the zero line copper contact pin 13-2-3b of the second bronze medal member 13-2-3d and water-proof type zero line and zero line aluminium foil 13-52.

Before and after above-mentioned socket side the first electrical connection module 13a1 and socket side the second electrical connection module 13a2 divide as the front and back inserts when the socket base 13-2-1 of the receptacle portion 13-2 injection moulding with this socket base 13-2-1 formation one, and the afterbody of live wire copper contact pin 13-2-3a, the afterbody of zero line copper contact pin 13-2-3b, live wire end conductive copper sheet 13-2-2, the left side of front side electric heating piece 13-11, the left side of rear side electric heating piece 13-12, the left-hand portion of the left side live wire copper sheet 13-6 of water-proof type live wire and the left-hand portion of live wire aluminium foil 13-51 and corresponding polyvinyl chloride thin plate 13-8, the left-hand portion of the left side zero line copper sheet 13-6 of water-proof type zero line and the left-hand portion of zero line aluminium foil 13-52 and corresponding polyvinyl chloride thin plate 13-8 all is insulated and is sealed in socket base 13-2-1, the head of live wire copper contact pin 13-2-3a is arranged in the spliced eye of the 13-2-1b1 of front side spliced eye section, and be coaxially set with the 13-2-1b1 of front side spliced eye section, the head of zero line copper contact pin 13-2-3b is arranged in the spliced eye of the rear side spliced eye 13-2-1b2 of section, and the 13-2-1b2 of section is coaxially set with the rear side spliced eye.

The live wire copper sheathing 13-3-3a of the 13-3 of double plug section of spontaneous heating assembly 13 or formed plug side the first electrical connection module 13b1 with related appropriate section in the electrical connection of the right side live wire copper sheet 13-6 of the live wire copper sheathing 13-3-3a of the 3rd bronze medal member 13-3-3c and water-proof type live wire and live wire aluminium foil 13-51.

The 13-3 of double plug section also comprises zero line side conductive copper sheet 13-3-2.Between the upper surface of zero line side conductive copper sheet 13-3-2 across the right side linkage section 13-1a of the upper surface of the right side linkage section 13-1a at front side electric heating piece 13-11 and rear side electric heating piece 13-12.The front end of zero line side conductive copper sheet 13-3-2 is positioned at the top at the position of upwards exposing of linkage section of the right-hand member electrode copper sheet 13-1-2 of front side electric heating piece 13-11, by copper rivet from bottom to top successively through the front end of Nei front side, the position electric heating piece 13-11 upwards exposed of the linkage section that comprises right-hand member electrode copper sheet 13-1-2 and zero line side conductive copper sheet 13-3-2, again both are anchored at together and are electrically connected to.The rear end of zero line side conductive copper sheet 13-3-2 is positioned at the top at the position of upwards exposing of the linkage section that is positioned at right-hand member electrode copper sheet 13-1-2 of rear side electric heating piece 13-12, the rear end of the right side zero line copper sheet of water-proof type zero line is positioned at the below of linkage section of the right-hand member electrode copper sheet 13-1-2 of rear side electric heating piece 13-12, pass successively from bottom to top the right side live wire copper sheet of water-proof type zero line by copper rivet, comprise the rear side electric heating piece 13-12 at the position of upwards exposing of linkage section of right-hand member electrode copper sheet 13-1-2 and the front end of zero line side conductive copper sheet 13-3-2, again the three is anchored at together and is electrically connected to, said structure has formed plug side the second electrical connection module 13b2 together with zero line copper sheathing 13-3-3b or with related appropriate section in the electrical connection of the right side zero line copper sheet 13-6 of the zero line copper sheathing 13-3-3b of the 4th bronze medal member 13-3-3d and water-proof type zero line and zero line aluminium foil 13-52.

Before and after above-mentioned plug side the first electrical connection module 13b1 and plug side the second electrical connection module 13b2 divide as the front and back inserts when the Plug base 13-3-1 of the 13-3 of the double plug section injection moulding with this Plug base 13-3-1 formation one, and live wire copper sheathing 13-3-3a afterbody, the afterbody of zero line copper sheathing 13-3-3b, zero line side conductive copper sheet 13-3-2, the right side of front side electric heating piece 13-11, the right side of rear side electric heating piece 13-12, the position, right side of the right side zero line copper sheet 13-6 of water-proof type zero line and the position, right side of zero line aluminium foil 13-52 and corresponding polyvinyl chloride thin plate 13-8, the position, right side of the right side live wire copper sheet 13-6 of water-proof type live wire and the position, right side of live wire aluminium foil 13-51 and corresponding polyvinyl chloride thin plate 13-8 all is sealed in Plug base 13-3-1, and the head of live wire copper sheathing 13-3-3a is arranged in front side plug 13-3-1b1, be coaxially set with front side plug 13-3-1b1 and communicate with the external world towards direction from front side plug 13-3-1b1.The head of zero line copper sheathing 13-3-3b is arranged in rear side plug 13-3-1b2, is coaxially set with rear side plug 13-3-1b2 and communicates with the external world towards direction from rear side plug 13-3-1b2.

(embodiment 4, spontaneous heating assembly)

See Figure 29 and Figure 30, spontaneous heating assembly 13 remainders of the present embodiment are identical with embodiment 1, and its difference is: the receptacle portion 13-2 of spontaneous heating assembly 13 is positioned at the left side of electric heating piece 13-1, and the 13-3 of double plug section is positioned at the right side of electric heating piece 13-1.The electric heating piece 13-1 of spontaneous heating assembly 13 has 2, be divided into front side electric heating piece 13-11 and rear side electric heating piece 13-12 according to the difference of residing front and back position, and front side electric heating piece 13-11 and rear side electric heating piece 13-12 are connected electrically between water-proof type live wire and water-proof type zero line according to series system.Each electric heating piece 13-1 includes 1 square strip-shaped conductive heating layer 13-1-1,2 plate electrode copper sheet 13-1-2, plays the outer 13-1-3 of the epoxy resin that contains glass fibre of insulation isolation and protection effect.Described electrode copper sheet 13-1-2 is plane " L " shape copper sheet, by the linkage section of the section of overlaying of fore-and-aft direction and left and right directions, is connected and is formed.2 plate electrode copper sheet 13-1-2 overlay on the left end of conductive heating layer and right-hand member and corresponding to left end electrode copper sheet and right-hand member electrode copper sheet from top by its section of overlaying respectively, and the linkage section of each electrode copper sheet 13-1-2 is positioned at the outside of left and right directions.What the outer 13-1-3 integral body of epoxy resin covered conductive heating layer 13-1-1 and electrode copper sheet 13-1-2 reaches surrounding up and down, thereby the corresponding part of the linkage section with electrode copper sheet 13-1-2 of the outer 13-1-3 of epoxy resin becomes the linkage section of the outer 13-1-3 of epoxy resin, the linkage section of the outer 13-1-3 of this epoxy resin and the linkage section of electrode copper sheet 13-1-2 form the linkage section 13-1a of electric heating piece 13-1.In the linkage section 13-1a of electric heating piece 13-1 without conductive heating layer 13-1-1, and by machining thereon surface a breach of the part of the linkage section expose electrode copper sheet 13-1-2 is set, then this breach is arranged to solder joint 3-1-5.Two of the left and right of front side electric heating piece 13-11 linkage section 13-1a is positioned at rear side, and two of the left and right of rear side electric heating piece 13-12 linkage section 13-1a is positioned at front side.

The live wire copper contact pin 13-2-3a of the receptacle portion 13-2 of spontaneous heating assembly 13 is positioned at the left of front side electric heating piece 13-11, and zero line copper contact pin 13-2-3b is positioned at the left of rear side electric heating piece 13-12.The live wire copper sheathing 13-3-3a of the 13-3 of double plug section is positioned at the right-hand of front side electric heating piece 13-11, and zero line copper sheathing 13-3-3b is positioned at the right-hand of rear side electric heating piece 13-12.

The water-proof type live wire of the transmission unit of spontaneous heating assembly 13 and water-proof type zero line include polyvinyl chloride thin plate 13-8 and are called the copper strips for conduction of conducting copper belt 13-9.Each conducting copper belt 13-9 is bonded and fixed on the lower surface of corresponding a slice electric heating piece 13-1 along the left and right directions of electric heating piece 13-1, and polyvinyl chloride thin plate 13-8 covers from below and is bonded and fixed at conducting copper belt 13-9 and is positioned on the lower surface of electric heating piece 13-1 of conducting copper belt 13-9 surrounding by PUR is airtight.The conducting copper belt 13-9 of described water-proof type live wire is live wire copper strips 13-91.The conducting copper belt 13-9 of water-proof type zero line is zero line copper strips 13-92.

The tail end in right side of the live wire copper contact pin 13-2-3a of the receptacle portion 13-2 of spontaneous heating assembly 13 is welded on the extension left of live wire copper strips 13-91 of water-proof type live wire and mutually is electrically connected to, or the extension left of live wire copper strips 13-91 is simultaneously as the first bronze medal member 13-2-3c; In this structure, related appropriate section has formed socket side the first electrical connection module 13a1.

The tail end in right side of the zero line copper contact pin 13-2-3b of receptacle portion 13-2 is welded on the extension left of zero line copper strips 13-92 of water-proof type zero line and mutually is electrically connected to, or the extension left of zero line copper strips 13-92 is simultaneously as the second bronze medal member 13-2-3d; In this structure, related appropriate section has formed socket side the second electrical connection module 13a2.

Spontaneous heating assembly 13 also comprises series connection device 13-1-6, and this series connection device 13-1-6 is copper conductor, bar shaped copper sheet, temperature detect switch (TDS) or resettable fuse (the present embodiment employing temperature detect switch (TDS)).The corresponding end of described series connection device 13-1-6 is welded and fixed with the scolder of the solder joint 13-1-5 at the linkage section place of the left end electrode copper sheet 13-1-2 of front side electric heating piece 13-11 and makes the left end electrode copper sheet 13-1-2 of front side electric heating piece 13-11 be electrically connected to the corresponding end of the device 13-1-6 that connects; The other end of series connection device 13-1-6 is welded and fixed with the scolder of the solder joint 13-1-5 at the linkage section place of the left end electrode copper sheet 13-1-2 of rear side electric heating piece 13-12 and makes the left end electrode copper sheet 13-1-2 of rear side electric heating piece 13-12 be electrically connected to the other end of the device 13-1-6 that connects; This structure has formed socket side the 3rd electrical connection module 13a3.

Socket side the first electrical connection module 13a1, the second electrical connection module 13a2 and the 3rd electrical connection module form the socket side electrical connection module jointly.This electrical connection module when the socket base 13-2-1 of receptacle portion 13-2 injection moulding and this socket base 13-2-1 form one, and the afterbody of live wire copper contact pin 13-2-3a, the afterbody of zero line copper contact pin 13-2-3b, the left end position of water-proof type live wire, the left end position of water-proof type zero line, temperature detect switch (TDS) 13-1-6, the left end position of the left end position of front side electric heating piece 13-11 and rear side electric heating piece 13-12 all is insulated and is sealed in socket base 13-2-1, the head of live wire copper contact pin 13-2-3a is arranged in the spliced eye of the 13-2-1b1 of front side spliced eye section, and be coaxially set with the 13-2-1b1 of front side spliced eye section, the head of zero line copper contact pin 13-2-3b is arranged in the spliced eye of the rear side spliced eye 13-2-1b2 of section, and the 13-2-1b2 of section is coaxially set with the rear side spliced eye.

The 13-3 of double plug section of spontaneous heating assembly 13 also comprises 2 U-shaped connector 13-3-11 that made by copper sheet; These 2 U-shaped connector 13-3-11 are different according to the copper strips from connected, are divided into live wire end connection 13-3-11a and zero line side connector 13-3-11b.

The live wire end connection 13-3-11a of the 13-3 of double plug section, then is turned down forwards, backwards respectively and makes live wire end connection 13-3-11a be electrically connected to live wire copper strips 13-91 respectively from bottom to top through the blank position of live wire copper strips 13-91 and front side electric heating piece 13-11 right-hand member by two pin.The rear end of the inverted sections of the pin that is positioned at rear side of live wire end connection 13-3-11a is welded and fixed and makes live wire end connection 13-3-11a be electrically connected to the right-hand member electrode copper sheet 13-1-2 of front side electric heating piece 13-11 with the scolder of the solder joint 13-1-5 at the linkage section place of the right-hand member electrode copper sheet 13-1-2 of front side electric heating piece 13-11.The middle part of live wire end connection 13-3-11a is provided with extension to the right, the tail end of live wire copper sheathing 13-3-3a is welded on the extension to the right of live wire end connection 13-3-11a, perhaps live wire copper sheathing 13-3-3a is made in the direct bending in extension to the right of live wire end connection 13-3-11a, perhaps the extension to the right of live wire end connection 13-3-11a is directly as the 3rd bronze medal member 13-3-3c, thereby makes live wire end connection 13-3-11a be electrically connected to live wire copper sheathing 13-3-3a; In said structure, related appropriate section has formed plug side the first electrical connection module 13b1.

The zero line side connector 13-3-11b of the 13-3 of double plug section, then is turned down forwards, backwards respectively and makes zero line side connector 13-3-11b be electrically connected to zero line copper strips 13-92 respectively from bottom to top through the blank position of zero line copper strips 13-92 and rear side electric heating piece 13-12 right-hand member by two pin.The front end of the inverted sections of the pin that is positioned at front side of zero line side connector 13-3-11b is welded and fixed and makes zero line side connector 13-3-11b be electrically connected to the right-hand member electrode copper sheet 13-1-2 of rear side electric heating piece 13-12 with the scolder of the solder joint 13-1-5 at the linkage section place of the right-hand member electrode copper sheet 13-1-2 of rear side electric heating piece 13-12.The middle part of zero line side connector 13-3-11b is provided with extension to the right, the tail end of zero line copper sheathing 13-3-3b is welded on the extension to the right of zero line side connector 13-3-11b, perhaps zero line copper sheathing 13-3-3b is made in the direct bending in extension to the right of zero line side connector 13-3-11b, perhaps the extension to the right of zero line side connector 13-3-11b is directly as the 4th bronze medal member 13-3-3d, thereby makes zero line side connector 13-3-11b be electrically connected to zero line copper sheathing 13-3-3b; In said structure, related appropriate section has formed plug side the second electrical connection module 13b2.

Before and after plug side the first electrical connection module 13b1 and the second electrical connection module 13b2 divide as the front and back inserts when the Plug base 13-3-1 of the 13-3 of the double plug section injection moulding with this Plug base 13-3-1 formation one, and the right-hand member position of the right-hand member position of the right-hand member position of the right-hand member position of the afterbody of live wire copper sheathing 13-3-3a afterbody, zero line copper sheathing 13-3-3b, water-proof type live wire, water-proof type zero line, front side electric heating piece 13-11 and rear side electric heating piece 13-12 all is insulated and is sealed in Plug base 13-3-1; And the head of live wire copper sheathing 13-3-3a is arranged in front side plug 13-3-1b1, is coaxially set with front side plug 13-3-1b1 and communicates with the external world towards direction from front side plug 13-3-1b1.The head of zero line copper sheathing 13-3-3b is arranged in rear side plug 13-3-1b2, is coaxially set with rear side plug 13-3-1b2 and communicates with the external world towards direction from rear side plug 13-3-1b2.

(embodiment 5, spontaneous heating assembly)

See Figure 31 to Figure 35, spontaneous heating assembly 13 remainders of the present embodiment are identical with embodiment 4, and its difference is: the axis of the 13-2-1b of spliced eye section of the socket base 13-2-1 of the receptacle portion 13-2 of spontaneous heating assembly 13 is along the fore-and-aft direction setting.Receptacle portion 13-2 also comprises the first bronze medal member 13-2-3c and the second bronze medal member 13-2-3d.Live wire copper contact pin 13-2-3a and zero line copper contact pin 13-2-3b all a direction in fore-and-aft direction arrange in the same way, and the spliced eye of the 13-2-1b of spliced eye section towards with copper contact pin 13-2-3 towards identical, the first bronze medal member 13-2-3c and the second bronze medal member 13-2-3d are all along the left and right directions setting.The outside left at left and right directions of the 13-2-1b of spliced eye section of the socket base 13-2-1 of receptacle portion 13-2 is the first outwardly inserted block position 13-2-1c, socket base 13-2-1 with the adjacent position towards the upper 13-2-1b of spliced eye section, is provided with the first slot position 13-2-1d.Intercalation part 13-3 also comprises the 3rd bronze medal member 13-3-3c and the 4th bronze medal member 13-3-3d.The live wire copper sheathing 13-3-3a of the 13-3 of double plug section and zero line copper sheathing 13-3-3b all arrange in the same way along another direction in fore-and-aft direction, this another direction and copper contact pin 13-2-3 towards relative, and plug 13-3-1b towards with copper sheathing 13-3-3 towards identical, the 3rd bronze medal member 13-3-3c and the 4th bronze medal member 13-3-3d are all along the left and right directions setting.The outside left at left and right directions of the plug 13-3-1b of the Plug base 13-3-1 of the 13-3 of double plug section is the second outwardly inserted block position 13-3-1c, Plug base 13-3-1 with the adjacent position towards upper plug 13-3-1b, is provided with the second slot position 13-3-1d.

(embodiment 6, spontaneous heating assembly)

See Figure 36 to Figure 37, spontaneous heating assembly 13 remainders of the present embodiment are identical with embodiment 4, and its difference is: the receptacle portion 13-2 of spontaneous heating assembly 13 is positioned at the left side of electric heating piece 13-1, and the 13-3 of double plug section is positioned at the right side of electric heating piece 13-1.The axis of the 13-2-1b of spliced eye section of the socket base 13-2-1 of the receptacle portion 13-2 of spontaneous heating assembly 13 arranges along the vertical direction, and receptacle portion 13-2 also comprises the first bronze medal member 13-2-3c and the second bronze medal member 13-2-3d.Live wire copper contact pin 13-2-3a and zero line copper contact pin 13-2-3b be the same direction in above-below direction all, and the spliced eye of the 13-2-1b of spliced eye section towards with copper contact pin 13-2-3 towards identical, the first bronze medal member 13-2-3c and the second bronze medal member 13-2-3d are all along the left and right directions setting.The 13-3 of double plug section also comprises the 3rd bronze medal member 13-3-3c and the 4th bronze medal member 13-3-3d.The live wire copper sheathing 13-3-3a of the 13-3 of double plug section and zero line copper sheathing 13-3-3b be the direction of another in above-below direction all, this another direction and copper contact pin 13-2-3 towards relative, and plug 13-3-1b towards with copper sheathing 13-3-3 towards identical, the 3rd bronze medal member 13-3-3c and the 4th bronze medal member 13-3-3d are all along the left and right directions setting.

The Access Division 13-2-1a of the socket base 13-2-1 of the receptacle portion 13-2 of spontaneous heating assembly 13 is included in protuberance 13-2-4 and the inserting groove 13-2-5 from inside to outside arranged successively on left and right directions.Protuberance 13-2-4 is divided into upper protuberance 13-2-4a and lower protuberance 13-2-4b by the difference of its residing upper-lower position, inserting groove 13-2-5 is divided into upper inserting groove 13-2-5a and lower inserting groove 13-2-5b according to the difference of residing upper-lower position.

The Access Division 13-3-1a of the Plug base 13-3-1 of the 13-3 of double plug section of spontaneous heating assembly 13 is included in protuberance 13-3-4 and the inserting groove 13-3-5 from inside to outside arranged successively on left and right directions.Protuberance 13-3-4 is divided into upper protuberance 13-3-4a and lower protuberance 13-3-4b by the difference of its residing upper-lower position, inserting groove 13-3-5 is divided into and is called upper inserting groove 13-3-5a and lower inserting groove 13-3-5b according to the difference of residing upper-lower position.

(embodiment 7, spontaneous heating assembly)

All the other are identical with embodiment 1,2,3, and its difference is: heat generating component 13 also comprises temperature switch or resettable fuse; When the electric heating piece 13-1 of spontaneous heating assembly 13 has two to form parallel circuits, be in series with a corresponding temperature switch or resettable fuse on the branch road of every electric heating piece 13-1.

(embodiment 8, water-proof type self-heating floor)

See Fig. 1 to Fig. 2, Figure 14 and Figure 15, the water-proof type self-heating floor 1 of the present embodiment comprises upper body 11, base plate 12, spontaneous heating assembly and locating piece 14.The spontaneous heating assembly adopts the described spontaneous heating assembly 13 of embodiment 1.

See Fig. 1, Figure 10 and Figure 11, the integral piece that upper body 11 is made for wood materials.The basic configuration of upper body 11 is tabular cuboid, and the left and right sides of upper body 11 is the grafting limiting section 11-1 that bottom forms through cut, and the both sides, front and back of upper body 11 are the Access Division 11-2 that bottom forms through cut.

See Figure 10, described 2 grafting limiting section 11-1 are divided into left grafting limiting section 11-11 and right grafting limiting section 11-12 according to the difference of position, residing left and right.2 the left grafting limiting section of grafting occlusion part 11-11 of upper body 11 comprise all concave part 11-1-1 and the protuberance 11-1-2 stretched along the fore-and-aft direction of upper body 11.Concave part 11-1-1 and protuberance 11-1-2 set gradually according to order from inside to outside on left and right directions.Open Side Down for concave part 11-1-1, and protuberance 11-1-2 is to lower convexity, and the lower surface of concave part 11-1-1 is higher than the lower surface of protuberance 11-1-2.

The vertical guide of the central straight line with respect to the short side direction through upper body 11 of upper body 11 is symmetrical arranged.The right grafting limiting section of each the grafting occlusion part 11-12 of upper body 11 comprises all concave part 11-1-1, protuberance 11-1-2 and the shielding part 11-1-3 stretched along the fore-and-aft direction of upper body 11.Concave part 11-1-1, protuberance 11-1-2 and shielding part 11-1-3 set gradually according to order from inside to outside on left and right directions.Open Side Down for concave part 11-1-1, and protuberance 11-1-2 is to lower convexity, and shielding part 11-1-3 is plate body, and the lower surface of shielding part 11-1-3 is higher than the lower surface of concave part 11-1-1, and the lower surface of concave part 11-1-1 is higher than the lower surface of protuberance 11-1-2.And the concave part 11-1-1 of the concave part 11-1-1 of right grafting limiting section 11-12 and protuberance 11-1-2 and left grafting limiting section 11-11 and protuberance 11-1-2 are symmetrical arranged with respect to the horizontal plane of the central straight line of the long side direction through the floor main body.

See Figure 11,2 Access Division 11-2 are divided into front Access Division 11-21 and rear Access Division 11-22 according to the difference of residing front and back position.2 of front and back Access Division 11-2 is symmetrical arranged with respect to the vertical guide of the central straight line through upper body 11 long side directions, and all along the long side direction on floor, runs through the upper body 11 on floor.

Each Access Division 11-2 comprises all the lower protuberance 11-2-1 that stretches along the left and right directions of upper body 11 and contacts limiting section 11-2-2.Lower protuberance 11-2-1 with contact limiting section 11-2-2 and set gradually according to order from outside to inside on fore-and-aft direction.The preferred concrete structure of the present embodiment is: lower protuberance 11-2-1 is included on the fore-and-aft direction of upper body 11 spigot surface 11-2a, lower surface 11-2b and the blocking surface 11-2c that the order according to ecto-entad sets gradually; Contact limiting section 11-2-2 is included on upper body 11 fore-and-aft directions contact-making surface 11-2d and the confined planes 11-2e that the order according to ecto-entad sets gradually.Above-mentioned spigot surface 11-2a, lower surface 11-2b, blocking surface 11-2c, contact-making surface 11-2d and confined planes 11-2e are end to end successively, spigot surface 11-2a wherein is high outside and low outside inclined-plane, lower surface 11-2b is horizontally disposed with, blocking surface 11-2c is outer low and inner high inclined-plane, contact-making surface 11-2d outer portion part is high outside and low outside inclined-plane, inner section is horizontal plane, and confined planes 11-2e vertical arranges.

See Fig. 2, Fig. 6, Fig. 8, Figure 10 and Figure 11, the integral piece that base plate 12 is made for wood materials.The basic configuration of base plate 12 is tabular cuboid, and the left and right sides of base plate 12 is the grafting support portion 12-1 that top forms through cut, the both sides, front and back of base plate 12 are the support portion 12-2 that top forms through cut, the upper surface of the middle part of base plate 12 arranges 2 upper grooves 12-3 along left and right directions, and is separately positioned on 2 wiring duct 12-4 in upper grooves 12-3.

See Figure 10, described 2 grafting support portion 12-1 are divided into left grafting support portion 12-11 and right grafting support portion 12-12 according to position, residing left and right difference.2 left grafting support portion 12-11 of base plate 12 are symmetrical arranged with respect to the vertical guide of the central straight line of the short side direction through base plate 12.Each grafting support portion 12-1 of base plate 12 comprises all concave part 12-1-1, lug boss 12-1-2 and the 12-1-3 of supporting plate section stretched along the fore-and-aft direction of base plate 12.Concave part 12-1-1, lug boss 12-1-2 and the 12-1-3 of supporting plate section set gradually according to order from inside to outside on left and right directions.The opening upwards of concave part 12-1-1, lug boss 12-1-2 raises up, and the 12-1-3 of supporting plate section is plate body, and the upper surface of lug boss 12-1-2 is higher than the upper surface of concave part 12-1-1, and the upper surface of concave part 12-1-1 is higher than the upper surface of the 12-1-3 of supporting plate section.

The right grafting support portion 12-12 of base plate 12 comprises all concave part 12-1-1 and the lug boss 12-1-2 stretched along the fore-and-aft direction of base plate 12.Concave part 12-1-1 and lug boss 12-1-2 set gradually according to order from inside to outside on left and right directions.The opening upwards of concave part 12-1-1, lug boss 12-1-2 raises up, and the upper surface of lug boss 12-1-2 is higher than the upper surface of concave part 12-1-1.And the concave part 12-1-1 of the concave part 12-1-1 of right grafting support portion 12-12 and lug boss 12-1-2 and left grafting support portion 12-11 and lug boss 12-1-2 are symmetrical arranged with respect to the horizontal plane of the central straight line of the long side direction through the floor main body.

See Figure 11,2 support portion 12-2 are divided into the 12-21 of front support section and the 12-22 of rear support section according to the difference of residing front and back position.2 of front and back support portion 12-2 is symmetrical arranged with respect to the vertical guide of the central straight line through upper body 11 long side directions, and the base plate 12 that all along the long side direction on floor, runs through floor, and each support portion 12-2 is corresponding with the corresponding Access Division 11-2 of upper body 11 respectively, what jointly form both sides before and after the laying respectively at of water-proof type self-heating floor 1 can carry out the mutually assembled position of the buckling groove as connecting portion by connector.

Top of side before and after it that each support portion 12-2 is base plate 12 is provided with the position of gap, and this gap stretches along the left and right directions of base plate 12.In the present embodiment, the preferred concrete structure of support portion 12-2 is: support portion 12-2 is included on the fore-and-aft direction of base plate 12 supporting surface 12-2a and the confined planes 12-2b that the order according to ecto-entad sets gradually.Supporting surface 12-2a is horizontal plane or outer low and inner high inclined-plane (the present embodiment is horizontal plane), and confined planes 12-2b vertical arranges, and this confined planes 12-2b is corresponding with the confined planes 11-2e of the Access Division 11-2 of upper body 11 and be positioned on same vertical guide.

See Fig. 8, described 2 upper grooves 12-3 of base plate 12 are divided into top forward recess 12-3-1 and top rearward recess 12-3-2 according to the difference of residing front and back position.Article 2, upper grooves 12-3 all connects base plate 12 along the floor long side direction, and the degree of depth of upper grooves 12-3 is 0.3 to 1.1 millimeter (the present embodiment is 0.7 millimeter), and top forward recess 12-3-1 is identical with the size of top rearward recess 12-3-2.

See Fig. 8, described 2 wiring duct 12-4 of base plate 12 are divided into front wiring duct 12-4-1 and rear wiring duct 12-4-2 according to the difference of residing front and back position.Article 2, wiring duct 12-4 all connects base plate 12 along the floor long side direction.

During the position between receptacle portion 13-2 and the 13-3 of double plug section of the electric heating piece 13-1 of spontaneous heating assembly 13 is separately positioned on to the corresponding upper grooves 12-3 of base plate 12, the position between receptacle portion 13-2 and the 13-3 of double plug section of the front side electric heating piece 13-11 of spontaneous heating assembly 13 is arranged in the top forward recess 12-3-1 of base plate 12, during the position between receptacle portion 13-2 and the 13-3 of double plug section of the rear side electric heating piece 13-12 of spontaneous heating assembly 13 is arranged on top rearward recess 12-3-2, receptacle portion 13-2 and the 13-3 of double plug section expose the floor main body from a corresponding outside of left and right directions respectively, and the first electric wire 13-41 and the second electric wire 13-42 lay respectively in the corresponding front wiring duct 12-4-1 and rear wiring duct 12-4-2 of base plate 12, and electric heating piece 13-1 downside is bonded and fixed on base plate 12, the receptacle portion 13-2 of spontaneous heating assembly 13 and the 13-3 of double plug section are bondd respectively on the corresponding grafting support portion 12-1 that is arranged on base plate 12 bottom separately by it, then upper body 11 is bonded and fixed at by polyurethane hot melt by its lower surface on the upper surface of base plate 12 and forms the floor main body, four locating pieces 14 now can be positioned at upper body 11 on base plate 12 accurately by its positioning boss 14-3, and the receptacle portion 13-2 of spontaneous heating assembly 13 is fixed between the left grafting support portion 12-11 of the left grafting limiting section 11-11 of upper body 11 and base plate 12 by the Access Division 13-2-1a of its socket base 13-2-1, the 13-3 of double plug section of spontaneous heating assembly 13 is fixed between the right grafting support portion 12-12 of the right grafting limiting section 11-12 of upper body 11 and base plate 12 by the Access Division 13-3-1a of its Plug base 13-3-1.Can also be at the lower surface gluing of the corresponding grafting limiting section 11-1 of upper body 11, the receptacle portion 13-2 of spontaneous heating assembly 13 and the 13-3 of double plug section are bonded and fixed between the right grafting support portion 12-12 of the right grafting limiting section 11-12 of upper body 11 and base plate 12, increase firmly.Therefore the receptacle portion 13-2 of spontaneous heating assembly 13 and the 13-3 of double plug section supply electrical connectors accordingly as the left and right sides of water-proof type self-heating floor 1.

(embodiment 9, water-proof type self-heating floor)

Water-proof type self-heating floor 1 remainder of the present embodiment is identical with embodiment 8, and its difference is: half of the length of the water-proof type self-heating floor 1 that the length of the water-proof type self-heating floor 2 of the present embodiment is embodiment 8.

(embodiment 10, water-proof type self-heating floor)

Water-proof type self-heating floor 1 remainder of the present embodiment is identical with embodiment 8, and its difference is: do not establish corresponding wiring duct 12-4 on base plate 12.The spontaneous heating assembly adopts the described spontaneous heating assembly 13 of embodiment 3.

(embodiment 11, water-proof type self-heating floor)

Water-proof type self-heating floor 1 remainder of the present embodiment is identical with embodiment 8, and its difference is: do not establish corresponding wiring duct 12-4 on base plate 12.

The spontaneous heating assembly adopts the described spontaneous heating assembly 13 of embodiment 4.

(embodiment 12, water-proof type self-heating floor)

Water-proof type self-heating floor 1 remainder of the present embodiment is identical with embodiment 8, and its difference is: do not establish corresponding wiring duct 12-4 on base plate 12.The spontaneous heating assembly adopts the described spontaneous heating assembly 13 of embodiment 5.

(embodiment 13, water-proof type self-heating floor)

See Figure 36 to Figure 37, water-proof type self-heating floor 1 remainder of the present embodiment is identical with embodiment 8, and its difference is: do not establish corresponding wiring duct 12-4 on base plate 12.

The spontaneous heating assembly adopts the described spontaneous heating assembly 13 of embodiment 6.

The left part of receptacle portion 13-2 upwards exposes the left grafting limiting section 11-1 of upper body 11; The right part of the 13-3 of double plug section exposes the right grafting support portion 12-12 of base plate 12 downwards.

The left grafting limiting section 11-11 of upper body 11 comprises all concave part 11-1-1 and the protuberance 11-1-2 stretched along the fore-and-aft direction of upper body 11.Concave part 11-1-1 and protuberance 11-1-2 set gradually according to order from inside to outside on left and right directions.Open Side Down for concave part 11-1-1, and protuberance 11-1-2 is to lower convexity, and the lower surface of concave part 11-1-1 is higher than the lower surface of protuberance 11-1-2.

The right grafting limiting section 11-12 of upper body 11 comprises all concave part 11-1-1, protuberance 11-1-2 and the shielding part 11-1-3 stretched along the fore-and-aft direction of upper body 11.Concave part 11-1-1, protuberance 11-1-2 and shielding part 11-1-3 set gradually according to order from inside to outside on left and right directions.Open Side Down for concave part 11-1-1, protuberance 11-1-2 is to lower convexity, shielding part 11-1-3 is plate body, and the lower surface of shielding part 11-1-3 is higher than the lower surface of concave part 11-1-1, the lower surface of concave part 11-1-1 is higher than the lower surface of protuberance 11-1-2, and the concave part 11-1-1 of the concave part 11-1-1 of right grafting limiting section 11-12 and protuberance 11-1-2 and left grafting limiting section 11-11 and protuberance 11-1-2 are symmetrical arranged with respect to the horizontal plane of the central straight line of the long side direction through the floor main body.

The left grafting support portion 12-11 of base plate 12 comprises all concave part 12-1-1, lug boss 12-1-2 and the 12-1-3 of supporting plate section stretched along the fore-and-aft direction of base plate 12.Concave part 12-1-1, lug boss 12-1-2 and the 12-1-3 of supporting plate section set gradually according to order from inside to outside on left and right directions.The opening upwards of concave part 12-1-1, lug boss 12-1-2 raises up, and the 12-1-3 of supporting plate section is plate body, and the upper surface of lug boss 12-1-2 is higher than the upper surface of concave part 12-1-1, and the upper surface of concave part 12-1-1 is higher than the upper surface of the 12-1-3 of supporting plate section.

The right grafting support portion 12-12 of base plate 12 comprises all concave part 12-1-1 and the lug boss 12-1-2 stretched along the fore-and-aft direction of base plate 12.Concave part 12-1-1 and lug boss 12-1-2 set gradually according to order from inside to outside on left and right directions.The opening upwards of concave part 12-1-1, lug boss 12-1-2 raises up, and the upper surface of lug boss 12-1-2 is higher than the upper surface of concave part 12-1-1, and the concave part 12-1-1 of the concave part 12-1-1 of right grafting support portion 12-12 and lug boss 12-1-2 and left grafting support portion 12-11 and lug boss 12-1-2 are symmetrical arranged with respect to the horizontal plane of the central straight line of the long side direction through the floor main body.

The receptacle portion 13-2 of spontaneous heating assembly 13 is pegged graft and coordinates up and down each other with the concave part 11-1-1 of the left grafting limiting section 11-11 of upper body 11 by the upper protuberance 13-2-4a of the Access Division 13-2-1a of its socket base 13-2-1.The receptacle portion 13-2 of spontaneous heating assembly 13 is pegged graft and coordinates up and down each other with the protuberance 11-1-2 of the left grafting limiting section 11-11 of upper body 11 by the upper inserting groove 13-2-5a of the Access Division 13-2-1a of its socket base 13-2-1.The receptacle portion 13-2 of spontaneous heating assembly 13 is mutually pegged graft and coordinates with the concave part 12-1-1 of the left grafting support portion 12-11 of base plate 12 by the lower protuberance 13-2-4b of the Access Division 13-2-1a of its socket base 13-2-1.The receptacle portion 13-2 of spontaneous heating assembly 13 is mutually pegged graft and coordinates with the lug boss 12-1-2 of the left grafting support portion 12-11 of base plate 12 by the lower inserting groove 13-2-5b of the Access Division 13-2-1a of its socket base 13-2-1.

The 13-3 of double plug section of spontaneous heating assembly 13 is pegged graft and coordinates up and down each other with the concave part 11-1-1 of the right grafting limiting section 11-12 of upper body 11 by the upper protuberance 13-3-4a of the Access Division 13-3-1a of its Plug base 13-3-1.The 13-3 of double plug section of spontaneous heating assembly 13 is pegged graft and coordinates up and down each other with the protuberance 11-1-2 of the right grafting limiting section 11-12 of upper body 11 by the upper inserting groove 13-3-5a of the Access Division 13-3-1a of its Plug base 13-3-1.The 13-3 of double plug section of spontaneous heating assembly 13 is mutually pegged graft and coordinates with the concave part 12-1-1 of the right grafting support portion 12-12 of base plate 12 by the lower protuberance 13-3-4b of the Access Division 13-3-1a of its Plug base 13-3-1.The 13-3 of double plug section of spontaneous heating assembly 13 is mutually pegged graft and coordinates with the lug boss 12-1-2 of the right grafting support portion 12-22 of base plate 12 by the lower inserting groove 13-3-5b of the Access Division 13-3-1a of its Plug base 13-3-1.

The receptacle portion 13-2 that said structure makes spontaneous heating assembly 13 is fixed between the left grafting support portion 12-11 of the left grafting limiting section 11-11 of upper body 11 and base plate 12 by the Access Division 13-2-1a of its socket base 13-2-1, and the 13-3 of double plug section that makes spontaneous heating assembly 13 is fixed between the right grafting support portion 12-12 of the right grafting limiting section 11-12 of upper body 11 and base plate 12 by the Access Division 13-3-1a of its Plug base 13-3-1.

(embodiment 14, water-proof type self-heating floor system)

See Figure 23, the present embodiment is carrying out the water-proof type self-heating floor system while describing, its all around is identical with the described direction of embodiment 1 with above-below direction, the length direction of supply line 600 in Figure 23 of take is fore-and-aft direction, be that in Figure 25, below is front side, top be rear side, and the direction up and down of Figure 24 of also take is the direction up and down of description.

See Figure 19, Figure 22 and Figure 25, the water-proof type self-heating floor system of the present embodiment comprises water-proof type self-heating floor, connector 2 and electric power system.Electric power system is supply line 600.The water-proof type self-heating floor adopts the water-proof type self-heating floor 1 of embodiment 8 and embodiment 9 to combine and is laid.

See Figure 17 and Figure 20, connector 2 comprises the first connector 21 and the second connector 22.

See Figure 17 and Figure 19, the first connector 21 is symmetrical extrusion molding integral piece, comprises the connecting portion 21-1 that is positioned at middle part and the 21-2 of flexible clamping section that is positioned at the connecting portion 21-1 left and right sides.The first connector 21 can cut in use as required accordingly.Before and after being positioned at of the shape of the exterior contour of the free state of the 21-2 of flexible clamping section of the first connector 21 and water-proof type self-heating floor 1, the shape at the buckling groove position of both sides is corresponding, and between the adjacent buckling groove position of the shape of the exterior contour of the first connector 21 and two water-proof type self-heating floors 1 of the adjacent laying in front and back, the shape in formed space is corresponding.The shape of connecting portion 21-1 is down " U " shape substantially, being shaped as of the 21-2 of flexible clamping section is provided with free-ended bending shape of turning back from top, and the 21-2 of flexible clamping section is connected to connecting portion 21-1 from the middle part, the left and right sides of connecting portion 21-1, thereby formed a corresponding distortion groove 21-3 between connecting portion 21-1 and the 21-2 of each flexible clamping section.During use, the first connector 21 is pressed downward contracting and is stretched in a corresponding buckling groove position of water-proof type self-heating floor 1 by the free end position of the 21-2 of its flexible clamping section, because the end face 21-2a of the free end of the 21-2 of flexible clamping section is now stopped by the blocking surface 11-2c of the lower protuberance 11-2-1 of the Access Division 11-2 of the upper body 11 of water-proof type self-heating floor 1, so that two water-proof type self-heating floors, 1 locking that front and back are adjacent of the first connector 21 links together.

See Figure 20 and Figure 21, the second connector 22 is symmetrical integrated through injection molding part, comprises the connecting portion 22-1 that is positioned at middle part and the 22-2 of flexible clamping section that is positioned at the connecting portion 22-1 left and right sides.The shape of connecting portion 22-1 is " mouth " font substantially, the structure of the 21-2 of flexible clamping section of the structure of the 22-2 of flexible clamping section and the first connector 21 is basic identical, and the 22-2 of flexible clamping section is connected to connecting portion 22-1 from the bottom, the left and right sides of connecting portion 22-1, thereby formed a corresponding distortion groove 22-3 between connecting portion 21-1 and the 22-2 of each flexible clamping section.During use, the second connector 22 is pressed downward contracting and is stretched in a corresponding blocked hole seat of water-proof type self-heating floor 1 by the free end position of the 22-2 of its flexible clamping section, because the end face 22-2a of the free end of the 22-2 of flexible clamping section is now stopped by the corresponding inwall of the blocked hole seat of the power supply Plug Division 13-2 of water-proof type self-heating floor 1, so that two water-proof type self-heating floors, 1 locking that left and right is adjacent of the second connector 22 links together.

See Figure 23 to Figure 25, supply line 600 comprises power supply base 6 and the RVV 7 that a plurality of shape and structures are identical.RVV 7 comprises 2 wires, and the copper conductor that 2 wires are divided in the first electric wire 71 and the second electric wire 72, the first electric wires 71 and the second electric wire 72 is the copper wire twisted wire.Every 2 power supply bases 6 are 1 group.Each power supply base 6 includes pedestal 61 and power supply plug pin 62.Pedestal 61 is for having the integrated through injection molding part of inserts.Pedestal 61 comprises pedestal principal part 61-1, the 61-2 of adapter sleeve section and injection moulding connecting portion 61-3.The 61-2 of adapter sleeve section is connected to the left side of pedestal principal part 61-1 from left.Be provided with successively from left to right the first plug Access Division 13-3-6 and corresponding the first buckling groove 61-2-1 of the second plug Access Division 13-3-7 and the second buckling groove 61-2-2 on the plug 13-3-1b with the 13-3 of double plug section of spontaneous heating assembly 13 on the inwall of the 61-2 of adapter sleeve section.

To organize power supply plug pin 62 uniformly-spaced on first electric wire 71 of (described interval equals the width of water-proof type self-heating floor 1) nail in RVV 7 more, and the afterbody of power supply plug pin 62 left successively through the copper wire twisted wire of the epidermis that is positioned at left of the epidermis that is arranged in left of RVV 7, the first electric wire 71, the first electric wire 71, the first electric wire 71 be positioned at right-hand epidermis and RVV 7 be positioned at right-hand epidermis after, its head is because radial dimension is blocked in greatly the left of the epidermis that is positioned at left of RVV 7.

In addition many group power supply plug pins 62 are uniformly-spaced on second electric wire 72 of (described interval equals the width of water-proof type self-heating floor 1) nail in RVV 7, the tail down of power supply plug pin 62 is successively through the epidermis that is positioned at left of RVV 7, the epidermis that is positioned at left of the second electric wire 72, copper wire twisted wire in the second electric wire 72, the second electric wire 72 be positioned at right-hand epidermis and RVV 7 be positioned at right-hand epidermis after, its head is because radial dimension is blocked in greatly the left of the epidermis that is positioned at left of RVV 7.

Belong to not the distance along between RVV 7 length directions between two groups of adjoining power supply plug pins 62 on the same group and equal the front side plug 13-3-1b1 of the 13-3 of double plug section of water-proof type self-heating floor 1 and the distance between rear side plug 13-3-1b2.The electrical connection module that a corresponding segment length of each power supply plug pin 62 and RVV 7 is formed as inserts when pedestal 61 injection moulding with these pedestal 61 formation integral pieces, and the head of the upper end of power supply plug pin 62 is covered by the plastic material of pedestal principal part 61-1, the bottom that is passed down through RVV 7 of power supply plug pin 62 is positioned on the axis position of the 61-2 of adapter sleeve section.Between the appearance at pedestal 61 and the position of stretching out pedestal 61 of corresponding RVV 7 by airtight being fixedly connected with of injection moulding connecting portion 61-3 be connected as a single entity because of injection moulding, thereby form a corresponding power supply base 6.Carry out successively above-mentioned injection moulding, finally obtain a plurality of power supply bases 6 and be connected with RVV 7 and be electrically connected to and the supply line 600 that forms.During use, the first electric wire 71 and the second electric wire 72 in RVV 7 are electrically connected to live wire and zero line respectively, thereby make two of same group for one in plug 6, for plug 6, to become live wire for plug, another becomes zero line for plug for plug 6.

See Figure 25, when water-proof type self-heating floor system of the present invention is installed, can first will lay the one layer of heat preservation material on the ground in room as heat-insulation layer, the present embodiment adopts the expandable polystyrene plate to lay on the ground as heat-insulation layer.

See Figure 25, supply line 600 is laid on to place, corner (only drawing 3 groups in Figure 25 for plugs 6) along the right in the room of required laying, and determine the order of each group for plug 6 by mode from front to back, respectively that 601, the second groups of first group of confession plugs supply plug 602 and the 3rd group of confession plug 603.By water-proof type self-heating floor 1 according to from right to left and order from front to back (or according to from right to left and order from back to front) installed, drawn the schematic diagram that the first water-proof type self-heating floor 101, the second water-proof type self-heating floor 102, the 3rd water-proof type self-heating floor 103, the 4th water-proof type self-heating floor 104, the 5th water-proof type self-heating floor 105 and the 6th water-proof type self-heating floor 106 and supply line 600 are installed together mutually in Figure 25.Wherein the first water-proof type self-heating floor 101, the second water-proof type self-heating floor 102, the 4th water-proof type self-heating floor 104, the 5th water-proof type self-heating floor 105 and the 6th water-proof type self-heating floor 106 all adopt the described water-proof type self-heating floor of embodiment 8, and the 3rd water-proof type self-heating floor 103 adopts the described water-proof type self-heating floor of embodiment 9.

The the first water-proof type self-heating floor 101 of first row in installation diagram of take is example, the front side plug 13-3-1b1 of the 13-3 of double plug section of the first water-proof type self-heating floor 101 and rear side plug 13-3-1b2 are inserted respectively in corresponding first group of confession two power supply base 6 of plug 601, the first plug Access Division 13-3-6 of the plug 3 of the 13-3 of each floor double plug section and the second plug Access Division 13-3-7 lay respectively at corresponding in the first buckling groove 61-2-1 and the second buckling groove 61-2-2 of plug 6, form mutual clamping fit structure, and form the waterproof connection.Each inserts respectively for 62 of power supply plug pins of plug 6 in the live wire copper sheathing 13-3-3a and zero line copper sheathing 13-3-3b of plug 3 of the corresponding double plug 13-3 of section, forms interference fit and electrical connection.

See Figure 25, then two the second identical connectors 22 are inserted respectively in the first blocked hole seat 13-2-8 and the second blocked hole seat 13-2-9 of receptacle portion 13-2 of the first water-proof type self-heating floor 101, form mutual clamping and coordinate, and the medial surface of corresponding the first blocked hole seat 13-2-8 of the receptacle portion 13-2 of the right side of the 22-2 of flexible clamping section that is positioned at right side of each second connector 22 and the first water-proof type self-heating floor 101 and the second blocked hole seat 13-2-9 all to leave first fit clearance 91(the present embodiment of 0.1 to 0.3 millimeter be 0.2 millimeter).

The second water-proof type self-heating floor 102 and the first water-proof type self-heating floor 101 are remained on same straight line on left and right directions, then firmly push the second water-proof type self-heating floor 102 to first water-proof type self-heating floor 101 along the floor long side direction, the front side plug 13-3-1b1 of the 13-3 of double plug section of the spontaneous heating assembly 13 of the second water-proof type self-heating floor 102 now, with rear side plug 13-3-1b2, insert respectively in the front side spliced eye 13-2-1b1 and rear side spliced eye 13-2-1b2 of receptacle portion 13-2 of corresponding the first water-proof type self-heating floor 101, , the first plug Access Division 13-3-6 of front side plug 13-3-1b1 and the second plug Access Division 13-3-7 lay respectively in the first seal groove 13-2-6 and the second seal groove 13-2-7 of front side spliced eye 13-2-1b1 of receptacle portion 13-2, form mutual clamping fit structure, and forming waterproof connects.The first plug Access Division 13-3-6 of rear side plug 13-3-1b2 and the second plug Access Division 13-3-7 lay respectively in rear side spliced eye 13-2-1b2 the first seal groove 13-2-6 and the second seal groove 13-2-7 of receptacle portion 13-2, form mutual clamping fit structure, and form the waterproof connection.

The live wire copper contact pin 13-2-3a of the receptacle portion 13-2 of the spontaneous heating assembly 13 of the second water-proof type self-heating floor 102 inserts in the 13-3 of the double plug section live wire copper sheathing 13-3-3a of the first water-proof type self-heating floor 101 and forms interference fit and electrical connection.The zero line copper contact pin 13-2-3b of the receptacle portion 13-2 of the spontaneous heating assembly 13 of the second water-proof type self-heating floor 102 inserts in the 13-3 of the double plug section zero line copper sheathing 13-3-3b of the first water-proof type self-heating floor 101 and forms interference fit and electrical connection.

The 22-2 of flexible clamping section that is arranged in left side of two the second connectors 22 inserts respectively corresponding the first blocked hole seat 13-2-8 and the second blocked hole seat 13-2-9 of the 13-3 of double plug section of the second water-proof type self-heating floor 102, form the clamping fit structure, and it is 0.2 millimeter that corresponding the first blocked hole seat 13-2-8 of the left side of the 22-2 of flexible clamping section that is positioned at left side of each second connector 22 and the 13-3 of double plug section of the second water-proof type self-heating floor 102 and the medial surface of the second blocked hole seat 13-2-9 all leave second fit clearance 92(the present embodiment of 0.1 to 0.3 millimeter).

Thereby the first water-proof type self-heating floor 101 and the second water-proof type self-heating floor 102 are fixed together by two the second connectors 22.While then by identical method laying, being positioned at the 3rd water-proof type self-heating floor 103 of the second row that rear side is adjacent, first the 3rd water-proof type self-heating floor 103 is arranged on to second group of supply line 600 on plug 601; First connector 21 that then will cut accordingly inserts in right section tongue-and-groove of the first water-proof type self-heating floor 101 rear sides and forms the clamping cooperation, then push the 3rd water-proof type self-heating floor 103 to first connector 21 along the floor Width, in the tongue-and-groove of the front side of the first connector 21 insertion the 3rd water-proof type self-heating floors 103, form clamping and coordinate, thereby the 3rd water-proof type self-heating floor 103 is fixed together with corresponding the first water-proof type self-heating floor 101.

Thereby, according to from right to left, installation order from front to back completes the installation of the water-proof type self-heating floor in whole room.Wherein being positioned at the floor that the room edge need to cut also can adopt general floorings to replace.And front side spliced eye 13-2-1b1 and the rear side spliced eye 13-2-1b2 of all receptacle portion 13-2 that are not connected with the 13-3 of double plug section in every row floor end all carry out the insulated enclosure processing.

1 of each row's water-proof type self-heating floor connects with parallel way, thereby each water-proof type self-heating floor 1 is a relatively independent heat-generating units.When power connection, all water-proof type self-heating floors 1 generate heat together and are used for heating, even if a certain damage, can not affect yet other the normal operation of water-proof type self-heating floor 1 and also all joints between all waterproof connect, safe and reliable.

(embodiment 15, water-proof type self-heating floor system)

All the other are identical with embodiment 14 for the present embodiment, and its difference is: the present embodiment adopts the described water-proof type self-heating floor 1 of embodiment 12.

See Figure 38, the supply line of the present embodiment is that a kind of being pegged graft on fore-and-aft direction and the supply line that is electrically connected to can be used in conjunction with each other with the described water-proof type self-heating floor of embodiment 12.Illustrated in Figure 38 is that this supply line places on the ground, the schematic top plan view obtained after by horizontal plane, it being dissectd.Above-below direction in figure be rear the place ahead to.

Power supply plug pin 62 is " L shaped ".During making, first each power supply plug pin 62 is followed closely respectively on the first electric wire 71 and the second electric wire 72 in corresponding RVV 7, and the afterbody of the plug pin 62 of respectively powering is left successively after the epidermis that is positioned at left through the epidermis that is positioned at left of the copper wire twisted wire that is positioned at right-hand epidermis, this electric wire that is arranged in right-hand epidermis, a corresponding wire of RVV 7, this electric wire and RVV 7, and its head is because radial dimension is blocked in greatly the right-hand of right-hand epidermis of being positioned at of RVV 7.Then will stretch out part outside the left side of RVV 7 rolls over backward power supply plug pin 62(that 90 degree form " L " shape afterwards and also powers the part of bending backward of contact pin 62 along the length direction setting of RVV).The 61-2 of adapter sleeve section is connected to the left part rear side of pedestal principal part 61-1 from rear.The 61-2 of adapter sleeve section is provided with spliced eye 61-2a, and spliced eye 61-2a is shaped as rotator shaped, is provided with successively cross sectional shape according to order from front to back on the inwall of the 61-2 of adapter sleeve section and is the first arc buckling groove 61-2-1 and the second buckling groove 61-2-2.

The electrical connection module that a corresponding segment length of each power plug pin 62 and RVV 7 forms as inserts when pedestal 61 injection moulding of corresponding power supply base 6 with these pedestal 61 formation integral pieces.The head of the right-hand member of each plug pin 62 of powering is covered by the plastic material of pedestal principal part 61-1, being positioned on the axis of spliced eye 61-2a of the 61-2 of adapter sleeve section through the part of the backward rear bending of left part of RVV 7 left of power supply plug pin 62, for be arranged on electric heating floor on the copper contact pin of plug be electrically connected to.Between the appearance at pedestal 61 and the position of stretching out pedestal 61 of corresponding RVV 7 by airtight being fixedly connected with of injection moulding connecting portion 61-3 be connected as a single entity because of injection moulding.

Above all embodiment and application examples are used for illustrative purposes only; but not limitation of the present invention; person skilled in the relevant technique without departing from the spirit and scope of the present invention; can also make various conversion and variation, within therefore all technical schemes that are equal to all should be included into scope of patent protection of the present invention.

Claims (34)

1. a spontaneous heating assembly, it is characterized in that: spontaneous heating assembly (13) is the water-proof type electric-heating assembly, comprise transmission unit, electric heating piece (13-1), be positioned at electric heating piece (13-1) two ends, left and right an end receptacle portion (13-2) and be positioned at the double plug section (13-3) of the other end at electric heating piece (13-1) two ends, left and right;

Electric heating piece (13-1) is 1 to 5, and each sheet electric heating piece (13-1) be arranged in parallel each other on same plane; Every electric heating piece (13-1) is that the laminar sealing waterproof type electrothermal device of an electrode is set at the left and right end; Receptacle portion (13-2) is can mutually peg graft and fixedly be electrically connected to and the mutual waterproof link sealed with the double plug section (13-3) of corresponding adjacent spontaneous heating assembly (13) while using; Double plug section (13-3) can mutually peg graft and fixedly be electrically connected to and the mutual waterproof link sealed with the receptacle portion (13-2) of corresponding adjacent spontaneous heating assembly (13) while using;

Receptacle portion (13-2) comprises socket base (13-2-1) and 2 copper contact pins (13-2-3), socket base (13-2-1) is the integrated through injection molding part of bar shaped bulk, be included on left and right directions and be positioned at inboard Access Division (13-2-1a), also be included on left and right directions 2 the spliced eye sections (13-2-1b) that are positioned at the outside, the spliced eye of these 2 spliced eye sections (13-2-1b) is cylinder blind hole shape substantially, 2 equal openings of spliced eye are towards the outside of left and right directions, an or side of above-below direction, an or side of the fore-and-aft direction at the protrusion position in the outside of left and right directions, make the axis of 2 spliced eye sections (13-2-1b) along respective direction, also along left and right directions, or along the vertical direction, or along the fore-and-aft direction setting, 1 in 2 copper contact pins (13-2-3) is live wire copper contact pin (13-2-3a), another 1 is zero line copper contact pin (13-2-3b), each copper contact pin (13-2-3) is arranged in corresponding 1 spliced eye section (13-2-1b) of socket base (13-2-1), and along the axis setting of described spliced eye section (13-2-1b),

Double plug section (13-3) comprises Plug base (13-3-1) and 2 copper sheathings (13-3-3); Plug base (13-3-1) is the integrated through injection molding part of bar shaped bulk, is included on left and right directions and is positioned at inboard Access Division (13-3-1a), also is included on left and right directions 2 plugs (13-3-1b) that are positioned at the outside; The profile of described plug (13-3-1b) is corresponding with the shape of the spliced eye of the spliced eye section (13-2-1b) of receptacle portion (13-2), and the direction of its axis is identical with the axis direction of the spliced eye section (13-2-1b) of receptacle portion (13-2); 1 in 2 copper sheathings (13-3-3) is live wire copper sheathing (13-3-3a), and another 1 is zero line copper sheathing (13-3-3b), and each copper sheathing (13-3-3) is arranged in corresponding 1 plug (13-3-1b) of Plug base (13-3-1);

Transmission unit is comprised of water-proof type live wire and water-proof type zero line; The water-proof type live wire is connected electrically between live wire copper contact pin (13-2-3a) and live wire copper sheathing (13-3-3a), and the water-proof type zero line is connected electrically between zero line copper contact pin (13-2-3b) and zero line copper sheathing (13-3-3b); Parallel with one another or series connection between electric heating piece (13-1), and the electric heating piece group is connected electrically between water-proof type live wire and water-proof type zero line by the respective electrode of its corresponding electric heating piece (13);

The device be electrically connected to live wire copper contact pin (13-2-3a) of spontaneous heating assembly (13) forms socket side the first electrical connection module (13a1); Described socket side the first electrical connection module (13a1) refers to all devices that directly are electrically connected to the afterbody of live wire copper contact pin (13-2-3a), perhaps receptacle portion (13-2) also comprises the first bronze medal member (13-2-3c), and the afterbody of live wire copper contact pin (13-2-3a) is electrically connected to an end of the first bronze medal member (13-2-3c), thereby socket side the first electrical connection module (13a1) refers to all devices that directly are electrically connected to the other end of the first bronze medal member (13-2-3c);

The device be electrically connected to zero line copper contact pin (13-2-3b) of spontaneous heating assembly (13) forms socket side the second electrical connection module (13a2); Described socket side the second electrical connection module (13a2) refers to all devices that directly are electrically connected to the afterbody of zero line copper contact pin (13-2-3b), or receptacle portion (13-2) also comprises the second bronze medal member (13-2-3d), and an end of the second bronze medal member (13-2-3d) on the afterbody of zero line copper contact pin (13-2-3b) is electrically connected to, thereby socket side the second electrical connection module (13a2) refers to all devices that directly are electrically connected to the other end of the second bronze medal member (13-2-3d);

The sidepiece position that is positioned at socket base (13-2-1) side of whole and all the other devices of the corresponding device of above-mentioned 2 socket side electrical connection modules is jointly as inserts, when socket base (13-2-1) injection moulding of receptacle portion (13-2) and this socket base (13-2-1) form one, and the afterbody of each copper contact pin (13-2-3) is covered by the plastic body of socket base (13-2-1), the head of each copper contact pin (13-2-3) is arranged in the hole section that connects of corresponding spliced eye section (13-2-1b), and is coaxially set with this spliced eye section (13-2-1b);

The device be electrically connected to live wire copper sheathing (13-3-3a) of spontaneous heating assembly (13) forms plug side the first electrical connection module (13b1); Described plug side the first electrical connection module (13b1) refers to all devices that directly are electrically connected to the afterbody of live wire copper sheathing (13-3-3a), perhaps double plug section (13-3) also comprises the 3rd bronze medal member (13-3-3c), and the afterbody of live wire copper sheathing (13-3-3a) is electrically connected to an end of the 3rd bronze medal member (13-3-3c), thereby plug side the first electrical connection module (13b1) refers to all devices that directly are electrically connected to the other end of the 3rd bronze medal member (13-3-3c);

The device be electrically connected to zero line copper sheathing (13-3-3b) of spontaneous heating assembly (13) forms plug side the second electrical connection module (13b2); Described plug side the second electrical connection module (13b2) refers to all devices that directly are electrically connected to the afterbody of zero line copper sheathing (13-3-3b), perhaps double plug section (13-3) also comprises the 4th bronze medal member (13-3-3d), and the afterbody of zero line copper sheathing (13-3-3b) is electrically connected to an end of the 4th bronze medal member (13-3-3d), thereby plug side the second electrical connection module (13b2) refers to all devices that directly are electrically connected to the other end of the 4th bronze medal member (13-3-3d);

The sidepiece position that is positioned at Plug base (13-3-1) side of whole and all the other devices of the corresponding device of above-mentioned 2 plug side electrical connection modules is jointly as inserts, when Plug base (13-3-1) injection moulding of double plug section (13-3) and this Plug base (13-3-1) form one, and the afterbody of each copper sheathing (13-3-3) is covered by the plastic body of corresponding plug (13-3-1b) of Plug base (13-3-1) and from the outside of left and right directions, an or side of above-below direction, or a side of the fore-and-aft direction at the protrusion position in the outside of left and right directions communicates with the external world.

2. spontaneous heating assembly according to claim 1, it is characterized in that: the water-proof type live wire of the transmission unit of spontaneous heating assembly (13) and water-proof type zero line are electric wire (13-4), and 2 wires (13-4) are the conductor wire that single copper core outside is coated with the ambroin skin; In 2 wires (13-4), that be used as the water-proof type live wire is the first electric wire (13-41), and as the water-proof type zero line is the second electric wire (13-42);

The receptacle portion (13-2) of spontaneous heating assembly (13) is positioned at the left side of electric heating piece (13-1), and double plug section (13-3) is positioned at the right side of electric heating piece (13-1); The electric heating piece (13-1) of spontaneous heating assembly (13) has 2, be divided into front side electric heating piece (13-11) and rear side electric heating piece (13-12) according to the difference of residing front and back position, and front side electric heating piece (13-11) and rear side electric heating piece (13-12) are connected electrically between water-proof type live wire and water-proof type zero line by parallel way; Each electric heating piece (13-1) includes 1 square strip-shaped conductive heating layer (13-1-1), 2 plate electrode copper sheets (13-1-2), plays the epoxy resin that contains glass fibre outer (13-1-3) of insulation isolation and protection effect; Described electrode copper sheet (13-1-2) is plane " L " shape copper sheet, by the section of overlaying according to the fore-and-aft direction setting, with linkage section according to the left and right directions setting, is connected and forms; 2 plate electrode copper sheets (13-1-2) overlay on the left end of conductive heating layer and right-hand member and corresponding to left end electrode copper sheet and right-hand member electrode copper sheet from top by its section of overlaying respectively, and the linkage section of each electrode copper sheet (13-1-2) is positioned at the outside of left and right directions; Epoxy resin outer (13-1-3) is whole cover be enclosed in conductive heating layer (13-1-1) and electrode copper sheet (13-1-2) reach up and down surrounding, thereby the corresponding part of the linkage section with electrode copper sheet (13-1-2) of epoxy resin outer (13-1-3) becomes the linkage section of epoxy resin skin (13-1-3), the linkage section of this epoxy resin outer (13-1-3) and the linkage section of electrode copper sheet (13-1-2) form the linkage section (13-1a) of electric heating piece (13-1); In the linkage section (13-1a) of electric heating piece (13-1) without conductive heating layer (13-1-1), and by machining thereon surface a breach of the part of the linkage section expose electrode copper sheet (13-1-2) is set; Two linkage sections in the left and right of front side electric heating piece (13-11) (13-1a) are positioned at rear side, and two linkage sections in the left and right of rear side electric heating piece (13-12) (13-1a) are positioned at front side;

The live wire copper contact pin (13-2-3a) of the receptacle portion (13-2) of spontaneous heating assembly (13) is positioned at the left of front side electric heating piece (13-11), and zero line copper contact pin (13-2-3b) is positioned at the left of rear side electric heating piece (13-12); The live wire copper sheathing (13-3-3a) of double plug section (13-3) is positioned at the right-hand of front side electric heating piece (13-11), and zero line copper sheathing (13-3-3b) is positioned at the right-hand of rear side electric heating piece (13-12);

The receptacle portion (13-2) of spontaneous heating assembly (13) also comprises live wire end conductive copper sheet (13-2-2), between the upper surface of live wire end conductive copper sheet (13-2-2) across the left side linkage section (13-1a) of the upper surface of the left side linkage section (13-1a) at front side electric heating piece (13-11) and rear side electric heating piece (13-12), the front portion of live wire end conductive copper sheet (13-2-2) is positioned at the top at the position of upwards exposing of linkage section of the left end electrode copper sheet (13-1-2) of front side electric heating piece (13-11), by copper rivet from bottom to top successively through the front portion of Nei front side, the position electric heating piece (13-11) upwards exposed of the linkage section that comprises left end electrode copper sheet (13-1-2) and live wire end conductive copper sheet (13-2-2), again both are anchored at together and are electrically connected to, the front end in the place ahead of the left side linkage section (13-1a) that is positioned at front side electric heating piece (13-11) of live wire end conductive copper sheet (13-2-2) welds together and is electrically connected to the afterbody of live wire copper contact pin (13-2-3a), and the tail end of live wire copper contact pin (13-2-3a) welds together and is electrically connected to the left end of first electric wire (13-41) of transmission unit, or the front end in the place ahead of the left side linkage section (13-1a) that is positioned at front side electric heating piece (13-11) of live wire end conductive copper sheet (13-2-2) is electrically connected to the first bronze medal member (13-2-3c), the first bronze medal member (13-2-3c) is electrically connected to the afterbody of live wire copper contact pin (13-2-3a) again, and first bronze medal member (13-2-3c) weld together and be electrically connected to the left end of first electric wire (13-41) of transmission unit, the rear end of live wire end conductive copper sheet (13-2-2) is positioned at the top at the position of upwards exposing of linkage section of the left end electrode copper sheet (13-1-2) of rear side electric heating piece (13-12), by copper rivet from bottom to top successively through the rear end of the rear side electric heating piece (13-12) at the position of upwards exposing of the linkage section that comprises left end electrode copper sheet (13-1-2) and live wire end conductive copper sheet (13-2-2), again both are anchored at together and are electrically connected to, in said structure, related appropriate section has formed socket side the first electrical connection module (13a1),

The tail end in right side of the zero line copper contact pin (13-2-3b) of receptacle portion (13-2) welds together and is electrically connected to the left end of the second electric wire (13-42), or the tail end in right side of zero line copper contact pin (13-2-3b) is electrically connected to the second bronze medal member (13-2-3d), the second bronze medal member (13-2-3d) welds together and is electrically connected to the left end of the second electric wire (13-42) again; In said structure, related appropriate section has formed socket side the second electrical connection module (13a2);

Above-mentioned socket side the first electrical connection module (13a1) and socket side the second electrical connection module (13a2) minute front and back are as the front and back inserts, when socket base (13-2-1) injection moulding of receptacle portion (13-2) and this socket base (13-2-1) form one, and the afterbody of live wire copper contact pin (13-2-3a), the afterbody of zero line copper contact pin (13-2-3b), live wire end conductive copper sheet (13-2-2), the left side of front side electric heating piece (13-11), the left side of rear side electric heating piece (13-12), the left end of the left end of the first electric wire (13-41) and the second electric wire (13-42) all is insulated and is sealed in socket base (13-2-1), and the head of live wire copper contact pin (13-2-3a) is arranged in the spliced eye of front side spliced eye section (13-2-1b1), and be coaxially set with front side spliced eye section (13-2-1b1), the head of zero line copper contact pin (13-2-3b) is arranged in the spliced eye of rear side spliced eye section (13-2-1b2), and is coaxially set with rear side spliced eye section (13-2-1b2),

The tail end in left side of the live wire copper sheathing (13-3-3a) of double plug section (13-3) welds together and is electrically connected to the right-hand member of the first electric wire (13-41), or the tail end in left side of live wire copper sheathing (13-3-3a) is electrically connected to the 3rd bronze medal member (13-3-3c), the 3rd bronze medal member (13-3-3c) welds together and is electrically connected to the right-hand member of the first electric wire (13-41) again; In said structure, related appropriate section has formed plug side the first electrical connection module (13b1);

Double plug section (13-3) also comprises zero line side conductive copper sheet (13-3-2); Between the upper surface of the zero line side conductive copper sheet (13-3-2) of double plug section (13-3) across the right side linkage section (13-1a) of the upper surface of the right side linkage section (13-1a) at front side electric heating piece (13-11) and rear side electric heating piece (13-12); The front end of zero line side conductive copper sheet (13-3-2) is positioned at the top at the position of upwards exposing of linkage section of the right-hand member electrode copper sheet (13-1-2) of front side electric heating piece (13-11), by copper rivet from bottom to top successively through the front end of Nei front side, the position electric heating piece (13-11) upwards exposed of the linkage section that comprises right-hand member electrode copper sheet (13-1-2) and zero line side conductive copper sheet (13-3-2), again both are anchored at together and are electrically connected to; The rear portion of zero line side conductive copper sheet (13-3-2) is positioned at the top at the position of upwards exposing of linkage section of the right-hand member electrode copper sheet (13-1-2) of rear side electric heating piece (13-12), by copper rivet from bottom to top successively through the rear portion of the rear side electric heating piece (13-12) at the position of upwards exposing of the linkage section that comprises right-hand member electrode copper sheet (13-1-2) and zero line side conductive copper sheet (13-3-2) and both anchorings are electrically connected to; the rear end at the rear of the right side linkage section (13-1a) that is positioned at rear side electric heating piece (13-12) of zero line side conductive copper sheet (13-3-2) welds together and is electrically connected to the afterbody of zero line copper sheathing (13-3-3b), and the tail end of zero line copper sheathing (13-3-3b) welds together and is electrically connected to the right-hand member of second electric wire (13-42) of transmission unit, the bending of prolongation to the right that perhaps zero line copper sheathing (13-3-3b) is set up by the rear end of zero line side conductive copper sheet (13-3-2) forms, and the rear end of zero line side conductive copper sheet (13-3-2) also welds together and is electrically connected to the right-hand member of second electric wire (13-42) of transmission unit, or left section of the prolongation to the right set up of the rear end of zero line side conductive copper sheet (13-3-2) is as the 4th bronze medal member (13-3-3d), this right section bending of prolongation to the right forms zero line copper sheathing (13-3-3b), and the rear end of zero line side conductive copper sheet (13-3-2) also welds together and is electrically connected to the right-hand member of second electric wire (13-42) of transmission unit, the appropriate section reached described in said structure has formed plug side the second electrical connection module (13b2),

Before and after plug side the first electrical connection module (13b1) and plug side the second electrical connection module (13b2) minute as the front and back inserts when Plug base (13-3-1) injection moulding of double plug section (13-3) with this Plug base (13-3-1) formation one, and the afterbody of live wire copper sheathing (13-3-3a), the afterbody of zero line copper sheathing (13-3-3b), zero line side conductive copper sheet (13-3-2), the right side of front side electric heating piece (13-11), the right side of rear side electric heating piece (13-12), the right-hand member of the right-hand member of the first electric wire (13-41) and the second electric wire (13-42) all is sealed in Plug base (13-3-1), and the head of live wire copper sheathing (13-3-3a) is arranged in front side plug (13-3-1b1), is coaxially set with front side plug (13-3-1b1) and communicates with the external world towards direction from front side plug (13-3-1b1), the head of zero line copper sheathing (13-3-3b) is arranged in rear side plug (13-3-1b2), is coaxially set with rear side plug (13-3-1b2) and communicates with the external world towards direction from rear side plug (13-3-1b2).

3. spontaneous heating assembly according to claim 1, it is characterized in that: the receptacle portion (13-2) of spontaneous heating assembly (13) is positioned at the left side of electric heating piece (13-1), and double plug section (13-3) is positioned at the right side of electric heating piece (13-1); The electric heating piece (13-1) of spontaneous heating assembly (13) has 2, be divided into front side electric heating piece (13-11) and rear side electric heating piece (13-12) according to the difference of residing front and back position, and front side electric heating piece (13-11) and rear side electric heating piece (13-12) are connected electrically between water-proof type live wire and water-proof type zero line by parallel way; Each electric heating piece (13-1) includes 1 square strip-shaped conductive heating layer (13-1-1), 2 plate electrode copper sheets (13-1-2), plays the epoxy resin that contains glass fibre outer (13-1-3) of insulation isolation and protection effect; Described electrode copper sheet (13-1-2) is plane " L " shape copper sheet, by the linkage section of the section of overlaying of fore-and-aft direction and left and right directions, is connected and is formed; 2 plate electrode copper sheets (13-1-2) overlay on the left end of conductive heating layer and right-hand member and corresponding to left end electrode copper sheet and right-hand member electrode copper sheet from top by its section of overlaying respectively, and the linkage section of each electrode copper sheet (13-1-2) is positioned at the outside of left and right directions; What outer (13-1-3) integral body of epoxy resin covered conductive heating layer (13-1-1) and electrode copper sheet (13-1-2) reaches surrounding up and down, thereby the corresponding part of the linkage section with electrode copper sheet (13-1-2) of epoxy resin outer (13-1-3) becomes the linkage section of epoxy resin skin (13-1-3), the linkage section of this epoxy resin outer (13-1-3) and the linkage section of electrode copper sheet (13-1-2) form the linkage section (13-1a) of electric heating piece (13-1); In the linkage section (13-1a) of electric heating piece (13-1) without conductive heating layer (13-1-1), and by machining thereon surface a breach of the part of the linkage section expose electrode copper sheet (13-1-2) is set; Two linkage sections in the left and right of front side electric heating piece (13-11) (13-1a) are positioned at rear side, and two linkage sections in the left and right of rear side electric heating piece (13-12) (13-1a) are positioned at front side;

The live wire copper contact pin (13-2-3a) of the receptacle portion (13-2) of spontaneous heating assembly (13) is positioned at the left of front side electric heating piece (13-11), and zero line copper contact pin (13-2-3b) is positioned at the left of rear side electric heating piece (13-12); The live wire copper sheathing (13-3-3a) of double plug section (13-3) is positioned at the right-hand of front side electric heating piece (13-11), and zero line copper sheathing (13-3-3b) is positioned at the right-hand of rear side electric heating piece (13-12);

The water-proof type live wire of the transmission unit of spontaneous heating assembly (13) and water-proof type zero line include 2 copper sheets for conduction (13-6), aluminium foil (13-5) and polyvinyl chloride thin plate (13-8); Each conduction is fixed on the lower surface of electric heating piece (13-1) from below with copper sheet (13-6), and is coated with conducting resinl on the lower surface of each conduction with copper sheet (13-6); The shape of aluminium foil (13-5) is identical with the shape of the strip-shaped conductive heating layer (13-1-1) of electric heating piece (13-1), be positioned at the below of electric heating piece (13-1), and shelter from strip-shaped conductive heating layer (13-1-1) from below, and the upper surface of the left and right end of aluminium foil (13-5) is electrically connected to copper sheet (13-6) with corresponding conduction; Polyvinyl chloride thin plate (13-8) covers from below and is bonded and fixed at aluminium foil (13-5) and is positioned on the lower surface of electric heating piece (13-1) of aluminium foil (13-5) surrounding by PUR is airtight;

The aluminium foil of above-mentioned water-proof type live wire (13-5) is live wire aluminium foil (13-51), 2 copper sheets for conduction (13-6) of above-mentioned water-proof type live wire are the live wire copper sheet, and the live wire copper sheet is divided into left side live wire copper sheet and right side live wire copper sheet according to the difference of position, residing left and right, the middle part of left side live wire copper sheet (13-6) is provided with extension left, the tail end of live wire copper contact pin (13-2-3a) is welded on the extension left of left side live wire copper sheet (13-6), or right section of the extension left of left side live wire copper sheet (13-6) as the first bronze medal member (13-2-3c), this left the left section tail end with live wire copper contact pin (13-2-3a) of extension weld together, thereby make live wire copper contact pin (13-2-3a) be electrically connected to left side live wire copper sheet (13-6), the middle part of right side live wire copper sheet (13-6) is provided with extension to the right, the tail end of live wire copper sheathing (13-3-3a) is welded on the extension to the right of right side live wire copper sheet and makes live wire copper sheathing (13-3-3a) be electrically connected to right side live wire copper sheet (13-6), perhaps live wire copper sheathing (13-3-3a) is made in the direct bending in extension to the right of right side live wire copper sheet (13-6), or left section of the extension to the right of right side live wire copper sheet (13-6) is as the 3rd bronze medal member (13-3-3c), live wire copper sheathing (13-3-3a) is made in this right section bending of extension to the right,

The aluminium foil of above-mentioned water-proof type zero line (13-5) is zero line aluminium foil (13-52), 2 copper sheets for conduction (13-6) of above-mentioned water-proof type zero line are the zero line copper sheet, and the zero line copper sheet is divided into left side zero line copper sheet and right side zero line copper sheet according to the difference of position, residing left and right, the middle part of left side zero line copper sheet (13-6) is provided with extension left, the tail end of zero line copper contact pin (13-2-3b) is welded on the extension left of left side zero line copper sheet (13-6), or right section of the extension left of left side zero line copper sheet (13-6) as the second bronze medal member (13-2-3d), this left the left section tail end with zero line copper contact pin (13-2-3b) of extension weld together, thereby make zero line copper contact pin (13-2-3b) be electrically connected to left side zero line copper sheet, the middle part of right side zero line copper sheet (13-6) is provided with extension to the right, the tail end of zero line copper sheathing (13-3-3b) is welded on the extension to the right of right side zero line copper sheet (13-6) and makes zero line copper sheathing (13-3-3b) be electrically connected to right side zero line copper sheet (13-6), perhaps zero line copper sheathing (13-3-3b) is made in the direct bending in extension to the right of right side zero line copper sheet (13-6), or left section of the extension to the right of right side zero line copper sheet (13-6) is as the 4th bronze medal member (13-3-3d), zero line copper sheathing (13-3-3b) is made in this right section bending of extension to the right,

The receptacle portion (13-2) of spontaneous heating assembly (13) also comprises live wire end conductive copper sheet (13-2-2), between the upper surface of live wire end conductive copper sheet (13-2-2) across the left side linkage section (13-1a) of the upper surface of the left side linkage section (13-1a) at front side electric heating piece (13-11) and rear side electric heating piece (13-12), the front end of live wire end conductive copper sheet (13-2-2) is positioned at the top at the position of upwards exposing of linkage section of the left end electrode copper sheet (13-1-2) of front side electric heating piece (13-11), the rear end of the left side live wire copper sheet of water-proof type live wire is positioned at the below of linkage section of the left end electrode copper sheet (13-1-2) of front side electric heating piece (13-11), pass successively from bottom to top the left side live wire copper sheet of water-proof type live wire by copper rivet, comprise Nei front side, the position electric heating piece (13-11) upwards exposed of linkage section of left end electrode copper sheet (13-1-2) and the front end of live wire end conductive copper sheet (13-2-2), again the three is anchored at together and is electrically connected to, the rear end of live wire end conductive copper sheet (13-2-2) is positioned at the top at the position of upwards exposing of linkage section of the left end electrode copper sheet (13-1-2) of rear side electric heating piece (13-12), by copper rivet from bottom to top successively through the rear end of the rear side electric heating piece (13-12) at the position of upwards exposing of the linkage section that comprises left end electrode copper sheet (13-1-2) and live wire end conductive copper sheet (13-2-2), again both are anchored at together and are electrically connected to, said structure has formed socket side the first electrical connection module (13a1) together with live wire copper contact pin (13-2-3a) or with related appropriate section in the electrical connection of the left side live wire copper sheet (13-6) of the live wire copper contact pin (13-2-3a) of the first bronze medal member (13-2-3c) and water-proof type live wire and live wire aluminium foil (13-51),

Zero line copper contact pin (13-2-3b) or formed socket side the second electrical connection module (13a2) with related appropriate section in the electrical connection of the left side zero line copper sheet (13-6) of the zero line copper contact pin (13-2-3b) of the second bronze medal member (13-2-3d) and water-proof type zero line and zero line aluminium foil (13-52);

Before and after above-mentioned socket side the first electrical connection module (13a1) and socket side the second electrical connection module (13a2) minute as the front and back inserts when socket base (13-2-1) injection moulding of receptacle portion (13-2) with this socket base (13-2-1) formation one, and the afterbody of live wire copper contact pin (13-2-3a), the afterbody of zero line copper contact pin (13-2-3b), live wire end conductive copper sheet (13-2-2), the left side of front side electric heating piece (13-11), the left side of rear side electric heating piece (13-12), the left-hand portion of the left side live wire copper sheet (13-6) of water-proof type live wire and the left-hand portion of live wire aluminium foil (13-51) and corresponding polyvinyl chloride thin plate (13-8), the left-hand portion of the left side zero line copper sheet (13-6) of water-proof type zero line and the left-hand portion of zero line aluminium foil (13-52) and corresponding polyvinyl chloride thin plate (13-8) all is insulated and is sealed in socket base (13-2-1), the head of live wire copper contact pin (13-2-3a) is arranged in the spliced eye of front side spliced eye section (13-2-1b1), and be coaxially set with front side spliced eye section (13-2-1b1), the head of zero line copper contact pin (13-2-3b) is arranged in the spliced eye of rear side spliced eye section (13-2-1b2), and be coaxially set with rear side spliced eye section (13-2-1b2),

The live wire copper sheathing (13-3-3a) of the double plug section (13-3) of spontaneous heating assembly (13) or formed plug side the first electrical connection module (13b1) with related appropriate section in the electrical connection of the right side live wire copper sheet (13-6) of the live wire copper sheathing (13-3-3a) of the 3rd bronze medal member (13-3-3c) and water-proof type live wire and live wire aluminium foil (13-51);

Double plug section (13-3) also comprises zero line side conductive copper sheet (13-3-2), between the upper surface of zero line side conductive copper sheet (13-3-2) across the right side linkage section (13-1a) of the upper surface of the right side linkage section (13-1a) at front side electric heating piece (13-11) and rear side electric heating piece (13-12), the front end of zero line side conductive copper sheet (13-3-2) is positioned at the top at the position of upwards exposing of linkage section of the right-hand member electrode copper sheet (13-1-2) of front side electric heating piece (13-11), by copper rivet from bottom to top successively through the front end of Nei front side, the position electric heating piece (13-11) upwards exposed of the linkage section that comprises right-hand member electrode copper sheet (13-1-2) and zero line side conductive copper sheet (13-3-2), again both are anchored at together and are electrically connected to, the rear end of zero line side conductive copper sheet (13-3-2) is positioned at the top at the position of upwards exposing of the linkage section that is positioned at right-hand member electrode copper sheet (13-1-2) of rear side electric heating piece (13-12), the rear end of the right side zero line copper sheet of water-proof type zero line is positioned at the below of linkage section of the right-hand member electrode copper sheet (13-1-2) of rear side electric heating piece (13-12), pass successively from bottom to top the right side live wire copper sheet of water-proof type zero line by copper rivet, comprise the rear side electric heating piece (13-12) at the position of upwards exposing of linkage section of right-hand member electrode copper sheet (13-1-2) and the front end of zero line side conductive copper sheet (13-3-2), again the three is anchored at together and is electrically connected to, said structure has formed plug side the second electrical connection module (13b2) together with zero line copper sheathing (13-3-3b) or with related appropriate section in the electrical connection of the right side zero line copper sheet (13-6) of the zero line copper sheathing (13-3-3b) of the 4th bronze medal member (13-3-3d) and water-proof type zero line and zero line aluminium foil (13-52),

Before and after above-mentioned plug side the first electrical connection module (13b1) and plug side the second electrical connection module (13b2) minute as the front and back inserts when Plug base (13-3-1) injection moulding of double plug section (13-3) with this Plug base (13-3-1) formation one, and live wire copper sheathing (13-3-3a) afterbody, the afterbody of zero line copper sheathing (13-3-3b), zero line side conductive copper sheet (13-3-2), the right side of front side electric heating piece (13-11), the right side of rear side electric heating piece (13-12), the position, right side of the right side zero line copper sheet (13-6) of water-proof type zero line and the position, right side of zero line aluminium foil (13-52) and corresponding polyvinyl chloride thin plate (13-8), the position, right side of the right side live wire copper sheet (13-6) of water-proof type live wire and the position, right side of live wire aluminium foil (13-51) and corresponding polyvinyl chloride thin plate (13-8) all is sealed in Plug base (13-3-1), and the head of live wire copper sheathing (13-3-3a) is arranged in front side plug (13-3-1b1), is coaxially set with front side plug (13-3-1b1) and communicates with the external world towards direction from front side plug (13-3-1b1), the head of zero line copper sheathing (13-3-3b) is arranged in rear side plug (13-3-1b2), is coaxially set with rear side plug (13-3-1b2) and communicates with the external world towards direction from rear side plug (13-3-1b2).

4. spontaneous heating assembly according to claim 1, it is characterized in that: the receptacle portion (13-2) of spontaneous heating assembly (13) is positioned at the left side of electric heating piece (13-1), and double plug section (13-3) is positioned at the right side of electric heating piece (13-1); The electric heating piece (13-1) of spontaneous heating assembly (13) has 2, be divided into front side electric heating piece (13-11) and rear side electric heating piece (13-12) according to the difference of residing front and back position, and front side electric heating piece (13-11) and rear side electric heating piece (13-12) are connected electrically between water-proof type live wire and water-proof type zero line according to series system; Each electric heating piece (13-1) includes 1 square strip-shaped conductive heating layer (13-1-1), 2 plate electrode copper sheets (13-1-2), plays the epoxy resin that contains glass fibre outer (13-1-3) of insulation isolation and protection effect; Described electrode copper sheet (13-1-2) is plane " L " shape copper sheet, by the linkage section of the section of overlaying of fore-and-aft direction and left and right directions, is connected and is formed; 2 plate electrode copper sheets (13-1-2) overlay on the left end of conductive heating layer and right-hand member and corresponding to left end electrode copper sheet and right-hand member electrode copper sheet from top by its section of overlaying respectively, and the linkage section of each electrode copper sheet (13-1-2) is positioned at the outside of left and right directions; What outer (13-1-3) integral body of epoxy resin covered conductive heating layer (13-1-1) and electrode copper sheet (13-1-2) reaches surrounding up and down, thereby the corresponding part of the linkage section with electrode copper sheet (13-1-2) of epoxy resin outer (13-1-3) becomes the linkage section of epoxy resin skin (13-1-3), the linkage section of this epoxy resin outer (13-1-3) and the linkage section of electrode copper sheet (13-1-2) form the linkage section (13-1a) of electric heating piece (13-1); In the linkage section (13-1a) of electric heating piece (13-1) without conductive heating layer (13-1-1), and by machining, surface arranges a breach of the part of the linkage section that exposes electrode copper sheet (13-1-2) thereon, then this breach is arranged to solder joint (13-1-5); Two linkage sections in the left and right of front side electric heating piece (13-11) (13-1a) are positioned at rear side, and two linkage sections in the left and right of rear side electric heating piece (13-12) (13-1a) are positioned at front side;

The live wire copper contact pin (13-2-3a) of the receptacle portion (13-2) of spontaneous heating assembly (13) is positioned at the left of front side electric heating piece (13-11), and zero line copper contact pin (13-2-3b) is positioned at the left of rear side electric heating piece (13-12); The live wire copper sheathing (13-3-3a) of double plug section (13-3) is positioned at the right-hand of front side electric heating piece (13-11), and zero line copper sheathing (13-3-3b) is positioned at the right-hand of rear side electric heating piece (13-12);

The water-proof type live wire of the transmission unit of spontaneous heating assembly (13) and water-proof type zero line include polyvinyl chloride thin plate (13-8) and are called the copper strips for conduction of conducting copper belt (13-9); Each conducting copper belt (13-9) is bonded and fixed on the lower surface of corresponding a slice electric heating piece (13-1) along the left and right directions of electric heating piece (13-1), and polyvinyl chloride thin plate (13-8) covers from below and is bonded and fixed at conducting copper belt (13-9) and is positioned on the lower surface of electric heating piece (13-1) of conducting copper belt (13-9) surrounding by PUR is airtight; The conducting copper belt of described water-proof type live wire (13-9) is live wire copper strips (13-91); The conducting copper belt of water-proof type zero line (13-9) is zero line copper strips (13-92);

The tail end in right side of the live wire copper contact pin (13-2-3a) of the receptacle portion (13-2) of spontaneous heating assembly (13) is welded on the extension left of live wire copper strips (13-91) of water-proof type live wire and mutually is electrically connected to, or the extension left of live wire copper strips (13-91) is simultaneously as the first bronze medal member (13-2-3c); In this structure, related appropriate section has formed socket side the first electrical connection module (13a1);

The tail end in right side of the zero line copper contact pin (13-2-3b) of receptacle portion (13-2) is welded on the extension left of zero line copper strips (13-92) of water-proof type zero line and mutually is electrically connected to, or the extension left of zero line copper strips (13-92) is simultaneously as the second bronze medal member (13-2-3d); In this structure, related appropriate section has formed socket side the second electrical connection module (13a2);

Spontaneous heating assembly (13) also comprises series connection device (13-1-6), and this series connection device (13-1-6) is copper conductor, bar shaped copper sheet, temperature detect switch (TDS) or resettable fuse; A corresponding end of described series connection device (13-1-6) is welded and fixed with the scolder of the solder joint (13-1-5) at the linkage section place of the left end electrode copper sheet (13-1-2) of front side electric heating piece (13-11) and makes the left end electrode copper sheet (13-1-2) of front side electric heating piece (13-11) be electrically connected to a corresponding end of the device of connecting (13-1-6); The other end of series connection device (13-1-6) is welded and fixed with the scolder of the solder joint (13-1-5) at the linkage section place of the left end electrode copper sheet (13-1-2) of rear side electric heating piece (13-12) and makes the left end electrode copper sheet (13-1-2) of rear side electric heating piece (13-12) be electrically connected to the other end of the device of connecting (13-1-6); This structure has formed socket side the 3rd electrical connection module (13a3);

Socket side the first electrical connection module (13a1), the second electrical connection module (13a2) and the 3rd electrical connection module form the socket side electrical connection module jointly, this electrical connection module when socket base (13-2-1) injection moulding of receptacle portion (13-2) and this socket base (13-2-1) form one, and the afterbody of live wire copper contact pin (13-2-3a), the afterbody of zero line copper contact pin (13-2-3b), the left end position of water-proof type live wire, the left end position of water-proof type zero line, temperature detect switch (TDS) (13-1-6), the left end position of the left end position of front side electric heating piece (13-11) and rear side electric heating piece (13-12) all is insulated and is sealed in socket base (13-2-1), the head of live wire copper contact pin (13-2-3a) is arranged in the spliced eye of front side spliced eye section (13-2-1b1), and be coaxially set with front side spliced eye section (13-2-1b1), the head of zero line copper contact pin (13-2-3b) is arranged in the spliced eye of rear side spliced eye section (13-2-1b2), and be coaxially set with rear side spliced eye section (13-2-1b2),

The double plug section (13-3) of spontaneous heating assembly (13) also comprises 2 U-shaped connectors (13-3-11) of being made by copper sheet; These 2 U-shaped connectors (13-3-11) are different according to the copper strips from connected, are divided into live wire end connection (13-3-11a) and zero line side connector (13-3-11b);

The live wire end connection (13-3-11a) of double plug section (13-3), then is turned down forwards, backwards respectively and makes live wire end connection (13-3-11a) be electrically connected to live wire copper strips (13-91) respectively from bottom to top through the blank position of live wire copper strips (13-91) and front side electric heating piece (13-11) right-hand member by two pin; The rear end of the inverted sections of the pin that is positioned at rear side of live wire end connection (13-3-11a) is welded and fixed and makes live wire end connection (13-3-11a) be electrically connected to the right-hand member electrode copper sheet (13-1-2) of front side electric heating piece (13-11) with the scolder of the solder joint (13-1-5) at the linkage section place of the right-hand member electrode copper sheet (13-1-2) of front side electric heating piece (13-11); The middle part of live wire end connection (13-3-11a) is provided with extension to the right, the tail end of live wire copper sheathing (13-3-3a) is welded on the extension to the right of live wire end connection (13-3-11a), perhaps live wire copper sheathing (13-3-3a) is made in the direct bending in extension to the right of live wire end connection (13-3-11a), perhaps the extension to the right of live wire end connection (13-3-11a) is directly as the 3rd bronze medal member (13-3-3c), thereby makes live wire end connection (13-3-11a) be electrically connected to live wire copper sheathing (13-3-3a); In said structure, related appropriate section has formed plug side the first electrical connection module (13b1);

The zero line side connector (13-3-11b) of double plug section (13-3), then is turned down forwards, backwards respectively and makes zero line side connector (13-3-11b) be electrically connected to zero line copper strips (13-92) respectively from bottom to top through the blank position of zero line copper strips (13-92) and rear side electric heating piece (13-12) right-hand member by two pin; The front end of the inverted sections of the pin that is positioned at front side of zero line side connector (13-3-11b) is welded and fixed and makes zero line side connector (13-3-11b) be electrically connected to the right-hand member electrode copper sheet (13-1-2) of rear side electric heating piece (13-12) with the scolder of the solder joint (13-1-5) at the linkage section place of the right-hand member electrode copper sheet (13-1-2) of rear side electric heating piece (13-12); The middle part of zero line side connector (13-3-11b) is provided with extension to the right, the tail end of zero line copper sheathing (13-3-3b) is welded on the extension to the right of zero line side connector (13-3-11b), perhaps zero line copper sheathing (13-3-3b) is made in the direct bending in extension to the right of zero line side connector (13-3-11b), perhaps the extension to the right of zero line side connector (13-3-11b) is directly as the 4th bronze medal member (13-3-3d), thereby makes zero line side connector (13-3-11b) be electrically connected to zero line copper sheathing (13-3-3b); In said structure, related appropriate section has formed plug side the second electrical connection module (13b2);

Before and after plug side the first electrical connection module (13b1) and the second electrical connection module (13b2) minute as the front and back inserts when Plug base (13-3-1) injection moulding of double plug section (13-3) with this Plug base (13-3-1) formation one, and the right-hand member position of the right-hand member position of the right-hand member position of the right-hand member position of the afterbody of live wire copper sheathing (13-3-3a) afterbody, zero line copper sheathing (13-3-3b), water-proof type live wire, water-proof type zero line, front side electric heating piece (13-11) and rear side electric heating piece (13-12) all is insulated and is sealed in Plug base (13-3-1); And the head of live wire copper sheathing (13-3-3a) is arranged in front side plug (13-3-1b1), is coaxially set with front side plug (13-3-1b1) and communicates with the external world towards direction from front side plug (13-3-1b1); The head of zero line copper sheathing (13-3-3b) is arranged in rear side plug (13-3-1b2), is coaxially set with rear side plug (13-3-1b2) and communicates with the external world towards direction from rear side plug (13-3-1b2).

5. spontaneous heating assembly according to claim 1, it is characterized in that: the receptacle portion (13-2) of spontaneous heating assembly (13) is positioned at the left side of electric heating piece (13-1), and double plug section (13-3) is positioned at the right side of electric heating piece (13-1);

The Access Division (13-2-1a) of the socket base (13-2-1) of the receptacle portion (13-2) of spontaneous heating assembly (13) is included in protuberance (13-2-4) and the inserting groove (13-2-5) from inside to outside arranged successively on left and right directions; Protuberance (13-2-4) is divided into upper protuberance (13-2-4a) and lower protuberance (13-2-4b) by the difference of its residing upper-lower position, inserting groove (13-2-5) is divided into upper inserting groove (13-2-5a) and lower inserting groove (13-2-5b) according to the difference of residing upper-lower position; The Access Division (13-3-1a) of the Plug base (13-3-1) of the double plug section (13-3) of spontaneous heating assembly (13) is included in protuberance (13-3-4) and the inserting groove (13-3-5) from inside to outside arranged successively on left and right directions; Protuberance (13-3-4) is divided into upper protuberance (13-3-4a) and lower protuberance (13-3-4b) by the difference of its residing upper-lower position, inserting groove (13-3-5) is divided into and is called upper inserting groove (13-3-5a) and lower inserting groove (13-3-5b) according to the difference of residing upper-lower position; When the axis of the spliced eye section (13-2-1b) of the socket base (13-2-1) of the receptacle portion (13-2) of spontaneous heating assembly (13) arranges along left and right directions, the shape of copper contact pin (13-2-3) is shape linearly, the shape of the copper sheathing (13-3-3) of double plug section (13-3) is shape linearly also, and the axis of the plug (13-3-1b) of Plug base (13-3-1) is also along the left and right directions setting;

When the axis of the spliced eye section (13-2-1b) of the socket base (13-2-1) of the receptacle portion (13-2) of spontaneous heating assembly (13) arranges along fore-and-aft direction, receptacle portion (13-2) also comprises the first bronze medal member (13-2-3c) and the second bronze medal member (13-2-3d); Live wire copper contact pin (13-2-3a) and zero line copper contact pin (13-2-3b) all a direction in fore-and-aft direction arrange in the same way, and the spliced eye of spliced eye section (13-2-1b) towards with copper contact pin (13-2-3) towards identical, the first bronze medal member (13-2-3c) and the second bronze medal member (13-2-3d) are all along the left and right directions setting; The outside left at left and right directions of the spliced eye section (13-2-1b) of the socket base (13-2-1) of receptacle portion (13-2) is the first outwardly inserted block position (13-2-1c), socket base (13-2-1) with the adjacent position towards upper spliced eye section (13-2-1b), is provided with the first slot position (13-2-1d); Double plug section (13-3) also comprises the 3rd bronze medal member (13-3-3c) and the 4th bronze medal member (13-3-3d); Live wire copper sheathing (13-3-3a) and the zero line copper sheathing (13-3-3b) of double plug section (13-3) all arrange in the same way along another direction in fore-and-aft direction, this another direction and copper contact pin (13-2-3) towards relative, and plug (13-3-1b) towards with copper sheathing (13-3-3) towards identical, the 3rd bronze medal member (13-3-3c) and the 4th bronze medal member (13-3-3d) are all along the left and right directions setting; The outside left at left and right directions of the plug (13-3-1b) of the Plug base (13-3-1) of double plug section (13-3) is the second outwardly inserted block position (13-3-1c), Plug base (13-3-1) with the adjacent position towards upper plug (13-3-1b), is provided with the second slot position (13-3-1d).

6. spontaneous heating assembly according to claim 1, it is characterized in that: the receptacle portion (13-2) of spontaneous heating assembly (13) is positioned at the left side of electric heating piece (13-1), and double plug section (13-3) is positioned at the right side of electric heating piece (13-1);

The axis of the spliced eye section (13-2-1b) of the socket base (13-2-1) of the receptacle portion (13-2) of spontaneous heating assembly (13) arranges along the vertical direction, and receptacle portion (13-2) also comprises the first bronze medal member (13-2-3c) and the second bronze medal member (13-2-3d); Live wire copper contact pin (13-2-3a) and zero line copper contact pin (13-2-3b) be the same direction in above-below direction all, and the spliced eye of spliced eye section (13-2-1b) towards with copper contact pin (13-2-3) towards identical, the first bronze medal member (13-2-3c) and the second bronze medal member (13-2-3d) are all along the left and right directions setting; Double plug section (13-3) also comprises the 3rd bronze medal member (13-3-3c) and the 4th bronze medal member (13-3-3d); The live wire copper sheathing (13-3-3a) of double plug section (13-3) and zero line copper sheathing (13-3-3b) be the direction of another in above-below direction all, this another direction and copper contact pin (13-2-3) towards relative, and plug (13-3-1b) towards with copper sheathing (13-3-3) towards identical, the 3rd bronze medal member (13-3-3c) and the 4th bronze medal member (13-3-3d) are all along the left and right directions setting;

The Access Division (13-2-1a) of the socket base (13-2-1) of the receptacle portion (13-2) of spontaneous heating assembly (13) is included in protuberance (13-2-4) and the inserting groove (13-2-5) from inside to outside arranged successively on left and right directions; Protuberance (13-2-4) is divided into upper protuberance (13-2-4a) and lower protuberance (13-2-4b) by the difference of its residing upper-lower position, inserting groove (13-2-5) is divided into upper inserting groove (13-2-5a) and lower inserting groove (13-2-5b) according to the difference of residing upper-lower position; The Access Division (13-3-1a) of the Plug base (13-3-1) of the double plug section (13-3) of spontaneous heating assembly (13) is included in protuberance (13-3-4) and the inserting groove (13-3-5) from inside to outside arranged successively on left and right directions; Protuberance (13-3-4) is divided into upper protuberance (13-3-4a) and lower protuberance (13-3-4b) by the difference of its residing upper-lower position, inserting groove (13-3-5) is divided into and is called upper inserting groove (13-3-5a) and lower inserting groove (13-3-5b) according to the difference of residing upper-lower position.

7. according to the described spontaneous heating assembly of one of claim 2 to 4, it is characterized in that: the Access Division (13-2-1a) of the socket base (13-2-1) of the receptacle portion (13-2) of spontaneous heating assembly (13) is included in protuberance (13-2-4) and the inserting groove (13-2-5) from inside to outside arranged successively on left and right directions; Protuberance (13-2-4) is divided into upper protuberance (13-2-4a) and lower protuberance (13-2-4b) by the difference of its residing upper-lower position, inserting groove (13-2-5) is divided into upper inserting groove (13-2-5a) and lower inserting groove (13-2-5b) according to the difference of residing upper-lower position; The Access Division (13-3-1a) of the Plug base (13-3-1) of the double plug section (13-3) of spontaneous heating assembly (13) is included in protuberance (13-3-4) and the inserting groove (13-3-5) from inside to outside arranged successively on left and right directions; Protuberance (13-3-4) is divided into upper protuberance (13-3-4a) and lower protuberance (13-3-4b) by the difference of its residing upper-lower position, inserting groove (13-3-5) is divided into and is called upper inserting groove (13-3-5a) and lower inserting groove (13-3-5b) according to the difference of residing upper-lower position;

When the axis of the spliced eye section (13-2-1b) of the socket base (13-2-1) of the receptacle portion (13-2) of spontaneous heating assembly (13) arranges along left and right directions, the shape of copper contact pin (13-2-3) is shape linearly, the shape of the copper sheathing (13-3-3) of double plug section (13-3) is shape linearly also, and the axis of the plug (13-3-1b) of Plug base (13-3-1) is also along the left and right directions setting;

When the axis of the spliced eye section (13-2-1b) of the socket base (13-2-1) of the receptacle portion (13-2) of spontaneous heating assembly (13) arranges along fore-and-aft direction, receptacle portion (13-2) also comprises the first bronze medal member (13-2-3c) and the second bronze medal member (13-2-3d); Live wire copper contact pin (13-2-3a) and zero line copper contact pin (13-2-3b) all a direction in fore-and-aft direction arrange in the same way, and the spliced eye of spliced eye section (13-2-1b) towards with copper contact pin (13-2-3) towards identical, the first bronze medal member (13-2-3c) and the second bronze medal member (13-2-3d) are all along the left and right directions setting; The outside left at left and right directions of the spliced eye section (13-2-1b) of the socket base (13-2-1) of receptacle portion (13-2) is the first outwardly inserted block position (13-2-1c), socket base (13-2-1) with the adjacent position towards upper spliced eye section (13-2-1b), is provided with the first slot position (13-2-1d); Double plug section (13-3) also comprises the 3rd bronze medal member (13-3-3c) and the 4th bronze medal member (13-3-3d); Live wire copper sheathing (13-3-3a) and the zero line copper sheathing (13-3-3b) of double plug section (13-3) all arrange in the same way along another direction in fore-and-aft direction, this another direction and copper contact pin (13-2-3) towards relative, and plug (13-3-1b) towards with copper sheathing (13-3-3) towards identical, the 3rd bronze medal member (13-3-3c) and the 4th bronze medal member (13-3-3d) are all along the left and right directions setting; The outside left at left and right directions of the plug (13-3-1b) of the Plug base (13-3-1) of double plug section (13-3) is the second outwardly inserted block position (13-3-1c), Plug base (13-3-1) with the adjacent position towards upper plug (13-3-1b), is provided with the second slot position (13-3-1d).

8. according to the described spontaneous heating assembly of one of claim 2 to 4, it is characterized in that: the axis of the spliced eye section (13-2-1b) of the socket base (13-2-1) of the receptacle portion (13-2) of spontaneous heating assembly (13) arranges along the vertical direction, and receptacle portion (13-2) also comprises the first bronze medal member (13-2-3c) and the second bronze medal member (13-2-3d); Live wire copper contact pin (13-2-3a) and zero line copper contact pin (13-2-3b) be the same direction in above-below direction all, and the spliced eye of spliced eye section (13-2-1b) towards with copper contact pin (13-2-3) towards identical, the first bronze medal member (13-2-3c) and the second bronze medal member (13-2-3d) are all along the left and right directions setting; Double plug section (13-3) also comprises the 3rd bronze medal member (13-3-3c) and the 4th bronze medal member (13-3-3d); The live wire copper sheathing (13-3-3a) of double plug section (13-3) and zero line copper sheathing (13-3-3b) be the direction of another in above-below direction all, this another direction and copper contact pin (13-2-3) towards relative, and plug (13-3-1b) towards with copper sheathing (13-3-3) towards identical, the 3rd bronze medal member (13-3-3c) and the 4th bronze medal member (13-3-3d) are all along the left and right directions setting;

The Access Division (13-2-1a) of the socket base (13-2-1) of the receptacle portion (13-2) of spontaneous heating assembly (13) is included in protuberance (13-2-4) and the inserting groove (13-2-5) from inside to outside arranged successively on left and right directions; Protuberance (13-2-4) is divided into upper protuberance (13-2-4a) and lower protuberance (13-2-4b) by the difference of its residing upper-lower position, inserting groove (13-2-5) is divided into upper inserting groove (13-2-5a) and lower inserting groove (13-2-5b) according to the difference of residing upper-lower position; The Access Division (13-3-1a) of the Plug base (13-3-1) of the double plug section (13-3) of spontaneous heating assembly (13) is included in protuberance (13-3-4) and the inserting groove (13-3-5) from inside to outside arranged successively on left and right directions; Protuberance (13-3-4) is divided into upper protuberance (13-3-4a) and lower protuberance (13-3-4b) by the difference of its residing upper-lower position, inserting groove (13-3-5) is divided into and is called upper inserting groove (13-3-5a) and lower inserting groove (13-3-5b) according to the difference of residing upper-lower position.

9. spontaneous heating assembly according to claim 1, is characterized in that: also comprise locating piece (14); Locating piece (14) has 4, and each locating piece (14) includes main part (14-1), dovetail (14-2) and positioning boss (14-3); The cross sectional shape of the main part (14-1) of locating piece (14) is identical with the cross sectional shape of the socket base (13-2-1) of receptacle portion (13-2); Dovetail (14-2) is corresponding with the dovetail groove (13-2-10) of receptacle portion (13-2);

Socket base (13-2-1) the rear and front end along continuous straight runs of receptacle portion (13-2) is provided with dovetail groove (13-2-10), and dovetail groove (13-2-10) is divided into the first dovetail groove (13-2-10a) and the second dovetail groove (13-2-10b) by its residing front and back position;

Plug base (13-3-1) the rear and front end along continuous straight runs of double plug section (13-3) is provided with dovetail groove (13-3-10), and dovetail groove (13-3-10) is divided into the first dovetail groove (13-3-10a) and the second dovetail groove (13-3-10b) by its residing front and back position; First dovetail groove (13-3-10a) of first dovetail groove (13-2-10a) of receptacle portion (13-2) and the second dovetail groove (13-2-10b) and double plug section (13-3) is all identical with the structure of the second dovetail groove (13-3-10b); During use, in the first dovetail groove (13-3-10a), the second dovetail groove (13-3-10b) that 4 locating pieces (14) are inserted to the first dovetail groove (13-2-10a), the second dovetail groove (13-2-10b) and the double plug section (13-3) of corresponding receptacle portion (13-2) by dovetail (14-2) separately respectively;

All be provided with successively from outside to inside cross section on the inwall of 2 spliced eyes (13-2-1b) of the socket base (13-2-1) of receptacle portion (13-2) and be arc the first seal groove (13-2-6) and the second seal groove (13-2-7);

The cross section that 2 plugs (13-3-1b) of the Plug base (13-3-1) of double plug section (13-3) all are provided with from inside to outside successively as the first plug Access Division (13-3-6) and the second plug Access Division (13-3-7) is arc annular protrusion position; And the first plug Access Division (13-3-6) is corresponding with first seal groove (13-2-6) of the spliced eye (13-2-1b) of the socket base (13-2-1) of receptacle portion (13-2), the second plug Access Division (13-3-7) is corresponding with second seal groove (13-2-7) of the spliced eye (13-2-1b) of the socket base (13-2-1) of receptacle portion (13-2).

10. spontaneous heating assembly according to claim 1, it is characterized in that: the receptacle portion (13-2) of spontaneous heating assembly (13) also comprises 2 blocked hole sections, and 2 blocked hole sections are divided into the first blocked hole section (13-2-8) and the second blocked hole section (13-2-9) by the difference of its residing front and back position; The first blocked hole section (13-2-8) and the second blocked hole section (13-2-9) are the position that is provided with L-shaped hole, cross section, an opening in the hole of its described " L " shape left, another opening upwards; The double plug section (13-3) of spontaneous heating assembly (13) also comprises 2 blocked hole sections; These 2 blocked hole sections are divided into the 3rd blocked hole section (13-3-8) and the 4th blocked hole section (13-3-9) by the difference of its residing front and back position; The 3rd blocked hole section (13-3-8) and the 4th blocked hole section (13-3-9) are the position that is provided with L-shaped hole, cross section, an opening in the hole of its described " L " shape to the right, another opening upwards.

11. spontaneous heating assembly according to claim 1 is characterized in that: spontaneous heating assembly (13) also comprises temperature switch or resettable fuse; When between the electric heating piece (13-1) of spontaneous heating assembly (13), forming series circuit, also be in series with temperature switch or resettable fuse in this series circuit; When between the electric heating piece (13-1) of spontaneous heating assembly (13), forming parallel circuits, be in series with a corresponding temperature switch or resettable fuse on the branch road of every electric heating piece (13-1).

A 12. water-proof type self-heating floor, comprise floor main body and spontaneous heating assembly (13), the floor main body comprises upper body (11) and base plate (12), and the floor main body is bonded and fixed at by the lower surface of upper body (11) on the upper surface of base plate (12) and forms; The floor main body is provided with the connecting portion for being connected with adjacent water-proof type self-heating floor while using in the both sides, front and back; It is characterized in that:

The left and right sides of described floor main body is equipped with the electrical connectors that supplies that belongs to spontaneous heating assembly (13); Upper body (11) each side be provided with 1 grafting limiting section (11-1), 2 grafting limiting sections (11-1) are divided into left grafting limiting section (11-11) and right grafting limiting section (11-12) according to the difference of position, residing left and right; 2 the grafting limiting sections in left and right (11-1) all run through the upper body (11) on floor along the short side direction on floor;

The left and right sides of base plate (12) also respectively is provided with 1 grafting support portion (12-1) corresponding with the grafting limiting section (11-1) of upper body (11); 2 grafting support portions (12-1) are divided into left grafting support portion (12-11) and right grafting support portion (12-12) according to position, residing left and right difference; Base plate (12) is all run through along the short side direction on floor in 2 grafting support portions (12-1); The upper surface of the middle part of base plate (12) is provided with upper grooves (12-3) along left and right directions;

Spontaneous heating assembly (13) is the water-proof type electric-heating assembly, comprise transmission unit, electric heating piece (13-1), be positioned at electric heating piece (13-1) two ends, left and right an end receptacle portion (13-2) and be positioned at the double plug section (13-3) of the other end at electric heating piece (13-1) two ends, left and right; The floor main body is all exposed from the outside of left and right directions or a side of above-below direction by receptacle portion (13-2) and double plug section (13-3);

Electric heating piece (13-1) is 1 to 5, and each sheet electric heating piece (13-1) be arranged in parallel each other on same plane; Every electric heating piece (13-1) is that the laminar sealing waterproof type electrothermal device of an electrode is set at the left and right end; Receptacle portion (13-2) is can mutually peg graft and fixedly be electrically connected to and the mutual waterproof link sealed with the double plug section (13-3) of the spontaneous heating assembly (13) of corresponding adjacent water-proof type self-heating floor (1) while using; Double plug section (13-3) can mutually peg graft and fixedly be electrically connected to and the mutual waterproof link sealed with the receptacle portion (13-2) of the spontaneous heating assembly (13) of corresponding adjacent water-proof type self-heating floor (1) while using;

Receptacle portion (13-2) comprises socket base (13-2-1) and 2 copper contact pins (13-2-3), socket base (13-2-1) is the integrated through injection molding part of bar shaped bulk, be included on left and right directions and be positioned at inboard Access Division (13-2-1a), also be included on left and right directions 2 the spliced eye sections (13-2-1b) that are positioned at the outside, the spliced eye of these 2 spliced eye sections (13-2-1b) is cylinder blind hole shape substantially, 2 equal openings of spliced eye are towards the outside of left and right directions, an or side of above-below direction, an or side of the fore-and-aft direction at the protrusion position in the outside of left and right directions, make the axis of 2 spliced eye sections (13-2-1b) along respective direction, also along left and right directions, or along the vertical direction, or along the fore-and-aft direction setting, 1 in 2 copper contact pins (13-2-3) is live wire copper contact pin (13-2-3a), another 1 is zero line copper contact pin (13-2-3b), each copper contact pin (13-2-3) is arranged in corresponding 1 spliced eye section (13-2-1b) of socket base (13-2-1), and along the axis setting of described spliced eye section (13-2-1b),

Double plug section (13-3) comprises Plug base (13-3-1) and 2 copper sheathings (13-3-3); Plug base (13-3-1) is the integrated through injection molding part of bar shaped bulk, is included on left and right directions and is positioned at inboard Access Division (13-3-1a), also is included on left and right directions 2 plugs (13-3-1b) that are positioned at the outside; The profile of described plug (13-3-1b) is corresponding with the shape of the spliced eye of the spliced eye section (13-2-1b) of receptacle portion (13-2), and the direction of its axis is identical with the axis direction of the spliced eye section (13-2-1b) of receptacle portion (13-2); 1 in 2 copper sheathings (13-3-3) is live wire copper sheathing (13-3-3a), and another 1 is zero line copper sheathing (13-3-3b), and each copper sheathing (13-3-3) is arranged in corresponding 1 plug (13-3-1b) of Plug base (13-3-1);

Transmission unit is comprised of water-proof type live wire and water-proof type zero line; The water-proof type live wire is connected electrically between live wire copper contact pin (13-2-3a) and live wire copper sheathing (13-3-3a), and the water-proof type zero line is connected electrically between zero line copper contact pin (13-2-3b) and zero line copper sheathing (13-3-3b); Parallel with one another or series connection between electric heating piece (13-1), and the electric heating piece group is connected electrically between water-proof type live wire and water-proof type zero line by the respective electrode of its corresponding electric heating piece (13);

The device be electrically connected to live wire copper contact pin (13-2-3a) of spontaneous heating assembly (13) forms socket side the first electrical connection module (13a1); Described socket side the first electrical connection module (13a1) refers to all devices that directly are electrically connected to the afterbody of live wire copper contact pin (13-2-3a), perhaps receptacle portion (13-2) also comprises the first bronze medal member (13-2-3c), and the afterbody of live wire copper contact pin (13-2-3a) is electrically connected to an end of the first bronze medal member (13-2-3c), thereby socket side the first electrical connection module (13a1) refers to all devices that directly are electrically connected to the other end of the first bronze medal member (13-2-3c);

The device be electrically connected to zero line copper contact pin (13-2-3b) of spontaneous heating assembly (13) forms socket side the second electrical connection module (13a2); Described socket side the second electrical connection module (13a2) refers to all devices that directly are electrically connected to the afterbody of zero line copper contact pin (13-2-3b), or receptacle portion (13-2) also comprises the second bronze medal member (13-2-3d), and an end of the second bronze medal member (13-2-3d) on the afterbody of zero line copper contact pin (13-2-3b) is electrically connected to, thereby socket side the second electrical connection module (13a2) refers to all devices that directly are electrically connected to the other end of the second bronze medal member (13-2-3d);

The sidepiece position that is positioned at socket base (13-2-1) side of whole and all the other devices of the corresponding device of above-mentioned 2 socket side electrical connection modules is jointly as inserts, when socket base (13-2-1) injection moulding of receptacle portion (13-2) and this socket base (13-2-1) form one, and the afterbody of each copper contact pin (13-2-3) is covered by the plastic body of socket base (13-2-1), the head of each copper contact pin (13-2-3) is arranged in the hole section that connects of corresponding spliced eye section (13-2-1b), and is coaxially set with this spliced eye section (13-2-1b);

The device be electrically connected to live wire copper sheathing (13-3-3a) of spontaneous heating assembly (13) forms plug side the first electrical connection module (13b1); Described plug side the first electrical connection module (13b1) refers to all devices that directly are electrically connected to the afterbody of live wire copper sheathing (13-3-3a), perhaps double plug section (13-3) also comprises the 3rd bronze medal member (13-3-3c), and the afterbody of live wire copper sheathing (13-3-3a) is electrically connected to an end of the 3rd bronze medal member (13-3-3c), thereby plug side the first electrical connection module (13b1) refers to all devices that directly are electrically connected to the other end of the 3rd bronze medal member (13-3-3c);

The device be electrically connected to zero line copper sheathing (13-3-3b) of spontaneous heating assembly (13) forms plug side the second electrical connection module (13b2); Described plug side the second electrical connection module (13b2) refers to all devices that directly are electrically connected to the afterbody of zero line copper sheathing (13-3-3b), perhaps double plug section (13-3) also comprises the 4th bronze medal member (13-3-3d), and the afterbody of zero line copper sheathing (13-3-3b) is electrically connected to an end of the 4th bronze medal member (13-3-3d), thereby plug side the second electrical connection module (13b2) refers to all devices that directly are electrically connected to the other end of the 4th bronze medal member (13-3-3d);

The sidepiece position that is positioned at Plug base (13-3-1) side of whole and all the other devices of the corresponding device of above-mentioned 2 plug side electrical connection modules is jointly as inserts, when Plug base (13-3-1) injection moulding of double plug section (13-3) and this Plug base (13-3-1) form one, and the afterbody of each copper sheathing (13-3-3) is covered by the plastic body of corresponding plug (13-3-1b) of Plug base (13-3-1) and from the outside of left and right directions, an or side of above-below direction, or a side of the fore-and-aft direction at the protrusion position in the outside of left and right directions communicates with the external world,

The electric heating piece (13-1) of spontaneous heating assembly (13) is arranged in the upper grooves (12-3) of base plate (12); Receptacle portion (13-2) is limited in a corresponding grafting limiting section (11-1) of upper body (11) by the upper end of the Access Division (13-2-1a) of its socket base (13-2-1), and the lower end of the Access Division (13-2-1a) of socket base (13-2-1) is limited in a corresponding grafting support portion (12-1) of base plate (12); Double plug section (13-3) is limited in a corresponding grafting limiting section (11-1) of upper body (11) by the upper end of the Access Division (13-3-1a) of its Plug base (13-3-1), and the lower end of the Access Division (13-3-1a) of Plug base (13-3-1) is limited in a corresponding grafting support portion (12-1) of base plate (12).

13. water-proof type self-heating floor according to claim 12 is characterized in that: the both sides, front and back of upper body (11) are the Access Division (11-2) that bottom forms through cut; 2 Access Divisions (11-2) are divided into front Access Division (11-21) and rear Access Division (11-22) according to the difference of residing front and back position; 2 Access Divisions, front and back (11-2) are symmetrical arranged with respect to the vertical guide of the central straight line through upper body (11) long side direction, and all along the long side direction on floor, run through the upper body (11) on floor; Each Access Division (11-2) comprises all the lower protuberance (11-2-1) that stretches along the left and right directions of upper body (11) and contacts limiting section (11-2-2); Lower protuberance (11-2-1) with contact limiting section (11-2-2) and set gradually according to order from outside to inside on fore-and-aft direction;

The both sides, front and back of base plate (12) are the support portion (12-2) that top forms through cut; 2 support portions (12-2) are divided into front support section (12-21) and rear support section (12-22) according to the difference of residing front and back position; 2 support portions, front and back (12-2) are symmetrical arranged with respect to the vertical guide of the central straight line through upper body (11) long side direction, corresponding top of side before and after it that each support portion (12-2) is base plate (12) is provided with the position of gap, this gap all runs through the base plate (12) on floor along the long side direction on floor, and each support portion (12-2) is corresponding with the corresponding Access Division (11-2) of upper body (11) respectively, jointly form the position of the buckling groove as connecting portion that lays respectively at the both sides, front and back of floor main body.

14. water-proof type self-heating floor according to claim 12 is characterized in that: described base plate (12) also comprises 2 wiring ducts (12-4); The upper grooves (12-3) of base plate (12) comprises top forward recess (12-3-1) and the top rearward recess (12-3-2) that connects minute front and back setting of base plate (12) along the floor long side direction; Article 2, wiring duct (12-4) is divided into front wiring duct (12-4-1) and rear wiring duct (12-4-2) according to the difference of residing front and back position; Front wiring duct (12-4-1) is arranged in top forward recess (12-3-1), and connects base plate (12) along the floor long side direction; Rear wiring duct (12-4-2) is arranged in top rearward recess (12-3-2), and connects base plate (12) along the floor long side direction;

The water-proof type live wire of the transmission unit of spontaneous heating assembly (13) and water-proof type zero line are electric wire (13-4), 2 wires (13-4) are the conductor wire that single copper core outside is coated with the ambroin skin, and 2 wires (13-4) are separately positioned in 2 wiring ducts (12-4) of base plate (12); In 2 wires (13-4), that be used as the water-proof type live wire is the first electric wire (13-41), and as the water-proof type zero line is the second electric wire (13-42);

The receptacle portion (13-2) of spontaneous heating assembly (13) is positioned at the left side of electric heating piece (13-1), and double plug section (13-3) is positioned at the right side of electric heating piece (13-1); The electric heating piece (13-1) of spontaneous heating assembly (13) has 2, be divided into front side electric heating piece (13-11) and rear side electric heating piece (13-12) according to the difference of residing front and back position, and front side electric heating piece (13-11) and rear side electric heating piece (13-12) are connected electrically between water-proof type live wire and water-proof type zero line by parallel way; Each electric heating piece (13-1) includes 1 square strip-shaped conductive heating layer (13-1-1), 2 plate electrode copper sheets (13-1-2), plays the epoxy resin that contains glass fibre outer (13-1-3) of insulation isolation and protection effect; Described electrode copper sheet (13-1-2) is plane " L " shape copper sheet, by the section of overlaying according to the fore-and-aft direction setting, with linkage section according to the left and right directions setting, is connected and forms; 2 plate electrode copper sheets (13-1-2) overlay on the left end of conductive heating layer and right-hand member and corresponding to left end electrode copper sheet and right-hand member electrode copper sheet from top by its section of overlaying respectively, and the linkage section of each electrode copper sheet (13-1-2) is positioned at the outside of left and right directions; Epoxy resin outer (13-1-3) is whole cover be enclosed in conductive heating layer (13-1-1) and electrode copper sheet (13-1-2) reach up and down surrounding, thereby the corresponding part of the linkage section with electrode copper sheet (13-1-2) of epoxy resin outer (13-1-3) becomes the linkage section of epoxy resin skin (13-1-3), the linkage section of this epoxy resin outer (13-1-3) and the linkage section of electrode copper sheet (13-1-2) form the linkage section (13-1a) of electric heating piece (13-1); In the linkage section (13-1a) of electric heating piece (13-1) without conductive heating layer (13-1-1), and by machining thereon surface a breach of the part of the linkage section expose electrode copper sheet (13-1-2) is set; Two linkage sections in the left and right of front side electric heating piece (13-11) (13-1a) are positioned at rear side, and two linkage sections in the left and right of rear side electric heating piece (13-12) (13-1a) are positioned at front side;

The live wire copper contact pin (13-2-3a) of the receptacle portion (13-2) of spontaneous heating assembly (13) is positioned at the left of front side electric heating piece (13-11), and zero line copper contact pin (13-2-3b) is positioned at the left of rear side electric heating piece (13-12); The live wire copper sheathing (13-3-3a) of double plug section (13-3) is positioned at the right-hand of front side electric heating piece (13-11), and zero line copper sheathing (13-3-3b) is positioned at the right-hand of rear side electric heating piece (13-12);

The receptacle portion (13-2) of spontaneous heating assembly (13) also comprises live wire end conductive copper sheet (13-2-2), between the upper surface of live wire end conductive copper sheet (13-2-2) across the left side linkage section (13-1a) of the upper surface of the left side linkage section (13-1a) at front side electric heating piece (13-11) and rear side electric heating piece (13-12), the front portion of live wire end conductive copper sheet (13-2-2) is positioned at the top at the position of upwards exposing of linkage section of the left end electrode copper sheet (13-1-2) of front side electric heating piece (13-11), by copper rivet from bottom to top successively through the front portion of Nei front side, the position electric heating piece (13-11) upwards exposed of the linkage section that comprises left end electrode copper sheet (13-1-2) and live wire end conductive copper sheet (13-2-2), again both are anchored at together and are electrically connected to, the front end in the place ahead of the left side linkage section (13-1a) that is positioned at front side electric heating piece (13-11) of live wire end conductive copper sheet (13-2-2) welds together and is electrically connected to the afterbody of live wire copper contact pin (13-2-3a), and the tail end of live wire copper contact pin (13-2-3a) welds together and is electrically connected to the left end of first electric wire (13-41) of transmission unit, or the front end in the place ahead of the left side linkage section (13-1a) that is positioned at front side electric heating piece (13-11) of live wire end conductive copper sheet (13-2-2) is electrically connected to the first bronze medal member (13-2-3c), the first bronze medal member (13-2-3c) is electrically connected to the afterbody of live wire copper contact pin (13-2-3a) again, and first bronze medal member (13-2-3c) weld together and be electrically connected to the left end of first electric wire (13-41) of transmission unit, the rear end of live wire end conductive copper sheet (13-2-2) is positioned at the top at the position of upwards exposing of linkage section of the left end electrode copper sheet (13-1-2) of rear side electric heating piece (13-12), by copper rivet from bottom to top successively through the rear end of the rear side electric heating piece (13-12) at the position of upwards exposing of the linkage section that comprises left end electrode copper sheet (13-1-2) and live wire end conductive copper sheet (13-2-2), again both are anchored at together and are electrically connected to, in said structure, related appropriate section has formed socket side the first electrical connection module (13a1),

The tail end in right side of the zero line copper contact pin (13-2-3b) of receptacle portion (13-2) welds together and is electrically connected to the left end of the second electric wire (13-42), or the tail end in right side of zero line copper contact pin (13-2-3b) is electrically connected to the second bronze medal member (13-2-3d), the second bronze medal member (13-2-3d) welds together and is electrically connected to the left end of the second electric wire (13-42) again; In said structure, related appropriate section has formed socket side the second electrical connection module (13a2);

Above-mentioned socket side the first electrical connection module (13a1) and socket side the second electrical connection module (13a2) minute front and back are as the front and back inserts, when socket base (13-2-1) injection moulding of receptacle portion (13-2) and this socket base (13-2-1) form one, and the afterbody of live wire copper contact pin (13-2-3a), the afterbody of zero line copper contact pin (13-2-3b), live wire end conductive copper sheet (13-2-2), the left side of front side electric heating piece (13-11), the left side of rear side electric heating piece (13-12), the left end of the left end of the first electric wire (13-41) and the second electric wire (13-42) all is insulated and is sealed in socket base (13-2-1), and the head of live wire copper contact pin (13-2-3a) is arranged in the spliced eye of front side spliced eye section (13-2-1b1), and be coaxially set with front side spliced eye section (13-2-1b1), the head of zero line copper contact pin (13-2-3b) is arranged in the spliced eye of rear side spliced eye section (13-2-1b2), and is coaxially set with rear side spliced eye section (13-2-1b2),

The tail end in left side of the live wire copper sheathing (13-3-3a) of double plug section (13-3) welds together and is electrically connected to the right-hand member of the first electric wire (13-41), or the tail end in left side of live wire copper sheathing (13-3-3a) is electrically connected to the 3rd bronze medal member (13-3-3c), the 3rd bronze medal member (13-3-3c) welds together and is electrically connected to the right-hand member of the first electric wire (13-41) again; In said structure, related appropriate section has formed plug side the first electrical connection module (13b1);

Double plug section (13-3) also comprises zero line side conductive copper sheet (13-3-2); Between the upper surface of the zero line side conductive copper sheet (13-3-2) of double plug section (13-3) across the right side linkage section (13-1a) of the upper surface of the right side linkage section (13-1a) at front side electric heating piece (13-11) and rear side electric heating piece (13-12); The front end of zero line side conductive copper sheet (13-3-2) is positioned at the top at the position of upwards exposing of linkage section of the right-hand member electrode copper sheet (13-1-2) of front side electric heating piece (13-11), by copper rivet from bottom to top successively through the front end of Nei front side, the position electric heating piece (13-11) upwards exposed of the linkage section that comprises right-hand member electrode copper sheet (13-1-2) and zero line side conductive copper sheet (13-3-2), again both are anchored at together and are electrically connected to; The rear portion of zero line side conductive copper sheet (13-3-2) is positioned at the top at the position of upwards exposing of linkage section of the right-hand member electrode copper sheet (13-1-2) of rear side electric heating piece (13-12), by copper rivet from bottom to top successively through the rear portion of the rear side electric heating piece (13-12) at the position of upwards exposing of the linkage section that comprises right-hand member electrode copper sheet (13-1-2) and zero line side conductive copper sheet (13-3-2) and both anchorings are electrically connected to; the rear end at the rear of the right side linkage section (13-1a) that is positioned at rear side electric heating piece (13-12) of zero line side conductive copper sheet (13-3-2) welds together and is electrically connected to the afterbody of zero line copper sheathing (13-3-3b), and the tail end of zero line copper sheathing (13-3-3b) welds together and is electrically connected to the right-hand member of second electric wire (13-42) of transmission unit, the bending of prolongation to the right that perhaps zero line copper sheathing (13-3-3b) is set up by the rear end of zero line side conductive copper sheet (13-3-2) forms, and the rear end of zero line side conductive copper sheet (13-3-2) also welds together and is electrically connected to the right-hand member of second electric wire (13-42) of transmission unit, or left section of the prolongation to the right set up of the rear end of zero line side conductive copper sheet (13-3-2) is as the 4th bronze medal member (13-3-3d), this right section bending of prolongation to the right forms zero line copper sheathing (13-3-3b), and the rear end of zero line side conductive copper sheet (13-3-2) also welds together and is electrically connected to the right-hand member of second electric wire (13-42) of transmission unit, the appropriate section reached described in said structure has formed plug side the second electrical connection module (13b2),

Before and after plug side the first electrical connection module (13b1) and plug side the second electrical connection module (13b2) minute as the front and back inserts when Plug base (13-3-1) injection moulding of double plug section (13-3) with this Plug base (13-3-1) formation one, and the afterbody of live wire copper sheathing (13-3-3a), the afterbody of zero line copper sheathing (13-3-3b), zero line side conductive copper sheet (13-3-2), the right side of front side electric heating piece (13-11), the right side of rear side electric heating piece (13-12), the right-hand member of the right-hand member of the first electric wire (13-41) and the second electric wire (13-42) all is sealed in Plug base (13-3-1), and the head of live wire copper sheathing (13-3-3a) is arranged in front side plug (13-3-1b1), is coaxially set with front side plug (13-3-1b1) and communicates with the external world towards direction from front side plug (13-3-1b1), the head of zero line copper sheathing (13-3-3b) is arranged in rear side plug (13-3-1b2), is coaxially set with rear side plug (13-3-1b2) and communicates with the external world towards direction from rear side plug (13-3-1b2),

The front side electric heating piece (13-11) of spontaneous heating assembly (13) be arranged in the top forward recess (12-3-1) that position between receptacle portion (13-2) and double plug section (13-3) is arranged on base plate (12), the position be arranged between receptacle portion (13-2) and double plug section (13-3) of the rear side electric heating piece (13-12) of spontaneous heating assembly (13) is arranged on top rearward recess (12-3-2).

15. water-proof type self-heating floor according to claim 12 is characterized in that: the upper grooves (12-3) of base plate (12) comprises top forward recess (12-3-1) and the top rearward recess (12-3-2) that connects minute front and back setting of base plate (12) along the floor long side direction;

The receptacle portion (13-2) of spontaneous heating assembly (13) is positioned at the left side of electric heating piece (13-1), and double plug section (13-3) is positioned at the right side of electric heating piece (13-1); The electric heating piece (13-1) of spontaneous heating assembly (13) has 2, be divided into front side electric heating piece (13-11) and rear side electric heating piece (13-12) according to the difference of residing front and back position, and front side electric heating piece (13-11) and rear side electric heating piece (13-12) are connected electrically between water-proof type live wire and water-proof type zero line by parallel way; Each electric heating piece (13-1) includes 1 square strip-shaped conductive heating layer (13-1-1), 2 plate electrode copper sheets (13-1-2), plays the epoxy resin that contains glass fibre outer (13-1-3) of insulation isolation and protection effect; Described electrode copper sheet (13-1-2) is plane " L " shape copper sheet, by the linkage section of the section of overlaying of fore-and-aft direction and left and right directions, is connected and is formed; 2 plate electrode copper sheets (13-1-2) overlay on the left end of conductive heating layer and right-hand member and corresponding to left end electrode copper sheet and right-hand member electrode copper sheet from top by its section of overlaying respectively, and the linkage section of each electrode copper sheet (13-1-2) is positioned at the outside of left and right directions; What outer (13-1-3) integral body of epoxy resin covered conductive heating layer (13-1-1) and electrode copper sheet (13-1-2) reaches surrounding up and down, thereby the corresponding part of the linkage section with electrode copper sheet (13-1-2) of epoxy resin outer (13-1-3) becomes the linkage section of epoxy resin skin (13-1-3), the linkage section of this epoxy resin outer (13-1-3) and the linkage section of electrode copper sheet (13-1-2) form the linkage section (13-1a) of electric heating piece (13-1); In the linkage section (13-1a) of electric heating piece (13-1) without conductive heating layer (13-1-1), and by machining thereon surface a breach of the part of the linkage section expose electrode copper sheet (13-1-2) is set; Two linkage sections in the left and right of front side electric heating piece (13-11) (13-1a) are positioned at rear side, and two linkage sections in the left and right of rear side electric heating piece (13-12) (13-1a) are positioned at front side;

The live wire copper contact pin (13-2-3a) of the receptacle portion (13-2) of spontaneous heating assembly (13) is positioned at the left of front side electric heating piece (13-11), and zero line copper contact pin (13-2-3b) is positioned at the left of rear side electric heating piece (13-12); The live wire copper sheathing (13-3-3a) of double plug section (13-3) is positioned at the right-hand of front side electric heating piece (13-11), and zero line copper sheathing (13-3-3b) is positioned at the right-hand of rear side electric heating piece (13-12);

The water-proof type live wire of the transmission unit of spontaneous heating assembly (13) and water-proof type zero line include 2 copper sheets for conduction (13-6), aluminium foil (13-5) and polyvinyl chloride thin plate (13-8); Each conduction is fixed on the lower surface of electric heating piece (13-1) from below with copper sheet (13-6), and is coated with conducting resinl on the lower surface of each conduction with copper sheet (13-6); The shape of aluminium foil (13-5) is identical with the shape of the strip-shaped conductive heating layer (13-1-1) of electric heating piece (13-1), be positioned at the below of electric heating piece (13-1), and shelter from strip-shaped conductive heating layer (13-1-1) from below, and the upper surface of the left and right end of aluminium foil (13-5) is electrically connected to copper sheet (13-6) with corresponding conduction; Polyvinyl chloride thin plate (13-8) covers from below and is bonded and fixed at aluminium foil (13-5) and is positioned on the lower surface of electric heating piece (13-1) of aluminium foil (13-5) surrounding by PUR is airtight;

The aluminium foil of above-mentioned water-proof type live wire (13-5) is live wire aluminium foil (13-51), 2 copper sheets for conduction (13-6) of above-mentioned water-proof type live wire are the live wire copper sheet, and the live wire copper sheet is divided into left side live wire copper sheet and right side live wire copper sheet according to the difference of position, residing left and right, the middle part of left side live wire copper sheet (13-6) is provided with extension left, the tail end of live wire copper contact pin (13-2-3a) is welded on the extension left of left side live wire copper sheet (13-6), or right section of the extension left of left side live wire copper sheet (13-6) as the first bronze medal member (13-2-3c), this left the left section tail end with live wire copper contact pin (13-2-3a) of extension weld together, thereby make live wire copper contact pin (13-2-3a) be electrically connected to left side live wire copper sheet (13-6), the middle part of right side live wire copper sheet (13-6) is provided with extension to the right, the tail end of live wire copper sheathing (13-3-3a) is welded on the extension to the right of right side live wire copper sheet and makes live wire copper sheathing (13-3-3a) be electrically connected to right side live wire copper sheet (13-6), perhaps live wire copper sheathing (13-3-3a) is made in the direct bending in extension to the right of right side live wire copper sheet (13-6), or left section of the extension to the right of right side live wire copper sheet (13-6) is as the 3rd bronze medal member (13-3-3c), live wire copper sheathing (13-3-3a) is made in this right section bending of extension to the right,

The aluminium foil of above-mentioned water-proof type zero line (13-5) is zero line aluminium foil (13-52), 2 copper sheets for conduction (13-6) of above-mentioned water-proof type zero line are the zero line copper sheet, and the zero line copper sheet is divided into left side zero line copper sheet and right side zero line copper sheet according to the difference of position, residing left and right, the middle part of left side zero line copper sheet (13-6) is provided with extension left, the tail end of zero line copper contact pin (13-2-3b) is welded on the extension left of left side zero line copper sheet (13-6), or right section of the extension left of left side zero line copper sheet (13-6) as the second bronze medal member (13-2-3d), this left the left section tail end with zero line copper contact pin (13-2-3b) of extension weld together, thereby make zero line copper contact pin (13-2-3b) be electrically connected to left side zero line copper sheet, the middle part of right side zero line copper sheet (13-6) is provided with extension to the right, the tail end of zero line copper sheathing (13-3-3b) is welded on the extension to the right of right side zero line copper sheet (13-6) and makes zero line copper sheathing (13-3-3b) be electrically connected to right side zero line copper sheet (13-6), perhaps zero line copper sheathing (13-3-3b) is made in the direct bending in extension to the right of right side zero line copper sheet (13-6), or left section of the extension to the right of right side zero line copper sheet (13-6) is as the 4th bronze medal member (13-3-3d), zero line copper sheathing (13-3-3b) is made in this right section bending of extension to the right,

The receptacle portion (13-2) of spontaneous heating assembly (13) also comprises live wire end conductive copper sheet (13-2-2), between the upper surface of live wire end conductive copper sheet (13-2-2) across the left side linkage section (13-1a) of the upper surface of the left side linkage section (13-1a) at front side electric heating piece (13-11) and rear side electric heating piece (13-12), the front end of live wire end conductive copper sheet (13-2-2) is positioned at the top at the position of upwards exposing of linkage section of the left end electrode copper sheet (13-1-2) of front side electric heating piece (13-11), the rear end of the left side live wire copper sheet of water-proof type live wire is positioned at the below of linkage section of the left end electrode copper sheet (13-1-2) of front side electric heating piece (13-11), pass successively from bottom to top the left side live wire copper sheet of water-proof type live wire by copper rivet, comprise Nei front side, the position electric heating piece (13-11) upwards exposed of linkage section of left end electrode copper sheet (13-1-2) and the front end of live wire end conductive copper sheet (13-2-2), again the three is anchored at together and is electrically connected to, the rear end of live wire end conductive copper sheet (13-2-2) is positioned at the top at the position of upwards exposing of linkage section of the left end electrode copper sheet (13-1-2) of rear side electric heating piece (13-12), by copper rivet from bottom to top successively through the rear end of the rear side electric heating piece (13-12) at the position of upwards exposing of the linkage section that comprises left end electrode copper sheet (13-1-2) and live wire end conductive copper sheet (13-2-2), again both are anchored at together and are electrically connected to, said structure has formed socket side the first electrical connection module (13a1) together with live wire copper contact pin (13-2-3a) or with related appropriate section in the electrical connection of the left side live wire copper sheet (13-6) of the live wire copper contact pin (13-2-3a) of the first bronze medal member (13-2-3c) and water-proof type live wire and live wire aluminium foil (13-51),

Zero line copper contact pin (13-2-3b) or formed socket side the second electrical connection module (13a2) with related appropriate section in the electrical connection of the left side zero line copper sheet (13-6) of the zero line copper contact pin (13-2-3b) of the second bronze medal member (13-2-3d) and water-proof type zero line and zero line aluminium foil (13-52);

Before and after above-mentioned socket side the first electrical connection module (13a1) and socket side the second electrical connection module (13a2) minute as the front and back inserts when socket base (13-2-1) injection moulding of receptacle portion (13-2) with this socket base (13-2-1) formation one, and the afterbody of live wire copper contact pin (13-2-3a), the afterbody of zero line copper contact pin (13-2-3b), live wire end conductive copper sheet (13-2-2), the left side of front side electric heating piece (13-11), the left side of rear side electric heating piece (13-12), the left-hand portion of the left side live wire copper sheet (13-6) of water-proof type live wire and the left-hand portion of live wire aluminium foil (13-51) and corresponding polyvinyl chloride thin plate (13-8), the left-hand portion of the left side zero line copper sheet (13-6) of water-proof type zero line and the left-hand portion of zero line aluminium foil (13-52) and corresponding polyvinyl chloride thin plate (13-8) all is insulated and is sealed in socket base (13-2-1), the head of live wire copper contact pin (13-2-3a) is arranged in the spliced eye of front side spliced eye section (13-2-1b1), and be coaxially set with front side spliced eye section (13-2-1b1), the head of zero line copper contact pin (13-2-3b) is arranged in the spliced eye of rear side spliced eye section (13-2-1b2), and be coaxially set with rear side spliced eye section (13-2-1b2),

The live wire copper sheathing (13-3-3a) of the double plug section (13-3) of spontaneous heating assembly (13) or formed plug side the first electrical connection module (13b1) with related appropriate section in the electrical connection of the right side live wire copper sheet (13-6) of the live wire copper sheathing (13-3-3a) of the 3rd bronze medal member (13-3-3c) and water-proof type live wire and live wire aluminium foil (13-51);

Double plug section (13-3) also comprises zero line side conductive copper sheet (13-3-2), between the upper surface of zero line side conductive copper sheet (13-3-2) across the right side linkage section (13-1a) of the upper surface of the right side linkage section (13-1a) at front side electric heating piece (13-11) and rear side electric heating piece (13-12), the front end of zero line side conductive copper sheet (13-3-2) is positioned at the top at the position of upwards exposing of linkage section of the right-hand member electrode copper sheet (13-1-2) of front side electric heating piece (13-11), by copper rivet from bottom to top successively through the front end of Nei front side, the position electric heating piece (13-11) upwards exposed of the linkage section that comprises right-hand member electrode copper sheet (13-1-2) and zero line side conductive copper sheet (13-3-2), again both are anchored at together and are electrically connected to, the rear end of zero line side conductive copper sheet (13-3-2) is positioned at the top at the position of upwards exposing of the linkage section that is positioned at right-hand member electrode copper sheet (13-1-2) of rear side electric heating piece (13-12), the rear end of the right side zero line copper sheet of water-proof type zero line is positioned at the below of linkage section of the right-hand member electrode copper sheet (13-1-2) of rear side electric heating piece (13-12), pass successively from bottom to top the right side live wire copper sheet of water-proof type zero line by copper rivet, comprise the rear side electric heating piece (13-12) at the position of upwards exposing of linkage section of right-hand member electrode copper sheet (13-1-2) and the front end of zero line side conductive copper sheet (13-3-2), again the three is anchored at together and is electrically connected to, said structure has formed plug side the second electrical connection module (13b2) together with zero line copper sheathing (13-3-3b) or with related appropriate section in the electrical connection of the right side zero line copper sheet (13-6) of the zero line copper sheathing (13-3-3b) of the 4th bronze medal member (13-3-3d) and water-proof type zero line and zero line aluminium foil (13-52),

Before and after above-mentioned plug side the first electrical connection module (13b1) and plug side the second electrical connection module (13b2) minute as the front and back inserts when Plug base (13-3-1) injection moulding of double plug section (13-3) with this Plug base (13-3-1) formation one, and live wire copper sheathing (13-3-3a) afterbody, the afterbody of zero line copper sheathing (13-3-3b), zero line side conductive copper sheet (13-3-2), the right side of front side electric heating piece (13-11), the right side of rear side electric heating piece (13-12), the position, right side of the right side zero line copper sheet (13-6) of water-proof type zero line and the position, right side of zero line aluminium foil (13-52) and corresponding polyvinyl chloride thin plate (13-8), the position, right side of the right side live wire copper sheet (13-6) of water-proof type live wire and the position, right side of live wire aluminium foil (13-51) and corresponding polyvinyl chloride thin plate (13-8) all is sealed in Plug base (13-3-1), and the head of live wire copper sheathing (13-3-3a) is arranged in front side plug (13-3-1b1), is coaxially set with front side plug (13-3-1b1) and communicates with the external world towards direction from front side plug (13-3-1b1), the head of zero line copper sheathing (13-3-3b) is arranged in rear side plug (13-3-1b2), is coaxially set with rear side plug (13-3-1b2) and communicates with the external world towards direction from rear side plug (13-3-1b2),

The front side electric heating piece (13-11) of spontaneous heating assembly (13) be arranged in the top forward recess (12-3-1) that position between receptacle portion (13-2) and double plug section (13-3) is arranged on base plate (12), the position be arranged between receptacle portion (13-2) and double plug section (13-3) of the rear side electric heating piece (13-12) of spontaneous heating assembly (13) is arranged on top rearward recess (12-3-2).

16. water-proof type self-heating floor according to claim 12 is characterized in that: the upper grooves (12-3) of base plate (12) comprises top forward recess (12-3-1) and the top rearward recess (12-3-2) that connects minute front and back setting of base plate (12) along the floor long side direction;

The receptacle portion (13-2) of spontaneous heating assembly (13) is positioned at the left side of electric heating piece (13-1), and double plug section (13-3) is positioned at the right side of electric heating piece (13-1); The electric heating piece (13-1) of spontaneous heating assembly (13) has 2, be divided into front side electric heating piece (13-11) and rear side electric heating piece (13-12) according to the difference of residing front and back position, and front side electric heating piece (13-11) and rear side electric heating piece (13-12) are connected electrically between water-proof type live wire and water-proof type zero line according to series system; Each electric heating piece (13-1) includes 1 square strip-shaped conductive heating layer (13-1-1), 2 plate electrode copper sheets (13-1-2), plays the epoxy resin that contains glass fibre outer (13-1-3) of insulation isolation and protection effect; Described electrode copper sheet (13-1-2) is plane " L " shape copper sheet, by the linkage section of the section of overlaying of fore-and-aft direction and left and right directions, is connected and is formed; 2 plate electrode copper sheets (13-1-2) overlay on the left end of conductive heating layer and right-hand member and corresponding to left end electrode copper sheet and right-hand member electrode copper sheet from top by its section of overlaying respectively, and the linkage section of each electrode copper sheet (13-1-2) is positioned at the outside of left and right directions; What outer (13-1-3) integral body of epoxy resin covered conductive heating layer (13-1-1) and electrode copper sheet (13-1-2) reaches surrounding up and down, thereby the corresponding part of the linkage section with electrode copper sheet (13-1-2) of epoxy resin outer (13-1-3) becomes the linkage section of epoxy resin skin (13-1-3), the linkage section of this epoxy resin outer (13-1-3) and the linkage section of electrode copper sheet (13-1-2) form the linkage section (13-1a) of electric heating piece (13-1); In the linkage section (13-1a) of electric heating piece (13-1) without conductive heating layer (13-1-1), and by machining, surface arranges a breach of the part of the linkage section that exposes electrode copper sheet (13-1-2) thereon, then this breach is arranged to solder joint (13-1-5); Two linkage sections in the left and right of front side electric heating piece (13-11) (13-1a) are positioned at rear side, and two linkage sections in the left and right of rear side electric heating piece (13-12) (13-1a) are positioned at front side;

The live wire copper contact pin (13-2-3a) of the receptacle portion (13-2) of spontaneous heating assembly (13) is positioned at the left of front side electric heating piece (13-11), and zero line copper contact pin (13-2-3b) is positioned at the left of rear side electric heating piece (13-12); The live wire copper sheathing (13-3-3a) of double plug section (13-3) is positioned at the right-hand of front side electric heating piece (13-11), and zero line copper sheathing (13-3-3b) is positioned at the right-hand of rear side electric heating piece (13-12);

The water-proof type live wire of the transmission unit of spontaneous heating assembly (13) and water-proof type zero line include polyvinyl chloride thin plate (13-8) and are called the copper strips for conduction of conducting copper belt (13-9); Each conducting copper belt (13-9) is bonded and fixed on the lower surface of corresponding a slice electric heating piece (13-1) along the left and right directions of electric heating piece (13-1), and polyvinyl chloride thin plate (13-8) covers from below and is bonded and fixed at conducting copper belt (13-9) and is positioned on the lower surface of electric heating piece (13-1) of conducting copper belt (13-9) surrounding by PUR is airtight; The conducting copper belt of described water-proof type live wire (13-9) is live wire copper strips (13-91); The conducting copper belt of water-proof type zero line (13-9) is zero line copper strips (13-92);

The tail end in right side of the live wire copper contact pin (13-2-3a) of the receptacle portion (13-2) of spontaneous heating assembly (13) is welded on the extension left of live wire copper strips (13-91) of water-proof type live wire and mutually is electrically connected to, or the extension left of live wire copper strips (13-91) is simultaneously as the first bronze medal member (13-2-3c); In this structure, related appropriate section has formed socket side the first electrical connection module (13a1);

The tail end in right side of the zero line copper contact pin (13-2-3b) of receptacle portion (13-2) is welded on the extension left of zero line copper strips (13-92) of water-proof type zero line and mutually is electrically connected to, or the extension left of zero line copper strips (13-92) is simultaneously as the second bronze medal member (13-2-3d); In this structure, related appropriate section has formed socket side the second electrical connection module (13a2);

Spontaneous heating assembly (13) also comprises series connection device (13-1-6), and this series connection device (13-1-6) is copper conductor, bar shaped copper sheet, temperature detect switch (TDS) or resettable fuse; A corresponding end of described series connection device (13-1-6) is welded and fixed with the scolder of the solder joint (13-1-5) at the linkage section place of the left end electrode copper sheet (13-1-2) of front side electric heating piece (13-11) and makes the left end electrode copper sheet (13-1-2) of front side electric heating piece (13-11) be electrically connected to a corresponding end of the device of connecting (13-1-6); The other end of series connection device (13-1-6) is welded and fixed with the scolder of the solder joint (13-1-5) at the linkage section place of the left end electrode copper sheet (13-1-2) of rear side electric heating piece (13-12) and makes the left end electrode copper sheet (13-1-2) of rear side electric heating piece (13-12) be electrically connected to the other end of the device of connecting (13-1-6); This structure has formed socket side the 3rd electrical connection module (13a3);

Socket side the first electrical connection module (13a1), the second electrical connection module (13a2) and the 3rd electrical connection module (13a3) form the socket side electrical connection module jointly, this electrical connection module when socket base (13-2-1) injection moulding of receptacle portion (13-2) and this socket base (13-2-1) form one, and the afterbody of live wire copper contact pin (13-2-3a), the afterbody of zero line copper contact pin (13-2-3b), the left end position of water-proof type live wire, the left end position of water-proof type zero line, temperature detect switch (TDS) (13-1-6), the left end position of the left end position of front side electric heating piece (13-11) and rear side electric heating piece (13-12) all is insulated and is sealed in socket base (13-2-1), the head of live wire copper contact pin (13-2-3a) is arranged in the spliced eye of front side spliced eye section (13-2-1b1), and be coaxially set with front side spliced eye section (13-2-1b1), the head of zero line copper contact pin (13-2-3b) is arranged in the spliced eye of rear side spliced eye section (13-2-1b2), and be coaxially set with rear side spliced eye section (13-2-1b2),

The double plug section (13-3) of spontaneous heating assembly (13) also comprises 2 U-shaped connectors (13-3-11) of being made by copper sheet; These 2 U-shaped connectors (13-3-11) are different according to the copper strips from connected, are divided into live wire end connection (13-3-11a) and zero line side connector (13-3-11b);

The live wire end connection (13-3-11a) of double plug section (13-3), then is turned down forwards, backwards respectively and makes live wire end connection (13-3-11a) be electrically connected to live wire copper strips (13-91) respectively from bottom to top through the blank position of live wire copper strips (13-91) and front side electric heating piece (13-11) right-hand member by two pin; The rear end of the inverted sections of the pin that is positioned at rear side of live wire end connection (13-3-11a) is welded and fixed and makes live wire end connection (13-3-11a) be electrically connected to the right-hand member electrode copper sheet (13-1-2) of front side electric heating piece (13-11) with the scolder of the solder joint (13-1-5) at the linkage section place of the right-hand member electrode copper sheet (13-1-2) of front side electric heating piece (13-11); The middle part of live wire end connection (13-3-11a) is provided with extension to the right, the tail end of live wire copper sheathing (13-3-3a) is welded on the extension to the right of live wire end connection (13-3-11a), perhaps live wire copper sheathing (13-3-3a) is made in the direct bending in extension to the right of live wire end connection (13-3-11a), perhaps the extension to the right of live wire end connection (13-3-11a) is directly as the 3rd bronze medal member (13-3-3c), thereby makes live wire end connection (13-3-11a) be electrically connected to live wire copper sheathing (13-3-3a); In said structure, related appropriate section has formed plug side the first electrical connection module (13b1);

The zero line side connector (13-3-11b) of double plug section (13-3), then is turned down forwards, backwards respectively and makes zero line side connector (13-3-11b) be electrically connected to zero line copper strips (13-92) respectively from bottom to top through the blank position of zero line copper strips (13-92) and rear side electric heating piece (13-12) right-hand member by two pin; The front end of the inverted sections of the pin that is positioned at front side of zero line side connector (13-3-11b) is welded and fixed and makes zero line side connector (13-3-11b) be electrically connected to the right-hand member electrode copper sheet (13-1-2) of rear side electric heating piece (13-12) with the scolder of the solder joint (13-1-5) at the linkage section place of the right-hand member electrode copper sheet (13-1-2) of rear side electric heating piece (13-12); The middle part of zero line side connector (13-3-11b) is provided with extension to the right, the tail end of zero line copper sheathing (13-3-3b) is welded on the extension to the right of zero line side connector (13-3-11b), perhaps zero line copper sheathing (13-3-3b) is made in the direct bending in extension to the right of zero line side connector (13-3-11b), perhaps the extension to the right of zero line side connector (13-3-11b) is directly as the 4th bronze medal member (13-3-3d), thereby makes zero line side connector (13-3-11b) be electrically connected to zero line copper sheathing (13-3-3b); In said structure, related appropriate section has formed plug side the second electrical connection module (13b2);

Before and after plug side the first electrical connection module (13b1) and the second electrical connection module (13b2) minute as the front and back inserts when Plug base (13-3-1) injection moulding of double plug section (13-3) with this Plug base (13-3-1) formation one, and the right-hand member position of the right-hand member position of the right-hand member position of the right-hand member position of the afterbody of live wire copper sheathing (13-3-3a) afterbody, zero line copper sheathing (13-3-3b), water-proof type live wire, water-proof type zero line, front side electric heating piece (13-11) and rear side electric heating piece (13-12) all is insulated and is sealed in Plug base (13-3-1); And the head of live wire copper sheathing (13-3-3a) is arranged in front side plug (13-3-1b1), is coaxially set with front side plug (13-3-1b1) and communicates with the external world towards direction from front side plug (13-3-1b1); The head of zero line copper sheathing (13-3-3b) is arranged in rear side plug (13-3-1b2), is coaxially set with rear side plug (13-3-1b2) and communicates with the external world towards direction from rear side plug (13-3-1b2);

The front side electric heating piece (13-11) of spontaneous heating assembly (13) be arranged in the top forward recess (12-3-1) that position between receptacle portion (13-2) and double plug section (13-3) is arranged on base plate (12), the position be arranged between receptacle portion (13-2) and double plug section (13-3) of the rear side electric heating piece (13-12) of spontaneous heating assembly (13) is arranged on top rearward recess (12-3-2).

17. according to the described water-proof type self-heating floor of claim 12 or 13, it is characterized in that: the receptacle portion (13-2) of spontaneous heating assembly (13) is positioned at the left side of electric heating piece (13-1), double plug section (13-3) is positioned at the right side of electric heating piece (13-1);

2 grafting limiting sections (11-1) of upper body (11) are symmetrical arranged with respect to the vertical guide of the central straight line of the short side direction through upper body (11); Each grafting limiting section (11-1) of upper body (11) comprises all concave part (11-1-1), protuberance (11-1-2) and the shielding part (11-1-3) stretched along the fore-and-aft direction of upper body (11); Concave part (11-1-1), protuberance (11-1-2) and shielding part (11-1-3) set gradually according to order from inside to outside on left and right directions; Open Side Down for concave part (11-1-1), protuberance (11-1-2) is to lower convexity, shielding part (11-1-3) is plate body, and the lower surface of shielding part (11-1-3) is higher than the lower surface of concave part (11-1-1), and the lower surface of concave part (11-1-1) is higher than the lower surface of protuberance (11-1-2);

2 grafting support portions (12-1) of base plate (12) are symmetrical arranged with respect to the vertical guide of the central straight line of the short side direction through base plate (12); Each grafting support portion (12-1) of base plate (12) comprises all concave part (12-1-1), lug boss (12-1-2) and the supporting plate section (12-1-3) of stretching along the fore-and-aft direction of base plate (12); Concave part (12-1-1), lug boss (12-1-2) and supporting plate section (12-1-3) set gradually according to order from inside to outside on left and right directions; The opening upwards of concave part (12-1-1), lug boss (12-1-2) raises up, supporting plate section (12-1-3) is plate body, and the upper surface of lug boss (12-1-2) is higher than the upper surface of concave part (12-1-1), and the upper surface of concave part (12-1-1) is higher than the upper surface of supporting plate section (12-1-3);

The Access Division (13-2-1a) of the socket base (13-2-1) of the receptacle portion (13-2) of spontaneous heating assembly (13) is included in protuberance (13-2-4) and the inserting groove (13-2-5) from inside to outside arranged successively on left and right directions; Protuberance (13-2-4) is divided into upper protuberance (13-2-4a) and lower protuberance (13-2-4b) by the difference of its residing upper-lower position, inserting groove (13-2-5) is divided into upper inserting groove (13-2-5a) and lower inserting groove (13-2-5b) according to the difference of residing upper-lower position; The receptacle portion (13-2) of spontaneous heating assembly (13) is pegged graft and is coordinated up and down each other with the concave part (11-1-1) of the left grafting limiting section (11-11) of upper body (11) by the upper protuberance (13-2-4a) of the Access Division (13-2-1a) of its socket base (13-2-1); The receptacle portion (13-2) of spontaneous heating assembly (13) is pegged graft and is coordinated up and down each other with the protuberance (11-1-2) of the left grafting limiting section (11-11) of upper body (11) by the upper inserting groove (13-2-5a) of the Access Division (13-2-1a) of its socket base (13-2-1); The receptacle portion (13-2) of spontaneous heating assembly (13) is mutually pegged graft and is coordinated with the concave part (12-1-1) of the left grafting support portion (12-11) of base plate (12) by the lower protuberance (13-2-4b) of the Access Division (13-2-1a) of its socket base (13-2-1); The receptacle portion (13-2) of spontaneous heating assembly (13) is mutually pegged graft and is coordinated with the lug boss (12-1-2) of the left grafting support portion (12-11) of base plate (12) by the lower inserting groove (13-2-5b) of the Access Division (13-2-1a) of its socket base (13-2-1);

The Access Division (13-3-1a) of the Plug base (13-3-1) of the double plug section (13-3) of spontaneous heating assembly (13) is included in protuberance (13-3-4) and the inserting groove (13-3-5) from inside to outside arranged successively on left and right directions; Protuberance (13-3-4) is divided into upper protuberance (13-3-4a) and lower protuberance (13-3-4b) by the difference of its residing upper-lower position, inserting groove (13-3-5) is divided into and is called upper inserting groove (13-3-5a) and lower inserting groove (13-3-5b) according to the difference of residing upper-lower position; The double plug section (13-3) of spontaneous heating assembly (13) is pegged graft and coordinates up and down each other with the concave part (11-1-1) of the right grafting limiting section (11-12) of upper body (11) by the upper protuberance (13-3-4a) of the Access Division (13-3-1a) of its Plug base (13-3-1); The double plug section (13-3) of spontaneous heating assembly (13) is pegged graft and coordinates up and down each other with the protuberance (11-1-2) of the right grafting limiting section (11-12) of upper body (11) by the upper inserting groove (13-3-5a) of the Access Division (13-3-1a) of its Plug base (13-3-1); The double plug section (13-3) of spontaneous heating assembly (13) is mutually pegged graft and coordinates with the concave part (12-1-1) of the right grafting support portion (12-12) of base plate (12) by the lower protuberance (13-3-4b) of the Access Division (13-3-1a) of its Plug base (13-3-1); The double plug section (13-3) of spontaneous heating assembly (13) is mutually pegged graft and coordinates with the lug boss (12-1-2) of the right grafting support portion (12-12) of base plate (12) by the lower inserting groove (13-3-5b) of the Access Division (13-3-1a) of its Plug base (13-3-1);

The receptacle portion (13-2) that said structure makes spontaneous heating assembly (13) is fixed between the left grafting support portion (12-11) of the left grafting limiting section (11-11) of upper body (11) and base plate (12) by the Access Division (13-2-1a) of its socket base (13-2-1), and the double plug section (13-3) that makes spontaneous heating assembly (13) is fixed between the right grafting support portion (12-12) of the right grafting limiting section (11-12) of upper body (11) and base plate (12) by the Access Division (13-3-1a) of its Plug base (13-3-1);

When the axis of the spliced eye section (13-2-1b) of the socket base (13-2-1) of the receptacle portion (13-2) of spontaneous heating assembly (13) arranges along left and right directions, the shape of copper contact pin (13-2-3) is shape linearly, the shape of the copper sheathing (13-3-3) of double plug section (13-3) is shape linearly also, and the axis of the plug (13-3-1b) of Plug base (13-3-1) is also along the left and right directions setting; ; The receptacle portion (13-2) of spontaneous heating assembly (13) and double plug section (13-3) all do not need to arrange described the first bronze medal member to the four bronze medal members;

When the axis of the spliced eye section (13-2-1b) of the socket base (13-2-1) of the receptacle portion (13-2) of spontaneous heating assembly (13) arranges along fore-and-aft direction, receptacle portion (13-2) also comprises the first bronze medal member (13-2-3c) and the second bronze medal member (13-2-3d); Live wire copper contact pin (13-2-3a) and zero line copper contact pin (13-2-3b) all a direction in fore-and-aft direction arrange in the same way, and the spliced eye of spliced eye section (13-2-1b) towards with copper contact pin (13-2-3) towards identical, the first bronze medal member (13-2-3c) and the second bronze medal member (13-2-3d) are all along the left and right directions setting; The outside left at left and right directions of the spliced eye section (13-2-1b) of the socket base (13-2-1) of receptacle portion (13-2) is the first outwardly inserted block position (13-2-1c), socket base (13-2-1) with the adjacent position towards upper spliced eye section (13-2-1b), is provided with the first slot position (13-2-1d); Double plug section (13-3) also comprises the 3rd bronze medal member (13-3-3c) and the 4th bronze medal member (13-3-3d); Live wire copper sheathing (13-3-3a) and the zero line copper sheathing (13-3-3b) of double plug section (13-3) all arrange in the same way along another direction in fore-and-aft direction, this another direction and copper contact pin (13-2-3) towards relative, and plug (13-3-1b) towards with copper sheathing (13-3-3) towards identical, the 3rd bronze medal member (13-3-3c) and the 4th bronze medal member (13-3-3d) are all along the left and right directions setting; The outside left at left and right directions of the plug (13-3-1b) of the Plug base (13-3-1) of double plug section (13-3) is the second outwardly inserted block position (13-3-1c), Plug base (13-3-1) with the adjacent position towards upper plug (13-3-1b), is provided with the second slot position (13-3-1d).

18. according to the described water-proof type self-heating floor of claim 12 or 13, it is characterized in that: the receptacle portion (13-2) of spontaneous heating assembly (13) is positioned at the left side of electric heating piece (13-1), double plug section (13-3) is positioned at the right side of electric heating piece (13-1); The left part of receptacle portion (13-2) upwards exposes the left grafting limiting section (11-11) of upper body (11); The right part of double plug section (13-3) exposes the right grafting support portion (12-12) of base plate (12) downwards;

The axis of the spliced eye section (13-2-1b) of the socket base (13-2-1) of the receptacle portion (13-2) of spontaneous heating assembly (13) arranges along the vertical direction, and receptacle portion (13-2) also comprises the first bronze medal member (13-2-3c) and the second bronze medal member (13-2-3d); Live wire copper contact pin (13-2-3a) and zero line copper contact pin (13-2-3b) be the same direction in above-below direction all, and the spliced eye of spliced eye section (13-2-1b) towards with copper contact pin (13-2-3) towards identical, the first bronze medal member (13-2-3c) and the second bronze medal member (13-2-3d) are all along the left and right directions setting; Double plug section (13-3) also comprises the 3rd bronze medal member (13-3-3c) and the 4th bronze medal member (13-3-3d); The live wire copper sheathing (13-3-3a) of double plug section (13-3) and zero line copper sheathing (13-3-3b) be the direction of another in above-below direction all, this another direction and copper contact pin (13-2-3) towards relative, and plug (13-3-1b) towards with copper sheathing (13-3-3) towards identical, the 3rd bronze medal member (13-3-3c) and the 4th bronze medal member (13-3-3d) are all along the left and right directions setting;

The left grafting limiting section (11-11) of upper body (11) comprises all concave part (11-1-1) and the protuberance (11-1-2) stretched along the fore-and-aft direction of upper body (11); Concave part (11-1-1) and protuberance (11-1-2) set gradually according to order from inside to outside on left and right directions; Open Side Down for concave part (11-1-1), and protuberance (11-1-2) is to lower convexity, and the lower surface of concave part (11-1-1) is higher than the lower surface of protuberance (11-1-2);

The right grafting limiting section (11-12) of upper body (11) comprises all concave part (11-1-1), protuberance (11-1-2) and the shielding part (11-1-3) stretched along the fore-and-aft direction of upper body (11); Concave part (11-1-1), protuberance (11-1-2) and shielding part (11-1-3) set gradually according to order from inside to outside on left and right directions; Open Side Down for concave part (11-1-1), protuberance (11-1-2) is to lower convexity, shielding part (11-1-3) is plate body, and the lower surface of shielding part (11-1-3) is higher than the lower surface of concave part (11-1-1), and the lower surface of concave part (11-1-1) is higher than the lower surface of protuberance (11-1-2); The left grafting support portion (12-11) of base plate (12) comprises all concave part (12-1-1), lug boss (12-1-2) and the supporting plate section (12-1-3) of stretching along the fore-and-aft direction of base plate (12); Concave part (12-1-1), lug boss (12-1-2) and supporting plate section (12-1-3) set gradually according to order from inside to outside on left and right directions; The opening upwards of concave part (12-1-1), lug boss (12-1-2) raises up, supporting plate section (12-1-3) is plate body, and the upper surface of lug boss (12-1-2) is higher than the upper surface of concave part (12-1-1), and the upper surface of concave part (12-1-1) is higher than the upper surface of supporting plate section (12-1-3);

The right grafting support portion (12-12) of base plate (12) comprises all concave part (12-1-1) and the lug boss (12-1-2) stretched along the fore-and-aft direction of base plate (12); Concave part (12-1-1) and lug boss (12-1-2) set gradually according to order from inside to outside on left and right directions; The opening upwards of concave part (12-1-1), lug boss (12-1-2) raises up, and the upper surface of lug boss (12-1-2) is higher than the upper surface of concave part (12-1-1);

The Access Division (13-2-1a) of the socket base (13-2-1) of the receptacle portion (13-2) of spontaneous heating assembly (13) is included in protuberance (13-2-4) and the inserting groove (13-2-5) from inside to outside arranged successively on left and right directions; Protuberance (13-2-4) is divided into upper protuberance (13-2-4a) and lower protuberance (13-2-4b) by the difference of its residing upper-lower position, inserting groove (13-2-5) is divided into upper inserting groove (13-2-5a) and lower inserting groove (13-2-5b) according to the difference of residing upper-lower position; The receptacle portion (13-2) of spontaneous heating assembly (13) is pegged graft and is coordinated up and down each other with the concave part (11-1-1) of the left grafting limiting section (11-11) of upper body (11) by the upper protuberance (13-2-4a) of the Access Division (13-2-1a) of its socket base (13-2-1); The receptacle portion (13-2) of spontaneous heating assembly (13) is pegged graft and is coordinated up and down each other with the protuberance (11-1-2) of the left grafting limiting section (11-11) of upper body (11) by the upper inserting groove (13-2-5a) of the Access Division (13-2-1a) of its socket base (13-2-1); The receptacle portion (13-2) of spontaneous heating assembly (13) is mutually pegged graft and is coordinated with the concave part (12-1-1) of the left grafting support portion (12-11) of base plate (12) by the lower protuberance (13-2-4b) of the Access Division (13-2-1a) of its socket base (13-2-1); The receptacle portion (13-2) of spontaneous heating assembly (13) is mutually pegged graft and is coordinated with the lug boss (12-1-2) of the left grafting support portion (12-11) of base plate (12) by the lower inserting groove (13-2-5b) of the Access Division (13-2-1a) of its socket base (13-2-1);

The Access Division (13-3-1a) of the Plug base (13-3-1) of the double plug section (13-3) of spontaneous heating assembly (13) is included in protuberance (13-3-4) and the inserting groove (13-3-5) from inside to outside arranged successively on left and right directions; Protuberance (13-3-4) is divided into upper protuberance (13-3-4a) and lower protuberance (13-3-4b) by the difference of its residing upper-lower position, inserting groove (13-3-5) is divided into and is called upper inserting groove (13-3-5a) and lower inserting groove (13-3-5b) according to the difference of residing upper-lower position; The double plug section (13-3) of spontaneous heating assembly (13) is pegged graft and coordinates up and down each other with the concave part (11-1-1) of the right grafting limiting section (11-12) of upper body (11) by the upper protuberance (13-3-4a) of the Access Division (13-3-1a) of its Plug base (13-3-1); The double plug section (13-3) of spontaneous heating assembly (13) is pegged graft and coordinates up and down each other with the protuberance (11-1-2) of the right grafting limiting section (11-12) of upper body (11) by the upper inserting groove (13-3-5a) of the Access Division (13-3-1a) of its Plug base (13-3-1); The double plug section (13-3) of spontaneous heating assembly (13) is mutually pegged graft and coordinates with the concave part (12-1-1) of the right grafting support portion (12-12) of base plate (12) by the lower protuberance (13-3-4b) of the Access Division (13-3-1a) of its Plug base (13-3-1); The double plug section (13-3) of spontaneous heating assembly (13) is mutually pegged graft and coordinates with the lug boss (12-1-2) of the right grafting support portion (12-12) of base plate (12) by the lower inserting groove (13-3-5b) of the Access Division (13-3-1a) of its Plug base (13-3-1);

The receptacle portion (13-2) that said structure makes spontaneous heating assembly (13) is fixed between the left grafting support portion (12-11) of the left grafting limiting section (11-11) of upper body (11) and base plate (12) by the Access Division (13-2-1a) of its socket base (13-2-1), and the double plug section (13-3) that makes spontaneous heating assembly (13) is fixed between the right grafting support portion (12-12) of the right grafting limiting section (11-12) of upper body (11) and base plate (12) by the Access Division (13-3-1a) of its Plug base (13-3-1).

19., according to claim 14 to one of 16 described water-proof type self-heating floors, it is characterized in that: 2 grafting limiting sections (11-1) of upper body (11) are symmetrical arranged with respect to the vertical guide of the central straight line of the short side direction through upper body (11); Each grafting limiting section (11-1) of upper body (11) comprises all concave part (11-1-1), protuberance (11-1-2) and the shielding part (11-1-3) stretched along the fore-and-aft direction of upper body (11); Concave part (11-1-1), protuberance (11-1-2) and shielding part (11-1-3) set gradually according to order from inside to outside on left and right directions; Open Side Down for concave part (11-1-1), protuberance (11-1-2) is to lower convexity, shielding part (11-1-3) is plate body, and the lower surface of shielding part (11-1-3) is higher than the lower surface of concave part (11-1-1), and the lower surface of concave part (11-1-1) is higher than the lower surface of protuberance (11-1-2);

2 grafting support portions (12-1) of base plate (12) are symmetrical arranged with respect to the vertical guide of the central straight line of the short side direction through base plate (12); Each grafting support portion (12-1) of base plate (12) comprises all concave part (12-1-1), lug boss (12-1-2) and the supporting plate section (12-1-3) of stretching along the fore-and-aft direction of base plate (12); Concave part (12-1-1), lug boss (12-1-2) and supporting plate section (12-1-3) set gradually according to order from inside to outside on left and right directions; The opening upwards of concave part (12-1-1), lug boss (12-1-2) raises up, supporting plate section (12-1-3) is plate body, and the upper surface of lug boss (12-1-2) is higher than the upper surface of concave part (12-1-1), and the upper surface of concave part (12-1-1) is higher than the upper surface of supporting plate section (12-1-3);

The Access Division (13-2-1a) of the socket base (13-2-1) of the receptacle portion (13-2) of spontaneous heating assembly (13) is included in protuberance (13-2-4) and the inserting groove (13-2-5) from inside to outside arranged successively on left and right directions; Protuberance (13-2-4) is divided into upper protuberance (13-2-4a) and lower protuberance (13-2-4b) by the difference of its residing upper-lower position, inserting groove (13-2-5) is divided into upper inserting groove (13-2-5a) and lower inserting groove (13-2-5b) according to the difference of residing upper-lower position; The receptacle portion (13-2) of spontaneous heating assembly (13) is pegged graft and is coordinated up and down each other with the concave part (11-1-1) of the left grafting limiting section (11-11) of upper body (11) by the upper protuberance (13-2-4a) of the Access Division (13-2-1a) of its socket base (13-2-1); The receptacle portion (13-2) of spontaneous heating assembly (13) is pegged graft and is coordinated up and down each other with the protuberance (11-1-2) of the left grafting limiting section (11-11) of upper body (11) by the upper inserting groove (13-2-5a) of the Access Division (13-2-1a) of its socket base (13-2-1); The receptacle portion (13-2) of spontaneous heating assembly (13) is mutually pegged graft and is coordinated with the concave part (12-1-1) of the left grafting support portion (12-11) of base plate (12) by the lower protuberance (13-2-4b) of the Access Division (13-2-1a) of its socket base (13-2-1); The receptacle portion (13-2) of spontaneous heating assembly (13) is mutually pegged graft and is coordinated with the lug boss (12-1-2) of the left grafting support portion (12-11) of base plate (12) by the lower inserting groove (13-2-5b) of the Access Division (13-2-1a) of its socket base (13-2-1);

The Access Division (13-3-1a) of the Plug base (13-3-1) of the double plug section (13-3) of spontaneous heating assembly (13) is included in protuberance (13-3-4) and the inserting groove (13-3-5) from inside to outside arranged successively on left and right directions; Protuberance (13-3-4) is divided into upper protuberance (13-3-4a) and lower protuberance (13-3-4b) by the difference of its residing upper-lower position, inserting groove (13-3-5) is divided into and is called upper inserting groove (13-3-5a) and lower inserting groove (13-3-5b) according to the difference of residing upper-lower position; The double plug section (13-3) of spontaneous heating assembly (13) is pegged graft and coordinates up and down each other with the concave part (11-1-1) of the right grafting limiting section (11-12) of upper body (11) by the upper protuberance (13-3-4a) of the Access Division (13-3-1a) of its Plug base (13-3-1); The double plug section (13-3) of spontaneous heating assembly (13) is pegged graft and coordinates up and down each other with the protuberance (11-1-2) of the right grafting limiting section (11-12) of upper body (11) by the upper inserting groove (13-3-5a) of the Access Division (13-3-1a) of its Plug base (13-3-1); The double plug section (13-3) of spontaneous heating assembly (13) is mutually pegged graft and coordinates with the concave part (12-1-1) of the right grafting support portion (12-12) of base plate (12) by the lower protuberance (13-3-4b) of the Access Division (13-3-1a) of its Plug base (13-3-1); The double plug section (13-3) of spontaneous heating assembly (13) is mutually pegged graft and coordinates with the lug boss (12-1-2) of the right grafting support portion (12-12) of base plate (12) by the lower inserting groove (13-3-5b) of the Access Division (13-3-1a) of its Plug base (13-3-1);

The receptacle portion (13-2) that said structure makes spontaneous heating assembly (13) is fixed between the left grafting support portion (12-11) of the left grafting limiting section (11-11) of upper body (11) and base plate (12) by the Access Division (13-2-1a) of its socket base (13-2-1), and the double plug section (13-3) that makes spontaneous heating assembly (13) is fixed between the right grafting support portion (12-12) of the right grafting limiting section (11-12) of upper body (11) and base plate (12) by the Access Division (13-3-1a) of its Plug base (13-3-1);

When the axis of the spliced eye section (13-2-1b) of the socket base (13-2-1) of the receptacle portion (13-2) of spontaneous heating assembly (13) arranges along left and right directions, the shape of copper contact pin (13-2-3) is shape linearly, the shape of the copper sheathing (13-3-3) of double plug section (13-3) is shape linearly also, and the axis of the plug (13-3-1b) of Plug base (13-3-1) is also along the left and right directions setting; ; The receptacle portion (13-2) of spontaneous heating assembly (13) and double plug section (13-3) all do not need to arrange described the first bronze medal member to the four bronze medal members;

When the axis of the spliced eye section (13-2-1b) of the socket base (13-2-1) of the receptacle portion (13-2) of spontaneous heating assembly (13) arranges along fore-and-aft direction, receptacle portion (13-2) also comprises the first bronze medal member (13-2-3c) and the second bronze medal member (13-2-3d); Live wire copper contact pin (13-2-3a) and zero line copper contact pin (13-2-3b) all a direction in fore-and-aft direction arrange in the same way, and the spliced eye of spliced eye section (13-2-1b) towards with copper contact pin (13-2-3) towards identical, the first bronze medal member (13-2-3c) and the second bronze medal member (13-2-3d) are all along the left and right directions setting; The outside left at left and right directions of the spliced eye section (13-2-1b) of the socket base (13-2-1) of receptacle portion (13-2) is the first outwardly inserted block position (13-2-1c), socket base (13-2-1) with the adjacent position towards upper spliced eye section (13-2-1b), is provided with the first slot position (13-2-1d); Double plug section (13-3) also comprises the 3rd bronze medal member (13-3-3c) and the 4th bronze medal member (13-3-3d); Live wire copper sheathing (13-3-3a) and the zero line copper sheathing (13-3-3b) of double plug section (13-3) all arrange in the same way along another direction in fore-and-aft direction, this another direction and copper contact pin (13-2-3) towards relative, and plug (13-3-1b) towards with copper sheathing (13-3-3) towards identical, the 3rd bronze medal member (13-3-3c) and the 4th bronze medal member (13-3-3d) are all along the left and right directions setting; The outside left at left and right directions of the plug (13-3-1b) of the Plug base (13-3-1) of double plug section (13-3) is the second outwardly inserted block position (13-3-1c), Plug base (13-3-1) with the adjacent position towards upper plug (13-3-1b), is provided with the second slot position (13-3-1d).

20., according to claim 14 to one of 16 described water-proof type self-heating floors, it is characterized in that: the left part of receptacle portion (13-2) upwards exposes the left grafting limiting section (11-11) of upper body (11); The right part of double plug section (13-3) exposes the right grafting support portion (12-12) of base plate (12) downwards;

The axis of the spliced eye section (13-2-1b) of the socket base (13-2-1) of the receptacle portion (13-2) of spontaneous heating assembly (13) arranges along the vertical direction, and receptacle portion (13-2) also comprises the first bronze medal member (13-2-3c) and the second bronze medal member (13-2-3d); Live wire copper contact pin (13-2-3a) and zero line copper contact pin (13-2-3b) be the same direction in above-below direction all, and the spliced eye of spliced eye section (13-2-1b) towards with copper contact pin (13-2-3) towards identical, the first bronze medal member (13-2-3c) and the second bronze medal member (13-2-3d) are all along the left and right directions setting; Double plug section (13-3) also comprises the 3rd bronze medal member (13-3-3c) and the 4th bronze medal member (13-3-3d); The live wire copper sheathing (13-3-3a) of double plug section (13-3) and zero line copper sheathing (13-3-3b) be the direction of another in above-below direction all, this another direction and copper contact pin (13-2-3) towards relative, and plug (13-3-1b) towards with copper sheathing (13-3-3) towards identical, the 3rd bronze medal member (13-3-3c) and the 4th bronze medal member (13-3-3d) are all along the left and right directions setting;

The left grafting limiting section (11-11) of upper body (11) comprises all concave part (11-1-1) and the protuberance (11-1-2) stretched along the fore-and-aft direction of upper body (11); Concave part (11-1-1) and protuberance (11-1-2) set gradually according to order from inside to outside on left and right directions; Open Side Down for concave part (11-1-1), and protuberance (11-1-2) is to lower convexity, and the lower surface of concave part (11-1-1) is higher than the lower surface of protuberance (11-1-2);

The right grafting limiting section (11-12) of upper body (11) comprises all concave part (11-1-1), protuberance (11-1-2) and the shielding part (11-1-3) stretched along the fore-and-aft direction of upper body (11); Concave part (11-1-1), protuberance (11-1-2) and shielding part (11-1-3) set gradually according to order from inside to outside on left and right directions; Open Side Down for concave part (11-1-1), protuberance (11-1-2) is to lower convexity, shielding part (11-1-3) is plate body, and the lower surface of shielding part (11-1-3) is higher than the lower surface of concave part (11-1-1), and the lower surface of concave part (11-1-1) is higher than the lower surface of protuberance (11-1-2); The left grafting support portion (12-11) of base plate (12) comprises all concave part (12-1-1), lug boss (12-1-2) and the supporting plate section (12-1-3) of stretching along the fore-and-aft direction of base plate (12); Concave part (12-1-1), lug boss (12-1-2) and supporting plate section (12-1-3) set gradually according to order from inside to outside on left and right directions; The opening upwards of concave part (12-1-1), lug boss (12-1-2) raises up, supporting plate section (12-1-3) is plate body, and the upper surface of lug boss (12-1-2) is higher than the upper surface of concave part (12-1-1), and the upper surface of concave part (12-1-1) is higher than the upper surface of supporting plate section (12-1-3);

The right grafting support portion (12-12) of base plate (12) comprises all concave part (12-1-1) and the lug boss (12-1-2) stretched along the fore-and-aft direction of base plate (12); Concave part (12-1-1) and lug boss (12-1-2) set gradually according to order from inside to outside on left and right directions; The opening upwards of concave part (12-1-1), lug boss (12-1-2) raises up, and the upper surface of lug boss (12-1-2) is higher than the upper surface of concave part (12-1-1);

The Access Division (13-2-1a) of the socket base (13-2-1) of the receptacle portion (13-2) of spontaneous heating assembly (13) is included in protuberance (13-2-4) and the inserting groove (13-2-5) from inside to outside arranged successively on left and right directions; Protuberance (13-2-4) is divided into upper protuberance (13-2-4a) and lower protuberance (13-2-4b) by the difference of its residing upper-lower position, inserting groove (13-2-5) is divided into upper inserting groove (13-2-5a) and lower inserting groove (13-2-5b) according to the difference of residing upper-lower position; The receptacle portion (13-2) of spontaneous heating assembly (13) is pegged graft and is coordinated up and down each other with the concave part (11-1-1) of the left grafting limiting section (11-11) of upper body (11) by the upper protuberance (13-2-4a) of the Access Division (13-2-1a) of its socket base (13-2-1); The receptacle portion (13-2) of spontaneous heating assembly (13) is pegged graft and is coordinated up and down each other with the protuberance (11-1-2) of the left grafting limiting section (11-11) of upper body (11) by the upper inserting groove (13-2-5a) of the Access Division (13-2-1a) of its socket base (13-2-1); The receptacle portion (13-2) of spontaneous heating assembly (13) is mutually pegged graft and is coordinated with the concave part (12-1-1) of the left grafting support portion (12-11) of base plate (12) by the lower protuberance (13-2-4b) of the Access Division (13-2-1a) of its socket base (13-2-1); The receptacle portion (13-2) of spontaneous heating assembly (13) is mutually pegged graft and is coordinated with the lug boss (12-1-2) of the left grafting support portion (12-11) of base plate (12) by the lower inserting groove (13-2-5b) of the Access Division (13-2-1a) of its socket base (13-2-1);

The Access Division (13-3-1a) of the Plug base (13-3-1) of the double plug section (13-3) of spontaneous heating assembly (13) is included in protuberance (13-3-4) and the inserting groove (13-3-5) from inside to outside arranged successively on left and right directions; Protuberance (13-3-4) is divided into upper protuberance (13-3-4a) and lower protuberance (13-3-4b) by the difference of its residing upper-lower position, inserting groove (13-3-5) is divided into and is called upper inserting groove (13-3-5a) and lower inserting groove (13-3-5b) according to the difference of residing upper-lower position; The double plug section (13-3) of spontaneous heating assembly (13) is pegged graft and coordinates up and down each other with the concave part (11-1-1) of the right grafting limiting section (11-12) of upper body (11) by the upper protuberance (13-3-4a) of the Access Division (13-3-1a) of its Plug base (13-3-1); The double plug section (13-3) of spontaneous heating assembly (13) is pegged graft and coordinates up and down each other with the protuberance (11-1-2) of the right grafting limiting section (11-12) of upper body (11) by the upper inserting groove (13-3-5a) of the Access Division (13-3-1a) of its Plug base (13-3-1); The double plug section (13-3) of spontaneous heating assembly (13) is mutually pegged graft and coordinates with the concave part (12-1-1) of the right grafting support portion (12-12) of base plate (12) by the lower protuberance (13-3-4b) of the Access Division (13-3-1a) of its Plug base (13-3-1); The double plug section (13-3) of spontaneous heating assembly (13) is mutually pegged graft and coordinates with the lug boss (12-1-2) of the right grafting support portion (12-12) of base plate (12) by the lower inserting groove (13-3-5b) of the Access Division (13-3-1a) of its Plug base (13-3-1);

The receptacle portion (13-2) that said structure makes spontaneous heating assembly (13) is fixed between the left grafting support portion (12-11) of the left grafting limiting section (11-11) of upper body (11) and base plate (12) by the Access Division (13-2-1a) of its socket base (13-2-1), and the double plug section (13-3) that makes spontaneous heating assembly (13) is fixed between the right grafting support portion (12-12) of the right grafting limiting section (11-12) of upper body (11) and base plate (12) by the Access Division (13-3-1a) of its Plug base (13-3-1).

21. water-proof type self-heating floor according to claim 12 is characterized in that: also comprise locating piece (14); Locating piece (14) has 4, and each locating piece (14) includes main part (14-1), dovetail (14-2) and positioning boss (14-3); The cross sectional shape of the main part (14-1) of locating piece (14) is identical with the cross sectional shape of the socket base (13-2-1) of receptacle portion (13-2); Dovetail (14-2) is corresponding with the dovetail groove (13-2-10) of receptacle portion (13-2);

Socket base (13-2-1) the rear and front end along continuous straight runs of receptacle portion (13-2) is provided with dovetail groove (13-2-10), and dovetail groove (13-2-10) is divided into the first dovetail groove (13-2-10a) and the second dovetail groove (13-2-10b) by its residing front and back position;

Plug base (13-3-1) the rear and front end along continuous straight runs of double plug section (13-3) is provided with dovetail groove (13-3-10), and dovetail groove (13-3-10) is divided into the first dovetail groove (13-3-10a) and the second dovetail groove (13-3-10b) by its residing front and back position; First dovetail groove (13-3-10a) of first dovetail groove (13-2-10a) of receptacle portion (13-2) and the second dovetail groove (13-2-10b) and double plug section (13-3) is all identical with the structure of the second dovetail groove (13-3-10b); During use, in the first dovetail groove (13-3-10a), the second dovetail groove (13-3-10b) that 4 locating pieces (14) are inserted to the first dovetail groove (13-2-10a), the second dovetail groove (13-2-10b) and the double plug section (13-3) of corresponding receptacle portion (13-2) by dovetail (14-2) separately respectively;

All be provided with successively from outside to inside cross section on the inwall of 2 spliced eyes (13-2-1b) of the socket base (13-2-1) of receptacle portion (13-2) and be arc the first seal groove (13-2-6) and the second seal groove (13-2-7);

The cross section that 2 plugs (13-3-1b) of the Plug base (13-3-1) of double plug section (13-3) all are provided with from inside to outside successively as the first plug Access Division (13-3-6) and the second plug Access Division (13-3-7) is arc annular protrusion position; And the first plug Access Division (13-3-6) is corresponding with first seal groove (13-2-6) of the spliced eye (13-2-1b) of the socket base (13-2-1) of receptacle portion (13-2), the second plug Access Division (13-3-7) is corresponding with second seal groove (13-2-7) of the spliced eye (13-2-1b) of the socket base (13-2-1) of receptacle portion (13-2).

22. water-proof type self-heating floor according to claim 12, it is characterized in that: the receptacle portion (13-2) of spontaneous heating assembly (13) also comprises 2 blocked hole sections, and 2 blocked hole sections are divided into the first blocked hole section (13-2-8) and the second blocked hole section (13-2-9) by the difference of its residing front and back position; The first blocked hole section (13-2-8) and the second blocked hole section (13-2-9) are the position that is provided with L-shaped hole, cross section, an opening in the hole of its described " L " shape left, another opening upwards; The double plug section (13-3) of spontaneous heating assembly (13) also comprises 2 blocked hole sections; These 2 blocked hole sections are divided into the 3rd blocked hole section (13-3-8) and the 4th blocked hole section (13-3-9) by the difference of its residing front and back position; The 3rd blocked hole section (13-3-8) and the 4th blocked hole section (13-3-9) are the position that is provided with L-shaped hole, cross section, an opening in the hole of its described " L " shape to the right, another opening upwards.

23. water-proof type self-heating floor according to claim 12 is characterized in that: spontaneous heating assembly (13) also comprises temperature switch or resettable fuse; When between the electric heating piece (13-1) of spontaneous heating assembly (13), forming series circuit, also be in series with temperature switch or resettable fuse in this series circuit; When between the electric heating piece (13-1) of spontaneous heating assembly (13), forming parallel circuits, be in series with a corresponding temperature switch or resettable fuse on the branch road of every electric heating piece (13-1).

24. a water-proof type self-heating floor system is characterized in that: comprise water-proof type self-heating floor (1), connector (2) and electric power system; Electric power system is supply line (600);

The quantity of water-proof type self-heating floor (1) meets the requirement of laying area, each water-proof type self-heating floor (1) comprises floor main body and spontaneous heating assembly (13), the floor main body comprises upper body (11) and base plate (12), and the floor main body is bonded and fixed at by the lower surface of upper body (11) on the upper surface of base plate (12) and forms; The floor main body is provided with the connecting portion for being connected with adjacent water-proof type self-heating floor while using in the both sides, front and back; The left and right sides of described floor main body is equipped with the electrical connectors that supplies that belongs to spontaneous heating assembly (13); Upper body (11) each side be provided with 1 grafting limiting section (11-1), 2 grafting limiting sections (11-1) are divided into left grafting limiting section (11-11) and right grafting limiting section (11-12) according to the difference of position, residing left and right; 2 the grafting limiting sections in left and right (11-1) all run through the upper body (11) on floor along the short side direction on floor;

The left and right sides of base plate (12) also respectively is provided with 1 grafting support portion (12-1) corresponding with the grafting limiting section (11-1) of upper body (11); 2 grafting support portions (12-1) are divided into left grafting support portion (12-11) and right grafting support portion (12-12) according to position, residing left and right difference; Base plate (12) is all run through along the short side direction on floor in 2 grafting support portions (12-1); The upper surface of the middle part of base plate (12) is provided with upper grooves (12-3) along left and right directions;

Spontaneous heating assembly (13) is the water-proof type electric-heating assembly, comprise transmission unit, electric heating piece (13-1), be positioned at electric heating piece (13-1) two ends, left and right an end receptacle portion (13-2) and be positioned at the double plug section (13-3) of the other end at electric heating piece (13-1) two ends, left and right; The floor main body is all exposed from the outside of left and right directions or a side of above-below direction by receptacle portion (13-2) and double plug section (13-3);

Electric heating piece (13-1) is 1 to 5, and each sheet electric heating piece (13-1) be arranged in parallel each other on same plane; Every electric heating piece (13-1) is that the laminar sealing waterproof type electrothermal device of an electrode is set at the left and right end; Receptacle portion (13-2) is can mutually peg graft and fixedly be electrically connected to and the mutual waterproof link sealed with the double plug section (13-3) of the spontaneous heating assembly (13) of corresponding adjacent water-proof type self-heating floor (1) while using; Double plug section (13-3) can mutually peg graft and fixedly be electrically connected to and the mutual waterproof link sealed with the receptacle portion (13-2) of the spontaneous heating assembly (13) of corresponding adjacent water-proof type self-heating floor (1) while using;

Receptacle portion (13-2) comprises socket base (13-2-1) and 2 copper contact pins (13-2-3), socket base (13-2-1) is the integrated through injection molding part of bar shaped bulk, be included on left and right directions and be positioned at inboard Access Division (13-2-1a), also be included on left and right directions 2 the spliced eye sections (13-2-1b) that are positioned at the outside, the spliced eye of these 2 spliced eye sections (13-2-1b) is cylinder blind hole shape substantially, 2 equal openings of spliced eye are towards the outside of left and right directions, an or side of above-below direction, an or side of the fore-and-aft direction at the protrusion position in the outside of left and right directions, make the axis of 2 spliced eye sections (13-2-1b) along respective direction, also along left and right directions, or along fore-and-aft direction, or arrange along the vertical direction, 1 in 2 copper contact pins (13-2-3) is live wire copper contact pin (13-2-3a), another 1 is zero line copper contact pin (13-2-3b), each copper contact pin (13-2-3) is arranged in corresponding 1 spliced eye section (13-2-1b) of socket base (13-2-1), and along the axis setting of described spliced eye section (13-2-1b),

Double plug section (13-3) comprises Plug base (13-3-1) and 2 copper sheathings (13-3-3); Plug base (13-3-1) is the integrated through injection molding part of bar shaped bulk, is included on left and right directions and is positioned at inboard Access Division (13-3-1a), also is included on left and right directions 2 plugs (13-3-1b) that are positioned at the outside; The profile of described plug (13-3-1b) is corresponding with the shape of the spliced eye of the spliced eye section (13-2-1b) of receptacle portion (13-2), and the direction of its axis is identical with the axis direction of the spliced eye section (13-2-1b) of receptacle portion (13-2); 1 in 2 copper sheathings (13-3-3) is live wire copper sheathing (13-3-3a), and another 1 is zero line copper sheathing (13-3-3b), and each copper sheathing (13-3-3) is arranged in corresponding 1 plug (13-3-1b) of Plug base (13-3-1);

Transmission unit is comprised of water-proof type live wire and water-proof type zero line; The water-proof type live wire is connected electrically between live wire copper contact pin (13-2-3a) and live wire copper sheathing (13-3-3a), and the water-proof type zero line is connected electrically between zero line copper contact pin (13-2-3b) and zero line copper sheathing (13-3-3b); Parallel with one another or series connection between electric heating piece (13-1), and the electric heating piece group is connected electrically between water-proof type live wire and water-proof type zero line by the respective electrode of its corresponding electric heating piece (13);

The device be electrically connected to live wire copper contact pin (13-2-3a) of spontaneous heating assembly (13) forms socket side the first electrical connection module (13a1); Described socket side the first electrical connection module (13a1) refers to all devices that directly are electrically connected to the afterbody of live wire copper contact pin (13-2-3a), perhaps receptacle portion (13-2) also comprises the first bronze medal member (13-2-3c), and the afterbody of live wire copper contact pin (13-2-3a) is electrically connected to an end of the first bronze medal member (13-2-3c), thereby socket side the first electrical connection module (13a1) refers to all devices that directly are electrically connected to the other end of the first bronze medal member (13-2-3c);

The device be electrically connected to zero line copper contact pin (13-2-3b) of spontaneous heating assembly (13) forms socket side the second electrical connection module (13a2); Described socket side the second electrical connection module (13a2) refers to all devices that directly are electrically connected to the afterbody of zero line copper contact pin (13-2-3b), or receptacle portion (13-2) also comprises the second bronze medal member (13-2-3d), and an end of the second bronze medal member (13-2-3d) on the afterbody of zero line copper contact pin (13-2-3b) is electrically connected to, thereby socket side the second electrical connection module (13a2) refers to all devices that directly are electrically connected to the other end of the second bronze medal member (13-2-3d);

The sidepiece position that is positioned at socket base (13-2-1) side of whole and all the other devices of the corresponding device of above-mentioned 2 socket side electrical connection modules is jointly as inserts, when socket base (13-2-1) injection moulding of receptacle portion (13-2) and this socket base (13-2-1) form one, and the afterbody of each copper contact pin (13-2-3) is covered by the plastic body of socket base (13-2-1), the head of each copper contact pin (13-2-3) is arranged in the hole section that connects of corresponding spliced eye section (13-2-1b), and is coaxially set with this spliced eye section (13-2-1b);

The device be electrically connected to live wire copper sheathing (13-3-3a) of spontaneous heating assembly (13) forms plug side the first electrical connection module (13b1); Described plug side the first electrical connection module (13b1) refers to all devices that directly are electrically connected to the afterbody of live wire copper sheathing (13-3-3a), perhaps double plug section (13-3) also comprises the 3rd bronze medal member (13-3-3c), and the afterbody of live wire copper sheathing (13-3-3a) is electrically connected to an end of the 3rd bronze medal member (13-3-3c), thereby plug side the first electrical connection module (13b1) refers to all devices that directly are electrically connected to the other end of the 3rd bronze medal member (13-3-3c);

The device be electrically connected to zero line copper sheathing (13-3-3b) of spontaneous heating assembly (13) forms plug side the second electrical connection module (13b2); Described plug side the second electrical connection module (13b2) refers to all devices that directly are electrically connected to the afterbody of zero line copper sheathing (13-3-3b), perhaps double plug section (13-3) also comprises the 4th bronze medal member (13-3-3d), and the afterbody of zero line copper sheathing (13-3-3b) is electrically connected to an end of the 4th bronze medal member (13-3-3d), thereby plug side the second electrical connection module (13b2) refers to all devices that directly are electrically connected to the other end of the 4th bronze medal member (13-3-3d);

The sidepiece position that is positioned at Plug base (13-3-1) side of whole and all the other devices of the corresponding device of above-mentioned 2 plug side electrical connection modules is jointly as inserts, when Plug base (13-3-1) injection moulding of double plug section (13-3) and this Plug base (13-3-1) form one, and the afterbody of each copper sheathing (13-3-3) is covered by the plastic body of corresponding plug (13-3-1b) of Plug base (13-3-1) and from the outside of left and right directions, an or side of above-below direction, or a side of the fore-and-aft direction at the protrusion position in the outside of left and right directions communicates with the external world,

The electric heating piece (13-1) of spontaneous heating assembly (13) is arranged in the upper grooves (12-3) of base plate (12); Receptacle portion (13-2) is limited in a corresponding grafting limiting section (11-1) of upper body (11) by the upper end of the Access Division (13-2-1a) of its socket base (13-2-1), and the lower end of the Access Division (13-2-1a) of socket base (13-2-1) is limited in a corresponding grafting support portion (12-1) of base plate (12); Double plug section (13-3) is limited in a corresponding grafting limiting section (11-1) of upper body (11) by the upper end of the Access Division (13-3-1a) of its Plug base (13-3-1), and the lower end of the Access Division (13-3-1a) of Plug base (13-3-1) is limited in a corresponding grafting support portion (12-1) of base plate (12);

When connector (2) is use, adjacent two water-proof type self-heating floors (1) are locked to the parts that connect;

Supply line (600) has 1, and supply line (600) comprises the power supply base that a plurality of shape and structures are identical (6) and 2 wires; 2 wires are divided into the first electric wire (71) and the second electric wire (72); Every 2 power supply bases (6) are 1 group; Each power supply base (6) includes pedestal (61) and power supply plug pin (62); Pedestal (61) is the integrated through injection molding part, and power supply plug pin (62) is fixed in pedestal (61); The first electric wire (71) is electrically connected with the power supply plug pin (62) of respectively organizing power supply base (6) that each is the odd number setting successively, and the second electric wire (72) is electrically connected with the power supply plug pin (62) of respectively organizing power supply base (6) that each is the even numbers setting successively; The first electric wire (71) is in use as the circuit that electrode is electrically connected to in the both positive and negative polarity of DC power supply, and airtight being fixedly connected with between the appearance of pedestal (61) and the extending area of corresponding the first electric wire (71); The circuit that the second electric wire (72) is electrically connected to as another electrode in the both positive and negative polarity with DC power supply in use; And airtight being fixedly connected with between the appearance of pedestal (61) and the extending area of corresponding the second electric wire (72); Described the first electric wire (71) and the second electric wire (72) are the electric wire formed at copper wire twisted wire outer cladding plastic skin.

25. water-proof type self-heating floor system according to claim 24 is characterized in that: the both sides, front and back of upper body (11) are the Access Division (11-2) that bottom forms through cut; 2 Access Divisions (11-2) are divided into front Access Division (11-21) and rear Access Division (11-22) according to the difference of residing front and back position; 2 Access Divisions, front and back (11-2) are symmetrical arranged with respect to the vertical guide of the central straight line through upper body (11) long side direction, and all along the long side direction on floor, run through the upper body (11) on floor; Each Access Division (11-2) comprises all the lower protuberance (11-2-1) that stretches along the left and right directions of upper body (11) and contacts limiting section (11-2-2); Lower protuberance (11-2-1) with contact limiting section (11-2-2) and set gradually according to order from outside to inside on fore-and-aft direction;

The both sides, front and back of base plate (12) are the support portion (12-2) that top forms through cut; 2 support portions (12-2) are divided into front support section (12-21) and rear support section (12-22) according to the difference of residing front and back position; 2 support portions, front and back (12-2) are symmetrical arranged with respect to the vertical guide of the central straight line through upper body (11) long side direction, corresponding top of side before and after it that each support portion (12-2) is base plate (12) is provided with the position of gap, this gap all runs through the base plate (12) on floor along the long side direction on floor, and each support portion (12-2) is corresponding with the corresponding Access Division (11-2) of upper body (11) respectively, jointly form the position of the buckling groove as connecting portion that lays respectively at the both sides, front and back of floor main body;

Connector (2) comprises the first connector (21); The first connector (21) is symmetrical extrusion molding integral piece, comprises the connecting portion (21-1) that is positioned at middle part and the flexible clamping section (21-2) that is positioned at connecting portion (21-1) left and right sides; Before and after being positioned at of the shape of the exterior contour of the free state of the flexible clamping section (21-2) of the first connector (21) and water-proof type self-heating floor (1), the shape at the buckling groove position of both sides is corresponding, and between the adjacent buckling groove position of the shape of the exterior contour of the first connector (21) and two water-proof type self-heating floors (1) of the adjacent laying in front and back, the shape in formed space is corresponding; During use, two water-proof type self-heating floors (1) locking that the first connector (21) can be adjacent by front and back links together.

26. water-proof type self-heating floor system according to claim 24 is characterized in that: described base plate (12) also comprises 2 wiring ducts (12-4); The upper grooves (12-3) of base plate (12) comprises top forward recess (12-3-1) and the top rearward recess (12-3-2) that connects minute front and back setting of base plate (12) along the floor long side direction; Article 2, wiring duct (12-4) is divided into front wiring duct (12-4-1) and rear wiring duct (12-4-2) according to the difference of residing front and back position; Front wiring duct (12-4-1) is arranged in top forward recess (12-3-1), and connects base plate (12) along the floor long side direction; Rear wiring duct (12-4-2) is arranged in top rearward recess (12-3-2), and connects base plate (12) along the floor long side direction;

The water-proof type live wire of the transmission unit of spontaneous heating assembly (13) and water-proof type zero line are electric wire (13-4), 2 wires (13-4) are the conductor wire that single copper core outside is coated with the ambroin skin, and 2 wires (13-4) are separately positioned in 2 wiring ducts (12-4) of base plate (12); In 2 wires (13-4), that be used as the water-proof type live wire is the first electric wire (13-41), and as the water-proof type zero line is the second electric wire (13-42);

The receptacle portion (13-2) of spontaneous heating assembly (13) is positioned at the left side of electric heating piece (13-1), and double plug section (13-3) is positioned at the right side of electric heating piece (13-1); The electric heating piece (13-1) of spontaneous heating assembly (13) has 2, be divided into front side electric heating piece (13-11) and rear side electric heating piece (13-12) according to the difference of residing front and back position, and front side electric heating piece (13-11) and rear side electric heating piece (13-12) are connected electrically between water-proof type live wire and water-proof type zero line by parallel way; Each electric heating piece (13-1) includes 1 square strip-shaped conductive heating layer (13-1-1), 2 plate electrode copper sheets (13-1-2), plays the epoxy resin that contains glass fibre outer (13-1-3) of insulation isolation and protection effect; Described electrode copper sheet (13-1-2) is plane " L " shape copper sheet, by the section of overlaying according to the fore-and-aft direction setting, with linkage section according to the left and right directions setting, is connected and forms; 2 plate electrode copper sheets (13-1-2) overlay on the left end of conductive heating layer and right-hand member and corresponding to left end electrode copper sheet and right-hand member electrode copper sheet from top by its section of overlaying respectively, and the linkage section of each electrode copper sheet (13-1-2) is positioned at the outside of left and right directions; Epoxy resin outer (13-1-3) is whole cover be enclosed in conductive heating layer (13-1-1) and electrode copper sheet (13-1-2) reach up and down surrounding, thereby the corresponding part of the linkage section with electrode copper sheet (13-1-2) of epoxy resin outer (13-1-3) becomes the linkage section of epoxy resin skin (13-1-3), the linkage section of this epoxy resin outer (13-1-3) and the linkage section of electrode copper sheet (13-1-2) form the linkage section (13-1a) of electric heating piece (13-1); In the linkage section (13-1a) of electric heating piece (13-1) without conductive heating layer (13-1-1), and by machining thereon surface a breach of the part of the linkage section expose electrode copper sheet (13-1-2) is set; Two linkage sections in the left and right of front side electric heating piece (13-11) (13-1a) are positioned at rear side, and two linkage sections in the left and right of rear side electric heating piece (13-12) (13-1a) are positioned at front side;

The live wire copper contact pin (13-2-3a) of the receptacle portion (13-2) of spontaneous heating assembly (13) is positioned at the left of front side electric heating piece (13-11), and zero line copper contact pin (13-2-3b) is positioned at the left of rear side electric heating piece (13-12); The live wire copper sheathing (13-3-3a) of double plug section (13-3) is positioned at the right-hand of front side electric heating piece (13-11), and zero line copper sheathing (13-3-3b) is positioned at the right-hand of rear side electric heating piece (13-12);

The receptacle portion (13-2) of spontaneous heating assembly (13) also comprises live wire end conductive copper sheet (13-2-2), between the upper surface of live wire end conductive copper sheet (13-2-2) across the left side linkage section (13-1a) of the upper surface of the left side linkage section (13-1a) at front side electric heating piece (13-11) and rear side electric heating piece (13-12), the front portion of live wire end conductive copper sheet (13-2-2) is positioned at the top at the position of upwards exposing of linkage section of the left end electrode copper sheet (13-1-2) of front side electric heating piece (13-11), by copper rivet from bottom to top successively through the front portion of Nei front side, the position electric heating piece (13-11) upwards exposed of the linkage section that comprises left end electrode copper sheet (13-1-2) and live wire end conductive copper sheet (13-2-2), again both are anchored at together and are electrically connected to, the front end in the place ahead of the left side linkage section (13-1a) that is positioned at front side electric heating piece (13-11) of live wire end conductive copper sheet (13-2-2) welds together and is electrically connected to the afterbody of live wire copper contact pin (13-2-3a), and the tail end of live wire copper contact pin (13-2-3a) welds together and is electrically connected to the left end of first electric wire (13-41) of transmission unit, or the front end in the place ahead of the left side linkage section (13-1a) that is positioned at front side electric heating piece (13-11) of live wire end conductive copper sheet (13-2-2) is electrically connected to the first bronze medal member (13-2-3c), the first bronze medal member (13-2-3c) is electrically connected to the afterbody of live wire copper contact pin (13-2-3a) again, and first bronze medal member (13-2-3c) weld together and be electrically connected to the left end of first electric wire (13-41) of transmission unit, the rear end of live wire end conductive copper sheet (13-2-2) is positioned at the top at the position of upwards exposing of linkage section of the left end electrode copper sheet (13-1-2) of rear side electric heating piece (13-12), by copper rivet from bottom to top successively through the rear end of the rear side electric heating piece (13-12) at the position of upwards exposing of the linkage section that comprises left end electrode copper sheet (13-1-2) and live wire end conductive copper sheet (13-2-2), again both are anchored at together and are electrically connected to, in said structure, related appropriate section has formed socket side the first electrical connection module (13a1),

The tail end in right side of the zero line copper contact pin (13-2-3b) of receptacle portion (13-2) welds together and is electrically connected to the left end of the second electric wire (13-42), or the tail end in right side of zero line copper contact pin (13-2-3b) is electrically connected to the second bronze medal member (13-2-3d), the second bronze medal member (13-2-3d) welds together and is electrically connected to the left end of the second electric wire (13-42) again; In said structure, related appropriate section has formed socket side the second electrical connection module (13a2);

Above-mentioned socket side the first electrical connection module (13a1) and socket side the second electrical connection module (13a2) minute front and back are as the front and back inserts, when socket base (13-2-1) injection moulding of receptacle portion (13-2) and this socket base (13-2-1) form one, and the afterbody of live wire copper contact pin (13-2-3a), the afterbody of zero line copper contact pin (13-2-3b), live wire end conductive copper sheet (13-2-2), the left side of front side electric heating piece (13-11), the left side of rear side electric heating piece (13-12), the left end of the left end of the first electric wire (13-41) and the second electric wire (13-42) all is insulated and is sealed in socket base (13-2-1), and the head of live wire copper contact pin (13-2-3a) is arranged in the spliced eye of front side spliced eye section (13-2-1b1), and be coaxially set with front side spliced eye section (13-2-1b1), the head of zero line copper contact pin (13-2-3b) is arranged in the spliced eye of rear side spliced eye section (13-2-1b2), and is coaxially set with rear side spliced eye section (13-2-1b2),

The tail end in left side of the live wire copper sheathing (13-3-3a) of double plug section (13-3) welds together and is electrically connected to the right-hand member of the first electric wire (13-41), or the tail end in left side of live wire copper sheathing (13-3-3a) is electrically connected to the 3rd bronze medal member (13-3-3c), the 3rd bronze medal member (13-3-3c) welds together and is electrically connected to the right-hand member of the first electric wire (13-41) again; In said structure, related appropriate section has formed plug side the first electrical connection module (13b1);

Double plug section (13-3) also comprises zero line side conductive copper sheet (13-3-2); Between the upper surface of the zero line side conductive copper sheet (13-3-2) of double plug section (13-3) across the right side linkage section (13-1a) of the upper surface of the right side linkage section (13-1a) at front side electric heating piece (13-11) and rear side electric heating piece (13-12); The front end of zero line side conductive copper sheet (13-3-2) is positioned at the top at the position of upwards exposing of linkage section of the right-hand member electrode copper sheet (13-1-2) of front side electric heating piece (13-11), by copper rivet from bottom to top successively through the front end of Nei front side, the position electric heating piece (13-11) upwards exposed of the linkage section that comprises right-hand member electrode copper sheet (13-1-2) and zero line side conductive copper sheet (13-3-2), again both are anchored at together and are electrically connected to; The rear portion of zero line side conductive copper sheet (13-3-2) is positioned at the top at the position of upwards exposing of linkage section of the right-hand member electrode copper sheet (13-1-2) of rear side electric heating piece (13-12), by copper rivet from bottom to top successively through the rear portion of the rear side electric heating piece (13-12) at the position of upwards exposing of the linkage section that comprises right-hand member electrode copper sheet (13-1-2) and zero line side conductive copper sheet (13-3-2) and both anchorings are electrically connected to; the rear end at the rear of the right side linkage section (13-1a) that is positioned at rear side electric heating piece (13-12) of zero line side conductive copper sheet (13-3-2) welds together and is electrically connected to the afterbody of zero line copper sheathing (13-3-3b), and the tail end of zero line copper sheathing (13-3-3b) welds together and is electrically connected to the right-hand member of second electric wire (13-42) of transmission unit, the bending of prolongation to the right that perhaps zero line copper sheathing (13-3-3b) is set up by the rear end of zero line side conductive copper sheet (13-3-2) forms, and the rear end of zero line side conductive copper sheet (13-3-2) also welds together and is electrically connected to the right-hand member of second electric wire (13-42) of transmission unit, or left section of the prolongation to the right set up of the rear end of zero line side conductive copper sheet (13-3-2) is as the 4th bronze medal member (13-3-3d), this right section bending of prolongation to the right forms zero line copper sheathing (13-3-3b), and the rear end of zero line side conductive copper sheet (13-3-2) also welds together and is electrically connected to the right-hand member of second electric wire (13-42) of transmission unit, the appropriate section reached described in said structure has formed plug side the second electrical connection module (13b2),

Before and after plug side the first electrical connection module (13b1) and plug side the second electrical connection module (13b2) minute as the front and back inserts when Plug base (13-3-1) injection moulding of double plug section (13-3) with this Plug base (13-3-1) formation one, and the afterbody of live wire copper sheathing (13-3-3a), the afterbody of zero line copper sheathing (13-3-3b), zero line side conductive copper sheet (13-3-2), the right side of front side electric heating piece (13-11), the right side of rear side electric heating piece (13-12), the right-hand member of the right-hand member of the first electric wire (13-41) and the second electric wire (13-42) all is sealed in Plug base (13-3-1), and the head of live wire copper sheathing (13-3-3a) is arranged in front side plug (13-3-1b1), is coaxially set with front side plug (13-3-1b1) and communicates with the external world towards direction from front side plug (13-3-1b1), the head of zero line copper sheathing (13-3-3b) is arranged in rear side plug (13-3-1b2), is coaxially set with rear side plug (13-3-1b2) and communicates with the external world towards direction from rear side plug (13-3-1b2),

The front side electric heating piece (13-11) of spontaneous heating assembly (13) be arranged in the top forward recess (12-3-1) that position between receptacle portion (13-2) and double plug section (13-3) is arranged on base plate (12), the position be arranged between receptacle portion (13-2) and double plug section (13-3) of the rear side electric heating piece (13-12) of spontaneous heating assembly (13) is arranged on top rearward recess (12-3-2).

27. water-proof type self-heating floor system according to claim 24 is characterized in that: the upper grooves (12-3) of base plate (12) comprises top forward recess (12-3-1) and the top rearward recess (12-3-2) that connects minute front and back setting of base plate (12) along the floor long side direction;

The receptacle portion (13-2) of spontaneous heating assembly (13) is positioned at the left side of electric heating piece (13-1), and double plug section (13-3) is positioned at the right side of electric heating piece (13-1); The electric heating piece (13-1) of spontaneous heating assembly (13) has 2, be divided into front side electric heating piece (13-11) and rear side electric heating piece (13-12) according to the difference of residing front and back position, and front side electric heating piece (13-11) and rear side electric heating piece (13-12) are connected electrically between water-proof type live wire and water-proof type zero line by parallel way; Each electric heating piece (13-1) includes 1 square strip-shaped conductive heating layer (13-1-1), 2 plate electrode copper sheets (13-1-2), plays the epoxy resin that contains glass fibre outer (13-1-3) of insulation isolation and protection effect; Described electrode copper sheet (13-1-2) is plane " L " shape copper sheet, by the linkage section of the section of overlaying of fore-and-aft direction and left and right directions, is connected and is formed; 2 plate electrode copper sheets (13-1-2) overlay on the left end of conductive heating layer and right-hand member and corresponding to left end electrode copper sheet and right-hand member electrode copper sheet from top by its section of overlaying respectively, and the linkage section of each electrode copper sheet (13-1-2) is positioned at the outside of left and right directions; What outer (13-1-3) integral body of epoxy resin covered conductive heating layer (13-1-1) and electrode copper sheet (13-1-2) reaches surrounding up and down, thereby the corresponding part of the linkage section with electrode copper sheet (13-1-2) of epoxy resin outer (13-1-3) becomes the linkage section of epoxy resin skin (13-1-3), the linkage section of this epoxy resin outer (13-1-3) and the linkage section of electrode copper sheet (13-1-2) form the linkage section (13-1a) of electric heating piece (13-1); In the linkage section (13-1a) of electric heating piece (13-1) without conductive heating layer (13-1-1), and by machining thereon surface a breach of the part of the linkage section expose electrode copper sheet (13-1-2) is set; Two linkage sections in the left and right of front side electric heating piece (13-11) (13-1a) are positioned at rear side, and two linkage sections in the left and right of rear side electric heating piece (13-12) (13-1a) are positioned at front side;

The live wire copper contact pin (13-2-3a) of the receptacle portion (13-2) of spontaneous heating assembly (13) is positioned at the left of front side electric heating piece (13-11), and zero line copper contact pin (13-2-3b) is positioned at the left of rear side electric heating piece (13-12); The live wire copper sheathing (13-3-3a) of double plug section (13-3) is positioned at the right-hand of front side electric heating piece (13-11), and zero line copper sheathing (13-3-3b) is positioned at the right-hand of rear side electric heating piece (13-12);

The water-proof type live wire of the transmission unit of spontaneous heating assembly (13) and water-proof type zero line include 2 copper sheets for conduction (13-6), aluminium foil (13-5) and polyvinyl chloride thin plate (13-8); Each conduction is fixed on the lower surface of electric heating piece (13-1) from below with copper sheet (13-6), and is coated with conducting resinl on the lower surface of each conduction with copper sheet (13-6); The shape of aluminium foil (13-5) is identical with the shape of the strip-shaped conductive heating layer (13-1-1) of electric heating piece (13-1), be positioned at the below of electric heating piece (13-1), and shelter from strip-shaped conductive heating layer (13-1-1) from below, and the upper surface of the left and right end of aluminium foil (13-5) is electrically connected to copper sheet (13-6) with corresponding conduction; Polyvinyl chloride thin plate (13-8) covers from below and is bonded and fixed at aluminium foil (13-5) and is positioned on the lower surface of electric heating piece (13-1) of aluminium foil (13-5) surrounding by PUR is airtight;

The aluminium foil of above-mentioned water-proof type live wire (13-5) is live wire aluminium foil (13-51), 2 copper sheets for conduction (13-6) of above-mentioned water-proof type live wire are the live wire copper sheet, and the live wire copper sheet is divided into left side live wire copper sheet and right side live wire copper sheet according to the difference of position, residing left and right, the middle part of left side live wire copper sheet (13-6) is provided with extension left, the tail end of live wire copper contact pin (13-2-3a) is welded on the extension left of left side live wire copper sheet (13-6), or right section of the extension left of left side live wire copper sheet (13-6) as the first bronze medal member (13-2-3c), this left the left section tail end with live wire copper contact pin (13-2-3a) of extension weld together, thereby make live wire copper contact pin (13-2-3a) be electrically connected to left side live wire copper sheet (13-6), the middle part of right side live wire copper sheet (13-6) is provided with extension to the right, the tail end of live wire copper sheathing (13-3-3a) is welded on the extension to the right of right side live wire copper sheet and makes live wire copper sheathing (13-3-3a) be electrically connected to right side live wire copper sheet (13-6), perhaps live wire copper sheathing (13-3-3a) is made in the direct bending in extension to the right of right side live wire copper sheet (13-6), or left section of the extension to the right of right side live wire copper sheet (13-6) is as the 3rd bronze medal member (13-3-3c), live wire copper sheathing (13-3-3a) is made in this right section bending of extension to the right,

The aluminium foil of above-mentioned water-proof type zero line (13-5) is zero line aluminium foil (13-52), 2 copper sheets for conduction (13-6) of above-mentioned water-proof type zero line are the zero line copper sheet, and the zero line copper sheet is divided into left side zero line copper sheet and right side zero line copper sheet according to the difference of position, residing left and right, the middle part of left side zero line copper sheet (13-6) is provided with extension left, the tail end of zero line copper contact pin (13-2-3b) is welded on the extension left of left side zero line copper sheet (13-6), or right section of the extension left of left side zero line copper sheet (13-6) as the second bronze medal member (13-2-3d), this left the left section tail end with zero line copper contact pin (13-2-3b) of extension weld together, thereby make zero line copper contact pin (13-2-3b) be electrically connected to left side zero line copper sheet, the middle part of right side zero line copper sheet (13-6) is provided with extension to the right, the tail end of zero line copper sheathing (13-3-3b) is welded on the extension to the right of right side zero line copper sheet (13-6) and makes zero line copper sheathing (13-3-3b) be electrically connected to right side zero line copper sheet (13-6), perhaps zero line copper sheathing (13-3-3b) is made in the direct bending in extension to the right of right side zero line copper sheet (13-6), or left section of the extension to the right of right side zero line copper sheet (13-6) is as the 4th bronze medal member (13-3-3d), zero line copper sheathing (13-3-3b) is made in this right section bending of extension to the right,

The receptacle portion (13-2) of spontaneous heating assembly (13) also comprises live wire end conductive copper sheet (13-2-2), between the upper surface of live wire end conductive copper sheet (13-2-2) across the left side linkage section (13-1a) of the upper surface of the left side linkage section (13-1a) at front side electric heating piece (13-11) and rear side electric heating piece (13-12), the front end of live wire end conductive copper sheet (13-2-2) is positioned at the top at the position of upwards exposing of linkage section of the left end electrode copper sheet (13-1-2) of front side electric heating piece (13-11), the rear end of the left side live wire copper sheet of water-proof type live wire is positioned at the below of linkage section of the left end electrode copper sheet (13-1-2) of front side electric heating piece (13-11), pass successively from bottom to top the left side live wire copper sheet of water-proof type live wire by copper rivet, comprise Nei front side, the position electric heating piece (13-11) upwards exposed of linkage section of left end electrode copper sheet (13-1-2) and the front end of live wire end conductive copper sheet (13-2-2), again the three is anchored at together and is electrically connected to, the rear end of live wire end conductive copper sheet (13-2-2) is positioned at the top at the position of upwards exposing of linkage section of the left end electrode copper sheet (13-1-2) of rear side electric heating piece (13-12), by copper rivet from bottom to top successively through the rear end of the rear side electric heating piece (13-12) at the position of upwards exposing of the linkage section that comprises left end electrode copper sheet (13-1-2) and live wire end conductive copper sheet (13-2-2), again both are anchored at together and are electrically connected to, said structure has formed socket side the first electrical connection module (13a1) together with live wire copper contact pin (13-2-3a) or with related appropriate section in the electrical connection of the left side live wire copper sheet (13-6) of the live wire copper contact pin (13-2-3a) of the first bronze medal member (13-2-3c) and water-proof type live wire and live wire aluminium foil (13-51),

Zero line copper contact pin (13-2-3b) or formed socket side the second electrical connection module (13a2) with related appropriate section in the electrical connection of the left side zero line copper sheet (13-6) of the zero line copper contact pin (13-2-3b) of the second bronze medal member (13-2-3d) and water-proof type zero line and zero line aluminium foil (13-52);

Before and after above-mentioned socket side the first electrical connection module (13a1) and socket side the second electrical connection module (13a2) minute as the front and back inserts when socket base (13-2-1) injection moulding of receptacle portion (13-2) with this socket base (13-2-1) formation one, and the afterbody of live wire copper contact pin (13-2-3a), the afterbody of zero line copper contact pin (13-2-3b), live wire end conductive copper sheet (13-2-2), the left side of front side electric heating piece (13-11), the left side of rear side electric heating piece (13-12), the left-hand portion of the left side live wire copper sheet (13-6) of water-proof type live wire and the left-hand portion of live wire aluminium foil (13-51) and corresponding polyvinyl chloride thin plate (13-8), the left-hand portion of the left side zero line copper sheet (13-6) of water-proof type zero line and the left-hand portion of zero line aluminium foil (13-52) and corresponding polyvinyl chloride thin plate (13-8) all is insulated and is sealed in socket base (13-2-1), the head of live wire copper contact pin (13-2-3a) is arranged in the spliced eye of front side spliced eye section (13-2-1b1), and be coaxially set with front side spliced eye section (13-2-1b1), the head of zero line copper contact pin (13-2-3b) is arranged in the spliced eye of rear side spliced eye section (13-2-1b2), and be coaxially set with rear side spliced eye section (13-2-1b2),

The live wire copper sheathing (13-3-3a) of the double plug section (13-3) of spontaneous heating assembly (13) or formed plug side the first electrical connection module (13b1) with related appropriate section in the electrical connection of the right side live wire copper sheet (13-6) of the live wire copper sheathing (13-3-3a) of the 3rd bronze medal member (13-3-3c) and water-proof type live wire and live wire aluminium foil (13-51);

Double plug section (13-3) also comprises zero line side conductive copper sheet (13-3-2), between the upper surface of zero line side conductive copper sheet (13-3-2) across the right side linkage section (13-1a) of the upper surface of the right side linkage section (13-1a) at front side electric heating piece (13-11) and rear side electric heating piece (13-12), the front end of zero line side conductive copper sheet (13-3-2) is positioned at the top at the position of upwards exposing of linkage section of the right-hand member electrode copper sheet (13-1-2) of front side electric heating piece (13-11), by copper rivet from bottom to top successively through the front end of Nei front side, the position electric heating piece (13-11) upwards exposed of the linkage section that comprises right-hand member electrode copper sheet (13-1-2) and zero line side conductive copper sheet (13-3-2), again both are anchored at together and are electrically connected to, the rear end of zero line side conductive copper sheet (13-3-2) is positioned at the top at the position of upwards exposing of the linkage section that is positioned at right-hand member electrode copper sheet (13-1-2) of rear side electric heating piece (13-12), the rear end of the right side zero line copper sheet of water-proof type zero line is positioned at the below of linkage section of the right-hand member electrode copper sheet (13-1-2) of rear side electric heating piece (13-12), pass successively from bottom to top the right side live wire copper sheet of water-proof type zero line by copper rivet, comprise the rear side electric heating piece (13-12) at the position of upwards exposing of linkage section of right-hand member electrode copper sheet (13-1-2) and the front end of zero line side conductive copper sheet (13-3-2), again the three is anchored at together and is electrically connected to, said structure has formed plug side the second electrical connection module (13b2) together with zero line copper sheathing (13-3-3b) or with related appropriate section in the electrical connection of the right side zero line copper sheet (13-6) of the zero line copper sheathing (13-3-3b) of the 4th bronze medal member (13-3-3d) and water-proof type zero line and zero line aluminium foil (13-52),

Before and after above-mentioned plug side the first electrical connection module (13b1) and plug side the second electrical connection module (13b2) minute as the front and back inserts when Plug base (13-3-1) injection moulding of double plug section (13-3) with this Plug base (13-3-1) formation one, and live wire copper sheathing (13-3-3a) afterbody, the afterbody of zero line copper sheathing (13-3-3b), zero line side conductive copper sheet (13-3-2), the right side of front side electric heating piece (13-11), the right side of rear side electric heating piece (13-12), the position, right side of the right side zero line copper sheet (13-6) of water-proof type zero line and the position, right side of zero line aluminium foil (13-52) and corresponding polyvinyl chloride thin plate (13-8), the position, right side of the right side live wire copper sheet (13-6) of water-proof type live wire and the position, right side of live wire aluminium foil (13-51) and corresponding polyvinyl chloride thin plate (13-8) all is sealed in Plug base (13-3-1), and the head of live wire copper sheathing (13-3-3a) is arranged in front side plug (13-3-1b1), is coaxially set with front side plug (13-3-1b1) and communicates with the external world towards direction from front side plug (13-3-1b1), the head of zero line copper sheathing (13-3-3b) is arranged in rear side plug (13-3-1b2), is coaxially set with rear side plug (13-3-1b2) and communicates with the external world towards direction from rear side plug (13-3-1b2),

The front side electric heating piece (13-11) of spontaneous heating assembly (13) be arranged in the top forward recess (12-3-1) that position between receptacle portion (13-2) and double plug section (13-3) is arranged on base plate (12), the position be arranged between receptacle portion (13-2) and double plug section (13-3) of the rear side electric heating piece (13-12) of spontaneous heating assembly (13) is arranged on top rearward recess (12-3-2).

28. water-proof type self-heating floor system according to claim 24 is characterized in that: the upper grooves (12-3) of base plate (12) comprises top forward recess (12-3-1) and the top rearward recess (12-3-2) that connects minute front and back setting of base plate (12) along the floor long side direction;

The receptacle portion (13-2) of spontaneous heating assembly (13) is positioned at the left side of electric heating piece (13-1), and double plug section (13-3) is positioned at the right side of electric heating piece (13-1); The electric heating piece (13-1) of spontaneous heating assembly (13) has 2, be divided into front side electric heating piece (13-11) and rear side electric heating piece (13-12) according to the difference of residing front and back position, and front side electric heating piece (13-11) and rear side electric heating piece (13-12) are connected electrically between water-proof type live wire and water-proof type zero line according to series system; Each electric heating piece (13-1) includes 1 square strip-shaped conductive heating layer (13-1-1), 2 plate electrode copper sheets (13-1-2), plays the epoxy resin that contains glass fibre outer (13-1-3) of insulation isolation and protection effect; Described electrode copper sheet (13-1-2) is plane " L " shape copper sheet, by the linkage section of the section of overlaying of fore-and-aft direction and left and right directions, is connected and is formed; 2 plate electrode copper sheets (13-1-2) overlay on the left end of conductive heating layer and right-hand member and corresponding to left end electrode copper sheet and right-hand member electrode copper sheet from top by its section of overlaying respectively, and the linkage section of each electrode copper sheet (13-1-2) is positioned at the outside of left and right directions; What outer (13-1-3) integral body of epoxy resin covered conductive heating layer (13-1-1) and electrode copper sheet (13-1-2) reaches surrounding up and down, thereby the corresponding part of the linkage section with electrode copper sheet (13-1-2) of epoxy resin outer (13-1-3) becomes the linkage section of epoxy resin skin (13-1-3), the linkage section of this epoxy resin outer (13-1-3) and the linkage section of electrode copper sheet (13-1-2) form the linkage section (13-1a) of electric heating piece (13-1); In the linkage section (13-1a) of electric heating piece (13-1) without conductive heating layer (13-1-1), and by machining, surface arranges a breach of the part of the linkage section that exposes electrode copper sheet (13-1-2) thereon, then this breach is arranged to solder joint (13-1-5); Two linkage sections in the left and right of front side electric heating piece (13-11) (13-1a) are positioned at rear side, and two linkage sections in the left and right of rear side electric heating piece (13-12) (13-1a) are positioned at front side;

The live wire copper contact pin (13-2-3a) of the receptacle portion (13-2) of spontaneous heating assembly (13) is positioned at the left of front side electric heating piece (13-11), and zero line copper contact pin (13-2-3b) is positioned at the left of rear side electric heating piece (13-12); The live wire copper sheathing (13-3-3a) of double plug section (13-3) is positioned at the right-hand of front side electric heating piece (13-11), and zero line copper sheathing (13-3-3b) is positioned at the right-hand of rear side electric heating piece (13-12);

The water-proof type live wire of the transmission unit of spontaneous heating assembly (13) and water-proof type zero line include polyvinyl chloride thin plate (13-8) and are called the copper strips for conduction of conducting copper belt (13-9); Each conducting copper belt (13-9) is bonded and fixed on the lower surface of corresponding a slice electric heating piece (13-1) along the left and right directions of electric heating piece (13-1), and polyvinyl chloride thin plate (13-8) covers from below and is bonded and fixed at conducting copper belt (13-9) and is positioned on the lower surface of electric heating piece (13-1) of conducting copper belt (13-9) surrounding by PUR is airtight; The conducting copper belt of described water-proof type live wire (13-9) is live wire copper strips (13-91); The conducting copper belt of water-proof type zero line (13-9) is zero line copper strips (13-92);

The tail end in right side of the live wire copper contact pin (13-2-3a) of the receptacle portion (13-2) of spontaneous heating assembly (13) is welded on the extension left of live wire copper strips (13-91) of water-proof type live wire and mutually is electrically connected to, or the extension left of live wire copper strips (13-91) is simultaneously as the first bronze medal member (13-2-3c); In this structure, related appropriate section has formed socket side the first electrical connection module (13a1);

The tail end in right side of the zero line copper contact pin (13-2-3b) of receptacle portion (13-2) is welded on the extension left of zero line copper strips (13-92) of water-proof type zero line and mutually is electrically connected to, or the extension left of zero line copper strips (13-92) is simultaneously as the second bronze medal member (13-2-3d); In this structure, related appropriate section has formed socket side the second electrical connection module (13a2);

Spontaneous heating assembly (13) also comprises series connection device (13-1-6), and this series connection device (13-1-6) is copper conductor, bar shaped copper sheet, temperature detect switch (TDS) or resettable fuse; A corresponding end of described series connection device (13-1-6) is welded and fixed with the scolder of the solder joint (13-1-5) at the linkage section place of the left end electrode copper sheet (13-1-2) of front side electric heating piece (13-11) and makes the left end electrode copper sheet (13-1-2) of front side electric heating piece (13-11) be electrically connected to a corresponding end of the device of connecting (13-1-6); The other end of series connection device (13-1-6) is welded and fixed with the scolder of the solder joint (13-1-5) at the linkage section place of the left end electrode copper sheet (13-1-2) of rear side electric heating piece (13-12) and makes the left end electrode copper sheet (13-1-2) of rear side electric heating piece (13-12) be electrically connected to the other end of the device of connecting (13-1-6); This structure has formed socket side the 3rd electrical connection module (13a3);

Socket side the first electrical connection module (13a1), the second electrical connection module (13a2) and the 3rd electrical connection module form the socket side electrical connection module jointly, this electrical connection module when socket base (13-2-1) injection moulding of receptacle portion (13-2) and this socket base (13-2-1) form one, and the afterbody of live wire copper contact pin (13-2-3a), the afterbody of zero line copper contact pin (13-2-3b), the left end position of water-proof type live wire, the left end position of water-proof type zero line, temperature detect switch (TDS) (13-1-6), the left end position of the left end position of front side electric heating piece (13-11) and rear side electric heating piece (13-12) all is insulated and is sealed in socket base (13-2-1), the head of live wire copper contact pin (13-2-3a) is arranged in the spliced eye of front side spliced eye section (13-2-1b1), and be coaxially set with front side spliced eye section (13-2-1b1), the head of zero line copper contact pin (13-2-3b) is arranged in the spliced eye of rear side spliced eye section (13-2-1b2), and be coaxially set with rear side spliced eye section (13-2-1b2),

The double plug section (13-3) of spontaneous heating assembly (13) also comprises 2 U-shaped connectors (13-3-11) of being made by copper sheet; These 2 U-shaped connectors (13-3-11) are different according to the copper strips from connected, are divided into live wire end connection (13-3-11a) and zero line side connector (13-3-11b);

The live wire end connection (13-3-11a) of double plug section (13-3), then is turned down forwards, backwards respectively and makes live wire end connection (13-3-11a) be electrically connected to live wire copper strips (13-91) respectively from bottom to top through the blank position of live wire copper strips (13-91) and front side electric heating piece (13-11) right-hand member by two pin; The rear end of the inverted sections of the pin that is positioned at rear side of live wire end connection (13-3-11a) is welded and fixed and makes live wire end connection (13-3-11a) be electrically connected to the right-hand member electrode copper sheet (13-1-2) of front side electric heating piece (13-11) with the scolder of the solder joint (13-1-5) at the linkage section place of the right-hand member electrode copper sheet (13-1-2) of front side electric heating piece (13-11); The middle part of live wire end connection (13-3-11a) is provided with extension to the right, the tail end of live wire copper sheathing (13-3-3a) is welded on the extension to the right of live wire end connection (13-3-11a), perhaps live wire copper sheathing (13-3-3a) is made in the direct bending in extension to the right of live wire end connection (13-3-11a), perhaps the extension to the right of live wire end connection (13-3-11a) is directly as the 3rd bronze medal member (13-3-3c), thereby makes live wire end connection (13-3-11a) be electrically connected to live wire copper sheathing (13-3-3a); In said structure, related appropriate section has formed plug side the first electrical connection module (13b1);

The zero line side connector (13-3-11b) of double plug section (13-3), then is turned down forwards, backwards respectively and makes zero line side connector (13-3-11b) be electrically connected to zero line copper strips (13-92) respectively from bottom to top through the blank position of zero line copper strips (13-92) and rear side electric heating piece (13-12) right-hand member by two pin; The front end of the inverted sections of the pin that is positioned at front side of zero line side connector (13-3-11b) is welded and fixed and makes zero line side connector (13-3-11b) be electrically connected to the right-hand member electrode copper sheet (13-1-2) of rear side electric heating piece (13-12) with the scolder of the solder joint (13-1-5) at the linkage section place of the right-hand member electrode copper sheet (13-1-2) of rear side electric heating piece (13-12); The middle part of zero line side connector (13-3-11b) is provided with extension to the right, the tail end of zero line copper sheathing (13-3-3b) is welded on the extension to the right of zero line side connector (13-3-11b), perhaps zero line copper sheathing (13-3-3b) is made in the direct bending in extension to the right of zero line side connector (13-3-11b), perhaps the extension to the right of zero line side connector (13-3-11b) is directly as the 4th bronze medal member (13-3-3d), thereby makes zero line side connector (13-3-11b) be electrically connected to zero line copper sheathing (13-3-3b); In said structure, related appropriate section has formed plug side the second electrical connection module (13b2);

Before and after plug side the first electrical connection module (13b1) and the second electrical connection module (13b2) minute as the front and back inserts when Plug base (13-3-1) injection moulding of double plug section (13-3) with this Plug base (13-3-1) formation one, and the right-hand member position of the right-hand member position of the right-hand member position of the right-hand member position of the afterbody of live wire copper sheathing (13-3-3a) afterbody, zero line copper sheathing (13-3-3b), water-proof type live wire, water-proof type zero line, front side electric heating piece (13-11) and rear side electric heating piece (13-12) all is insulated and is sealed in Plug base (13-3-1); And the head of live wire copper sheathing (13-3-3a) is arranged in front side plug (13-3-1b1), is coaxially set with front side plug (13-3-1b1) and communicates with the external world towards direction from front side plug (13-3-1b1); The head of zero line copper sheathing (13-3-3b) is arranged in rear side plug (13-3-1b2), is coaxially set with rear side plug (13-3-1b2) and communicates with the external world towards direction from rear side plug (13-3-1b2);

The front side electric heating piece (13-11) of spontaneous heating assembly (13) be arranged in the top forward recess (12-3-1) that position between receptacle portion (13-2) and double plug section (13-3) is arranged on base plate (12), the position be arranged between receptacle portion (13-2) and double plug section (13-3) of the rear side electric heating piece (13-12) of spontaneous heating assembly (13) is arranged on top rearward recess (12-3-2).

29. according to the described water-proof type self-heating floor system of claim 24 or 25, it is characterized in that: the receptacle portion (13-2) of spontaneous heating assembly (13) is positioned at the left side of electric heating piece (13-1), double plug section (13-3) is positioned at the right side of electric heating piece (13-1);

2 grafting limiting sections (11-1) of upper body (11) are symmetrical arranged with respect to the vertical guide of the central straight line of the short side direction through upper body (11); Each grafting limiting section (11-1) of upper body (11) comprises all concave part (11-1-1), protuberance (11-1-2) and the shielding part (11-1-3) stretched along the fore-and-aft direction of upper body (11); Concave part (11-1-1), protuberance (11-1-2) and shielding part (11-1-3) set gradually according to order from inside to outside on left and right directions; Open Side Down for concave part (11-1-1), protuberance (11-1-2) is to lower convexity, shielding part (11-1-3) is plate body, and the lower surface of shielding part (11-1-3) is higher than the lower surface of concave part (11-1-1), and the lower surface of concave part (11-1-1) is higher than the lower surface of protuberance (11-1-2);

2 grafting support portions (12-1) of base plate (12) are symmetrical arranged with respect to the vertical guide of the central straight line of the short side direction through base plate (12); Each grafting support portion (12-1) of base plate (12) comprises all concave part (12-1-1), lug boss (12-1-2) and the supporting plate section (12-1-3) of stretching along the fore-and-aft direction of base plate (12); Concave part (12-1-1), lug boss (12-1-2) and supporting plate section (12-1-3) set gradually according to order from inside to outside on left and right directions; The opening upwards of concave part (12-1-1), lug boss (12-1-2) raises up, supporting plate section (12-1-3) is plate body, and the upper surface of lug boss (12-1-2) is higher than the upper surface of concave part (12-1-1), and the upper surface of concave part (12-1-1) is higher than the upper surface of supporting plate section (12-1-3);

The Access Division (13-2-1a) of the socket base (13-2-1) of the receptacle portion (13-2) of spontaneous heating assembly (13) is included in protuberance (13-2-4) and the inserting groove (13-2-5) from inside to outside arranged successively on left and right directions; Protuberance (13-2-4) is divided into upper protuberance (13-2-4a) and lower protuberance (13-2-4b) by the difference of its residing upper-lower position, inserting groove (13-2-5) is divided into upper inserting groove (13-2-5a) and lower inserting groove (13-2-5b) according to the difference of residing upper-lower position; The receptacle portion (13-2) of spontaneous heating assembly (13) is pegged graft and is coordinated up and down each other with the concave part (11-1-1) of the left grafting limiting section (11-11) of upper body (11) by the upper protuberance (13-2-4a) of the Access Division (13-2-1a) of its socket base (13-2-1); The receptacle portion (13-2) of spontaneous heating assembly (13) is pegged graft and is coordinated up and down each other with the protuberance (11-1-2) of the left grafting limiting section (11-11) of upper body (11) by the upper inserting groove (13-2-5a) of the Access Division (13-2-1a) of its socket base (13-2-1); The receptacle portion (13-2) of spontaneous heating assembly (13) is mutually pegged graft and is coordinated with the concave part (12-1-1) of the left grafting support portion (12-11) of base plate (12) by the lower protuberance (13-2-4b) of the Access Division (13-2-1a) of its socket base (13-2-1); The receptacle portion (13-2) of spontaneous heating assembly (13) is mutually pegged graft and is coordinated with the lug boss (12-1-2) of the left grafting support portion (12-11) of base plate (12) by the lower inserting groove (13-2-5b) of the Access Division (13-2-1a) of its socket base (13-2-1);

The Access Division (13-3-1a) of the Plug base (13-3-1) of the double plug section (13-3) of spontaneous heating assembly (13) is included in protuberance (13-3-4) and the inserting groove (13-3-5) from inside to outside arranged successively on left and right directions; Protuberance (13-3-4) is divided into upper protuberance (13-3-4a) and lower protuberance (13-3-4b) by the difference of its residing upper-lower position, inserting groove (13-3-5) is divided into and is called upper inserting groove (13-3-5a) and lower inserting groove (13-3-5b) according to the difference of residing upper-lower position; The double plug section (13-3) of spontaneous heating assembly (13) is pegged graft and coordinates up and down each other with the concave part (11-1-1) of the right grafting limiting section (11-12) of upper body (11) by the upper protuberance (13-3-4a) of the Access Division (13-3-1a) of its Plug base (13-3-1); The double plug section (13-3) of spontaneous heating assembly (13) is pegged graft and coordinates up and down each other with the protuberance (11-1-2) of the right grafting limiting section (11-12) of upper body (11) by the upper inserting groove (13-3-5a) of the Access Division (13-3-1a) of its Plug base (13-3-1); The double plug section (13-3) of spontaneous heating assembly (13) is mutually pegged graft and coordinates with the concave part (12-1-1) of the right grafting support portion (12-12) of base plate (12) by the lower protuberance (13-3-4b) of the Access Division (13-3-1a) of its Plug base (13-3-1); The double plug section (13-3) of spontaneous heating assembly (13) is mutually pegged graft and coordinates with the lug boss (12-1-2) of the right grafting support portion (12-12) of base plate (12) by the lower inserting groove (13-3-5b) of the Access Division (13-3-1a) of its Plug base (13-3-1);

The receptacle portion (13-2) that said structure makes spontaneous heating assembly (13) is fixed between the left grafting support portion (12-11) of the left grafting limiting section (11-11) of upper body (11) and base plate (12) by the Access Division (13-2-1a) of its socket base (13-2-1), and the double plug section (13-3) that makes spontaneous heating assembly (13) is fixed between the right grafting support portion (12-12) of the right grafting limiting section (11-12) of upper body (11) and base plate (12) by the Access Division (13-3-1a) of its Plug base (13-3-1);

When the axis of the spliced eye section (13-2-1b) of the socket base (13-2-1) of the receptacle portion (13-2) of spontaneous heating assembly (13) arranges along left and right directions, the shape of copper contact pin (13-2-3) is shape linearly, the shape of the copper sheathing (13-3-3) of double plug section (13-3) is shape linearly also, and the axis of the plug (13-3-1b) of Plug base (13-3-1) is also along the left and right directions setting;

When the axis of the spliced eye section (13-2-1b) of the socket base (13-2-1) of the receptacle portion (13-2) of spontaneous heating assembly (13) arranges along fore-and-aft direction, receptacle portion (13-2) also comprises the first bronze medal member (13-2-3c) and the second bronze medal member (13-2-3d); Live wire copper contact pin (13-2-3a) and zero line copper contact pin (13-2-3b) all a direction in fore-and-aft direction arrange in the same way, and the spliced eye of spliced eye section (13-2-1b) towards with copper contact pin (13-2-3) towards identical, the first bronze medal member (13-2-3c) and the second bronze medal member (13-2-3d) are all along the left and right directions setting; The outside left at left and right directions of the spliced eye section (13-2-1b) of the socket base (13-2-1) of receptacle portion (13-2) is the first outwardly inserted block position (13-2-1c), socket base (13-2-1) with the adjacent position towards upper spliced eye section (13-2-1b), is provided with the first slot position (13-2-1d); Double plug section (13-3) also comprises the 3rd bronze medal member (13-3-3c) and the 4th bronze medal member (13-3-3d); Live wire copper sheathing (13-3-3a) and the zero line copper sheathing (13-3-3b) of double plug section (13-3) all arrange in the same way along another direction in fore-and-aft direction, this another direction and copper contact pin (13-2-3) towards relative, and plug (13-3-1b) towards with copper sheathing (13-3-3) towards identical, the 3rd bronze medal member (13-3-3c) and the 4th bronze medal member (13-3-3d) are all along the left and right directions setting; The outside left at left and right directions of the plug (13-3-1b) of the Plug base (13-3-1) of double plug section (13-3) is the second outwardly inserted block position (13-3-1c), Plug base (13-3-1) with the adjacent position towards upper plug (13-3-1b), is provided with the second slot position (13-3-1d).

30. according to the described water-proof type self-heating floor system of claim 24 or 25, it is characterized in that: the receptacle portion (13-2) of spontaneous heating assembly (13) is positioned at the left side of electric heating piece (13-1), double plug section (13-3) is positioned at the right side of electric heating piece (13-1); The left part of receptacle portion (13-2) upwards exposes the left grafting limiting section (11-11) of upper body (11); The right part of double plug section (13-3) exposes the right grafting support portion (12-12) of base plate (12) downwards;

The axis of the spliced eye section (13-2-1b) of the socket base (13-2-1) of the receptacle portion (13-2) of spontaneous heating assembly (13) arranges along the vertical direction, and receptacle portion (13-2) also comprises the first bronze medal member (13-2-3c) and the second bronze medal member (13-2-3d); Live wire copper contact pin (13-2-3a) and zero line copper contact pin (13-2-3b) be the same direction in above-below direction all, and the spliced eye of spliced eye section (13-2-1b) towards with copper contact pin (13-2-3) towards identical, the first bronze medal member (13-2-3c) and the second bronze medal member (13-2-3d) are all along the left and right directions setting; Double plug section (13-3) also comprises the 3rd bronze medal member (13-3-3c) and the 4th bronze medal member (13-3-3d); The live wire copper sheathing (13-3-3a) of double plug section (13-3) and zero line copper sheathing (13-3-3b) be the direction of another in above-below direction all, this another direction and copper contact pin (13-2-3) towards relative, and plug (13-3-1b) towards with copper sheathing (13-3-3) towards identical, the 3rd bronze medal member (13-3-3c) and the 4th bronze medal member (13-3-3d) are all along the left and right directions setting;

The left grafting limiting section (11-11) of upper body (11) comprises all concave part (11-1-1) and the protuberance (11-1-2) stretched along the fore-and-aft direction of upper body (11); Concave part (11-1-1) and protuberance (11-1-2) set gradually according to order from inside to outside on left and right directions; Open Side Down for concave part (11-1-1), and protuberance (11-1-2) is to lower convexity, and the lower surface of concave part (11-1-1) is higher than the lower surface of protuberance (11-1-2);

The right grafting limiting section (11-12) of upper body (11) comprises all concave part (11-1-1), protuberance (11-1-2) and the shielding part (11-1-3) stretched along the fore-and-aft direction of upper body (11); Concave part (11-1-1), protuberance (11-1-2) and shielding part (11-1-3) set gradually according to order from inside to outside on left and right directions; Open Side Down for concave part (11-1-1), protuberance (11-1-2) is to lower convexity, shielding part (11-1-3) is plate body, and the lower surface of shielding part (11-1-3) is higher than the lower surface of concave part (11-1-1), and the lower surface of concave part (11-1-1) is higher than the lower surface of protuberance (11-1-2);

The left grafting support portion (12-11) of base plate (12) comprises all concave part (12-1-1), lug boss (12-1-2) and the supporting plate section (12-1-3) of stretching along the fore-and-aft direction of base plate (12); Concave part (12-1-1), lug boss (12-1-2) and supporting plate section (12-1-3) set gradually according to order from inside to outside on left and right directions; The opening upwards of concave part (12-1-1), lug boss (12-1-2) raises up, supporting plate section (12-1-3) is plate body, and the upper surface of lug boss (12-1-2) is higher than the upper surface of concave part (12-1-1), and the upper surface of concave part (12-1-1) is higher than the upper surface of supporting plate section (12-1-3);

The right grafting support portion (12-12) of base plate (12) comprises all concave part (12-1-1) and the lug boss (12-1-2) stretched along the fore-and-aft direction of base plate (12); Concave part (12-1-1) and lug boss (12-1-2) set gradually according to order from inside to outside on left and right directions; The opening upwards of concave part (12-1-1), lug boss (12-1-2) raises up, and the upper surface of lug boss (12-1-2) is higher than the upper surface of concave part (12-1-1);

The Access Division (13-2-1a) of the socket base (13-2-1) of the receptacle portion (13-2) of spontaneous heating assembly (13) is included in protuberance (13-2-4) and the inserting groove (13-2-5) from inside to outside arranged successively on left and right directions; Protuberance (13-2-4) is divided into upper protuberance (13-2-4a) and lower protuberance (13-2-4b) by the difference of its residing upper-lower position, inserting groove (13-2-5) is divided into upper inserting groove (13-2-5a) and lower inserting groove (13-2-5b) according to the difference of residing upper-lower position; The receptacle portion (13-2) of spontaneous heating assembly (13) is pegged graft and is coordinated up and down each other with the concave part (11-1-1) of the left grafting limiting section (11-11) of upper body (11) by the upper protuberance (13-2-4a) of the Access Division (13-2-1a) of its socket base (13-2-1); The receptacle portion (13-2) of spontaneous heating assembly (13) is pegged graft and is coordinated up and down each other with the protuberance (11-1-2) of the left grafting limiting section (11-11) of upper body (11) by the upper inserting groove (13-2-5a) of the Access Division (13-2-1a) of its socket base (13-2-1); The receptacle portion (13-2) of spontaneous heating assembly (13) is mutually pegged graft and is coordinated with the concave part (12-1-1) of the left grafting support portion (12-11) of base plate (12) by the lower protuberance (13-2-4b) of the Access Division (13-2-1a) of its socket base (13-2-1); The receptacle portion (13-2) of spontaneous heating assembly (13) is mutually pegged graft and is coordinated with the lug boss (12-1-2) of the left grafting support portion (12-11) of base plate (12) by the lower inserting groove (13-2-5b) of the Access Division (13-2-1a) of its socket base (13-2-1);

The Access Division (13-3-1a) of the Plug base (13-3-1) of the double plug section (13-3) of spontaneous heating assembly (13) is included in protuberance (13-3-4) and the inserting groove (13-3-5) from inside to outside arranged successively on left and right directions; Protuberance (13-3-4) is divided into upper protuberance (13-3-4a) and lower protuberance (13-3-4b) by the difference of its residing upper-lower position, inserting groove (13-3-5) is divided into and is called upper inserting groove (13-3-5a) and lower inserting groove (13-3-5b) according to the difference of residing upper-lower position; The double plug section (13-3) of spontaneous heating assembly (13) is pegged graft and coordinates up and down each other with the concave part (11-1-1) of the right grafting limiting section (11-12) of upper body (11) by the upper protuberance (13-3-4a) of the Access Division (13-3-1a) of its Plug base (13-3-1); The double plug section (13-3) of spontaneous heating assembly (13) is pegged graft and coordinates up and down each other with the protuberance (11-1-2) of the right grafting limiting section (11-12) of upper body (11) by the upper inserting groove (13-3-5a) of the Access Division (13-3-1a) of its Plug base (13-3-1); The double plug section (13-3) of spontaneous heating assembly (13) is mutually pegged graft and coordinates with the concave part (12-1-1) of the right grafting support portion (12-12) of base plate (12) by the lower protuberance (13-3-4b) of the Access Division (13-3-1a) of its Plug base (13-3-1); The double plug section (13-3) of spontaneous heating assembly (13) is mutually pegged graft and coordinates with the lug boss (12-1-2) of the right grafting support portion (12-12) of base plate (12) by the lower inserting groove (13-3-5b) of the Access Division (13-3-1a) of its Plug base (13-3-1);

The receptacle portion (13-2) that said structure makes spontaneous heating assembly (13) is fixed between the left grafting support portion (12-11) of the left grafting limiting section (11-11) of upper body (11) and base plate (12) by the Access Division (13-2-1a) of its socket base (13-2-1), and the double plug section (13-3) that makes spontaneous heating assembly (13) is fixed between the right grafting support portion (12-12) of the right grafting limiting section (11-12) of upper body (11) and base plate (12) by the Access Division (13-3-1a) of its Plug base (13-3-1).

31., according to the described water-proof type self-heating floor system of one of claim 26 to 28, it is characterized in that: 2 grafting limiting sections (11-1) of upper body (11) are symmetrical arranged with respect to the vertical guide of the central straight line of the short side direction through upper body (11); Each grafting limiting section (11-1) of upper body (11) comprises all concave part (11-1-1), protuberance (11-1-2) and the shielding part (11-1-3) stretched along the fore-and-aft direction of upper body (11); Concave part (11-1-1), protuberance (11-1-2) and shielding part (11-1-3) set gradually according to order from inside to outside on left and right directions; Open Side Down for concave part (11-1-1), protuberance (11-1-2) is to lower convexity, shielding part (11-1-3) is plate body, and the lower surface of shielding part (11-1-3) is higher than the lower surface of concave part (11-1-1), and the lower surface of concave part (11-1-1) is higher than the lower surface of protuberance (11-1-2);

2 grafting support portions (12-1) of base plate (12) are symmetrical arranged with respect to the vertical guide of the central straight line of the short side direction through base plate (12); Each grafting support portion (12-1) of base plate (12) comprises all concave part (12-1-1), lug boss (12-1-2) and the supporting plate section (12-1-3) of stretching along the fore-and-aft direction of base plate (12); Concave part (12-1-1), lug boss (12-1-2) and supporting plate section (12-1-3) set gradually according to order from inside to outside on left and right directions; The opening upwards of concave part (12-1-1), lug boss (12-1-2) raises up, supporting plate section (12-1-3) is plate body, and the upper surface of lug boss (12-1-2) is higher than the upper surface of concave part (12-1-1), and the upper surface of concave part (12-1-1) is higher than the upper surface of supporting plate section (12-1-3);

The Access Division (13-2-1a) of the socket base (13-2-1) of the receptacle portion (13-2) of spontaneous heating assembly (13) is included in protuberance (13-2-4) and the inserting groove (13-2-5) from inside to outside arranged successively on left and right directions; Protuberance (13-2-4) is divided into upper protuberance (13-2-4a) and lower protuberance (13-2-4b) by the difference of its residing upper-lower position, inserting groove (13-2-5) is divided into upper inserting groove (13-2-5a) and lower inserting groove (13-2-5b) according to the difference of residing upper-lower position; The receptacle portion (13-2) of spontaneous heating assembly (13) is pegged graft and is coordinated up and down each other with the concave part (11-1-1) of the left grafting limiting section (11-11) of upper body (11) by the upper protuberance (13-2-4a) of the Access Division (13-2-1a) of its socket base (13-2-1); The receptacle portion (13-2) of spontaneous heating assembly (13) is pegged graft and is coordinated up and down each other with the protuberance (11-1-2) of the left grafting limiting section (11-11) of upper body (11) by the upper inserting groove (13-2-5a) of the Access Division (13-2-1a) of its socket base (13-2-1); The receptacle portion (13-2) of spontaneous heating assembly (13) is mutually pegged graft and is coordinated with the concave part (12-1-1) of the left grafting support portion (12-11) of base plate (12) by the lower protuberance (13-2-4b) of the Access Division (13-2-1a) of its socket base (13-2-1); The receptacle portion (13-2) of spontaneous heating assembly (13) is mutually pegged graft and is coordinated with the lug boss (12-1-2) of the left grafting support portion (12-11) of base plate (12) by the lower inserting groove (13-2-5b) of the Access Division (13-2-1a) of its socket base (13-2-1);

The Access Division (13-3-1a) of the Plug base (13-3-1) of the double plug section (13-3) of spontaneous heating assembly (13) is included in protuberance (13-3-4) and the inserting groove (13-3-5) from inside to outside arranged successively on left and right directions; Protuberance (13-3-4) is divided into upper protuberance (13-3-4a) and lower protuberance (13-3-4b) by the difference of its residing upper-lower position, inserting groove (13-3-5) is divided into and is called upper inserting groove (13-3-5a) and lower inserting groove (13-3-5b) according to the difference of residing upper-lower position; The double plug section (13-3) of spontaneous heating assembly (13) is pegged graft and coordinates up and down each other with the concave part (11-1-1) of the right grafting limiting section (11-12) of upper body (11) by the upper protuberance (13-3-4a) of the Access Division (13-3-1a) of its Plug base (13-3-1); The double plug section (13-3) of spontaneous heating assembly (13) is pegged graft and coordinates up and down each other with the protuberance (11-1-2) of the right grafting limiting section (11-12) of upper body (11) by the upper inserting groove (13-3-5a) of the Access Division (13-3-1a) of its Plug base (13-3-1); The double plug section (13-3) of spontaneous heating assembly (13) is mutually pegged graft and coordinates with the concave part (12-1-1) of the right grafting support portion (12-12) of base plate (12) by the lower protuberance (13-3-4b) of the Access Division (13-3-1a) of its Plug base (13-3-1); The double plug section (13-3) of spontaneous heating assembly (13) is mutually pegged graft and coordinates with the lug boss (12-1-2) of the right grafting support portion (12-12) of base plate (12) by the lower inserting groove (13-3-5b) of the Access Division (13-3-1a) of its Plug base (13-3-1);

The receptacle portion (13-2) that said structure makes spontaneous heating assembly (13) is fixed between the left grafting support portion (12-11) of the left grafting limiting section (11-11) of upper body (11) and base plate (12) by the Access Division (13-2-1a) of its socket base (13-2-1), and the double plug section (13-3) that makes spontaneous heating assembly (13) is fixed between the right grafting support portion (12-12) of the right grafting limiting section (11-12) of upper body (11) and base plate (12) by the Access Division (13-3-1a) of its Plug base (13-3-1);

When the axis of the spliced eye section (13-2-1b) of the socket base (13-2-1) of the receptacle portion (13-2) of spontaneous heating assembly (13) arranges along left and right directions, the shape of copper contact pin (13-2-3) is shape linearly, the shape of the copper sheathing (13-3-3) of double plug section (13-3) is shape linearly also, and the axis of the plug (13-3-1b) of Plug base (13-3-1) is also along the left and right directions setting;

When the axis of the spliced eye section (13-2-1b) of the socket base (13-2-1) of the receptacle portion (13-2) of spontaneous heating assembly (13) arranges along fore-and-aft direction, receptacle portion (13-2) also comprises the first bronze medal member (13-2-3c) and the second bronze medal member (13-2-3d); Live wire copper contact pin (13-2-3a) and zero line copper contact pin (13-2-3b) all a direction in fore-and-aft direction arrange in the same way, and the spliced eye of spliced eye section (13-2-1b) towards with copper contact pin (13-2-3) towards identical, the first bronze medal member (13-2-3c) and the second bronze medal member (13-2-3d) are all along the left and right directions setting; The outside left at left and right directions of the spliced eye section (13-2-1b) of the socket base (13-2-1) of receptacle portion (13-2) is the first outwardly inserted block position (13-2-1c), socket base (13-2-1) with the adjacent position towards upper spliced eye section (13-2-1b), is provided with the first slot position (13-2-1d); Double plug section (13-3) also comprises the 3rd bronze medal member (13-3-3c) and the 4th bronze medal member (13-3-3d); Live wire copper sheathing (13-3-3a) and the zero line copper sheathing (13-3-3b) of double plug section (13-3) all arrange in the same way along another direction in fore-and-aft direction, this another direction and copper contact pin (13-2-3) towards relative, and plug (13-3-1b) towards with copper sheathing (13-3-3) towards identical, the 3rd bronze medal member (13-3-3c) and the 4th bronze medal member (13-3-3d) are all along the left and right directions setting; The outside left at left and right directions of the plug (13-3-1b) of the Plug base (13-3-1) of double plug section (13-3) is the second outwardly inserted block position (13-3-1c), Plug base (13-3-1) with the adjacent position towards upper plug (13-3-1b), is provided with the second slot position (13-3-1d).

32., according to the described water-proof type self-heating floor system of one of claim 26 to 28, it is characterized in that: the left part of receptacle portion (13-2) upwards exposes the left grafting limiting section (11-11) of upper body (11); The right part of double plug section (13-3) exposes the right grafting support portion (12-12) of base plate (12) downwards;

The axis of the spliced eye section (13-2-1b) of the socket base (13-2-1) of the receptacle portion (13-2) of spontaneous heating assembly (13) arranges along the vertical direction, and receptacle portion (13-2) also comprises the first bronze medal member (13-2-3c) and the second bronze medal member (13-2-3d); Live wire copper contact pin (13-2-3a) and zero line copper contact pin (13-2-3b) be the same direction in above-below direction all, and the spliced eye of spliced eye section (13-2-1b) towards with copper contact pin (13-2-3) towards identical, the first bronze medal member (13-2-3c) and the second bronze medal member (13-2-3d) are all along the left and right directions setting; Double plug section (13-3) also comprises the 3rd bronze medal member (13-3-3c) and the 4th bronze medal member (13-3-3d); The live wire copper sheathing (13-3-3a) of double plug section (13-3) and zero line copper sheathing (13-3-3b) be the direction of another in above-below direction all, this another direction and copper contact pin (13-2-3) towards relative, and plug (13-3-1b) towards with copper sheathing (13-3-3) towards identical, the 3rd bronze medal member (13-3-3c) and the 4th bronze medal member (13-3-3d) are all along the left and right directions setting;

The left grafting limiting section (11-11) of upper body (11) comprises all concave part (11-1-1) and the protuberance (11-1-2) stretched along the fore-and-aft direction of upper body (11); Concave part (11-1-1) and protuberance (11-1-2) set gradually according to order from inside to outside on left and right directions; Open Side Down for concave part (11-1-1), and protuberance (11-1-2) is to lower convexity, and the lower surface of concave part (11-1-1) is higher than the lower surface of protuberance (11-1-2);

The right grafting limiting section (11-12) of upper body (11) comprises all concave part (11-1-1), protuberance (11-1-2) and the shielding part (11-1-3) stretched along the fore-and-aft direction of upper body (11); Concave part (11-1-1), protuberance (11-1-2) and shielding part (11-1-3) set gradually according to order from inside to outside on left and right directions; Open Side Down for concave part (11-1-1), protuberance (11-1-2) is to lower convexity, shielding part (11-1-3) is plate body, and the lower surface of shielding part (11-1-3) is higher than the lower surface of concave part (11-1-1), and the lower surface of concave part (11-1-1) is higher than the lower surface of protuberance (11-1-2); The left grafting support portion (12-11) of base plate (12) comprises all concave part (12-1-1), lug boss (12-1-2) and the supporting plate section (12-1-3) of stretching along the fore-and-aft direction of base plate (12); Concave part (12-1-1), lug boss (12-1-2) and supporting plate section (12-1-3) set gradually according to order from inside to outside on left and right directions; The opening upwards of concave part (12-1-1), lug boss (12-1-2) raises up, supporting plate section (12-1-3) is plate body, and the upper surface of lug boss (12-1-2) is higher than the upper surface of concave part (12-1-1), and the upper surface of concave part (12-1-1) is higher than the upper surface of supporting plate section (12-1-3);

The right grafting support portion (12-12) of base plate (12) comprises all concave part (12-1-1) and the lug boss (12-1-2) stretched along the fore-and-aft direction of base plate (12); Concave part (12-1-1) and lug boss (12-1-2) set gradually according to order from inside to outside on left and right directions; The opening upwards of concave part (12-1-1), lug boss (12-1-2) raises up, and the upper surface of lug boss (12-1-2) is higher than the upper surface of concave part (12-1-1);

The Access Division (13-2-1a) of the socket base (13-2-1) of the receptacle portion (13-2) of spontaneous heating assembly (13) is included in protuberance (13-2-4) and the inserting groove (13-2-5) from inside to outside arranged successively on left and right directions; Protuberance (13-2-4) is divided into upper protuberance (13-2-4a) and lower protuberance (13-2-4b) by the difference of its residing upper-lower position, inserting groove (13-2-5) is divided into upper inserting groove (13-2-5a) and lower inserting groove (13-2-5b) according to the difference of residing upper-lower position; The receptacle portion (13-2) of spontaneous heating assembly (13) is pegged graft and is coordinated up and down each other with the concave part (11-1-1) of the left grafting limiting section (11-11) of upper body (11) by the upper protuberance (13-2-4a) of the Access Division (13-2-1a) of its socket base (13-2-1); The receptacle portion (13-2) of spontaneous heating assembly (13) is pegged graft and is coordinated up and down each other with the protuberance (11-1-2) of the left grafting limiting section (11-11) of upper body (11) by the upper inserting groove (13-2-5a) of the Access Division (13-2-1a) of its socket base (13-2-1); The receptacle portion (13-2) of spontaneous heating assembly (13) is mutually pegged graft and is coordinated with the concave part (12-1-1) of the left grafting support portion (12-11) of base plate (12) by the lower protuberance (13-2-4b) of the Access Division (13-2-1a) of its socket base (13-2-1); The receptacle portion (13-2) of spontaneous heating assembly (13) is mutually pegged graft and is coordinated with the lug boss (12-1-2) of the left grafting support portion (12-11) of base plate (12) by the lower inserting groove (13-2-5b) of the Access Division (13-2-1a) of its socket base (13-2-1);

The Access Division (13-3-1a) of the Plug base (13-3-1) of the double plug section (13-3) of spontaneous heating assembly (13) is included in protuberance (13-3-4) and the inserting groove (13-3-5) from inside to outside arranged successively on left and right directions; Protuberance (13-3-4) is divided into upper protuberance (13-3-4a) and lower protuberance (13-3-4b) by the difference of its residing upper-lower position, inserting groove (13-3-5) is divided into and is called upper inserting groove (13-3-5a) and lower inserting groove (13-3-5b) according to the difference of residing upper-lower position; The double plug section (13-3) of spontaneous heating assembly (13) is pegged graft and coordinates up and down each other with the concave part (11-1-1) of the right grafting limiting section (11-12) of upper body (11) by the upper protuberance (13-3-4a) of the Access Division (13-3-1a) of its Plug base (13-3-1); The double plug section (13-3) of spontaneous heating assembly (13) is pegged graft and coordinates up and down each other with the protuberance (11-1-2) of the right grafting limiting section (11-12) of upper body (11) by the upper inserting groove (13-3-5a) of the Access Division (13-3-1a) of its Plug base (13-3-1); The double plug section (13-3) of spontaneous heating assembly (13) is mutually pegged graft and coordinates with the concave part (12-1-1) of the right grafting support portion (12-12) of base plate (12) by the lower protuberance (13-3-4b) of the Access Division (13-3-1a) of its Plug base (13-3-1); The double plug section (13-3) of spontaneous heating assembly (13) is mutually pegged graft and coordinates with the lug boss (12-1-2) of the right grafting support portion (12-12) of base plate (12) by the lower inserting groove (13-3-5b) of the Access Division (13-3-1a) of its Plug base (13-3-1);

The receptacle portion (13-2) that said structure makes spontaneous heating assembly (13) is fixed between the left grafting support portion (12-11) of the left grafting limiting section (11-11) of upper body (11) and base plate (12) by the Access Division (13-2-1a) of its socket base (13-2-1), and the double plug section (13-3) that makes spontaneous heating assembly (13) is fixed between the right grafting support portion (12-12) of the right grafting limiting section (11-12) of upper body (11) and base plate (12) by the Access Division (13-3-1a) of its Plug base (13-3-1).

33. water-proof type self-heating floor system according to claim 24 is characterized in that: also comprise locating piece (14); Locating piece (14) has 4, and each locating piece (14) includes main part (14-1), dovetail (14-2) and positioning boss (14-3); The cross sectional shape of the main part (14-1) of locating piece (14) is identical with the cross sectional shape of the socket base (13-2-1) of receptacle portion (13-2); Dovetail (14-2) is corresponding with the dovetail groove (13-2-10) of receptacle portion (13-2);

Socket base (13-2-1) the rear and front end along continuous straight runs of receptacle portion (13-2) is provided with dovetail groove (13-2-10), and dovetail groove (13-2-10) is divided into the first dovetail groove (13-2-10a) and the second dovetail groove (13-2-10b) by its residing front and back position;

Plug base (13-3-1) the rear and front end along continuous straight runs of double plug section (13-3) is provided with dovetail groove (13-3-10), and dovetail groove (13-3-10) is divided into the first dovetail groove (13-3-10a) and the second dovetail groove (13-3-10b) by its residing front and back position; First dovetail groove (13-3-10a) of first dovetail groove (13-2-10a) of receptacle portion (13-2) and the second dovetail groove (13-2-10b) and double plug section (13-3) is all identical with the structure of the second dovetail groove (13-3-10b); During use, in the first dovetail groove (13-3-10a), the second dovetail groove (13-3-10b) that 4 locating pieces (14) are inserted to the first dovetail groove (13-2-10a), the second dovetail groove (13-2-10b) and the double plug section (13-3) of corresponding receptacle portion (13-2) by dovetail (14-2) separately respectively;

All be provided with successively from outside to inside cross section on the inwall of 2 spliced eyes (13-2-1b) of the socket base (13-2-1) of receptacle portion (13-2) and be arc the first seal groove (13-2-6) and the second seal groove (13-2-7);

The cross section that 2 plugs (13-3-1b) of the Plug base (13-3-1) of double plug section (13-3) all are provided with from inside to outside successively as the first plug Access Division (13-3-6) and the second plug Access Division (13-3-7) is arc annular protrusion position; And the first plug Access Division (13-3-6) is corresponding with first seal groove (13-2-6) of the spliced eye (13-2-1b) of the socket base (13-2-1) of receptacle portion (13-2), the second plug Access Division (13-3-7) is corresponding with second seal groove (13-2-7) of the spliced eye (13-2-1b) of the socket base (13-2-1) of receptacle portion (13-2).

34. water-proof type self-heating floor system according to claim 24, it is characterized in that: the receptacle portion (13-2) of spontaneous heating assembly (13) also comprises 2 blocked hole sections, and 2 blocked hole sections are divided into the first blocked hole section (13-2-8) and the second blocked hole section (13-2-9) by the difference of its residing front and back position; The first blocked hole section (13-2-8) and the second blocked hole section (13-2-9) are the position that is provided with L-shaped hole, cross section, an opening in the hole of its described " L " shape left, another opening upwards; The double plug section (13-3) of spontaneous heating assembly (13) also comprises 2 blocked hole sections; These 2 blocked hole sections are divided into the 3rd blocked hole section (13-3-8) and the 4th blocked hole section (13-3-9) by the difference of its residing front and back position; The 3rd blocked hole section (13-3-8) and the 4th blocked hole section (13-3-9) are the position that is provided with L-shaped hole, cross section, an opening in the hole of its described " L " shape to the right, another opening upwards;

Connector (2) also comprises the second connector (22); The second connector (22) comprises the connecting portion (22-1) that is positioned at middle part and the flexible clamping section (22-2) that is positioned at connecting portion (22-1) left and right sides; The shape of connecting portion (22-1) is " mouth " font substantially, the structure of the flexible clamping section (21-2) of the structure of flexible clamping section (22-2) and the first connector (21) is basic identical, and flexible clamping section (22-2) is connected to connecting portion (22-1) from the bottom, the left and right sides of connecting portion (22-1), thereby formed a corresponding distortion groove (22-3) between connecting portion (21-1) and each flexible clamping section (22-2); During use, the second connector (22) is pressed downward contracting and is stretched in a corresponding blocked hole seat of water-proof type self-heating floor (1) by the free end position of its flexible clamping section (22-2), because the end face (22-2a) of the free end of flexible clamping section (22-2) is now stopped by the corresponding inwall of the blocked hole seat of the power supply Plug Division (13-2) of water-proof type self-heating floor (1), two water-proof type self-heating floors (1) locking that the second connector (22) is adjacent by left and right links together.

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