CN202792183U - Heat conduction element - Google Patents

Abstract

The utility model discloses a heat conduction element. The heat conduction element is characterized by being an integrated element made of metal materials or glass fiber reinforced plastics section bars or extrusion molding section bars made of plastic with high polymer materials as main components. The heat conduction element comprises a pipeline portion and a heat dissipation portion. The pipeline portion is a straight line pipe arranged along the front direction and the back direction. The heat dissipation portion is connected with the pipeline portion.

Description

A kind of heat conduction member

Technical field

The utility model relates to the product in a kind of building decoration field, is specifically related to a kind of heat conduction member for integrated water heating floor piece.

Background technology

Central heating is adopted in the heating of northern China tradition more, connect the radiator heating service by the room interior conduit, but the Indoor Thermal cross-ventilation causes that easily dust is floating and air is dry.Adopt 70-85 ℃ of radiator group supply water temperature, power consumption is high, the thermal efficiency is low, indoor temperature is inhomogeneous, and surface temperature is low, and comfortableness is relatively poor.The radiator group need take certain space, and affects attractive in appearance.

Floor heating refers to heating agent liquid (water normally, also can be conduction oil) in underfloor dish type pipeline, circulate, the heat of heating agent liquid mainly passes to dish type pipeline and floor successively by the mode of conduction, again by the floor take radiation mode as main, in the mode of conduction and convection as auxiliary to indoor transferring heat, thereby realize a kind of heating mode of indoor heating.The thermograde that floor heating successively decreases from bottom to up gradually in indoor formation, thus give the cool comfort of the warm head of pin.Floor heating meets the fitness theory of the traditional Chinese medical science " temperature foot top is cool ", is the heating system of present the most comfortable, also is the symbol of modern life quality.At present, installation ground heating system gradually also comes into vogue in the south China area.

Low-temperature water heating floor heating (being designated hereinafter simply as the water floor heating) is not to be higher than 60 ℃ hot water as heating agent take temperature, circulates in the dish type pipeline, the floor is heated, by the floor in the mode of radiation, conduction and convection to indoor transferring heat.Compare with the radiator heating system that tradition adopts, water floor heating power consumption is lower, and comfort level is high, does not take the interior space.

Existing water floor heating mostly is to adopt the dish type pipeline with steel to be layed in first on the ground as heat conducting element, then lays the corresponding binding materials such as cement, and (floor decorative material refers to timber floor and ground decoration tile to re-lay at last floor decorative material.Ground decoration tile is called for short floor tile, refers to ceramic tile or is used as on the ground the member of the material of ground decoration by the laying that the materials such as artificial stone, marble, granite and glass are made).The floor heating technology of said structure, the caloric requirement that its heat conducting element produces is conducted from bottom to top successively to binding material and floor decorative material, and the bonded material of a large amount of heats and floor decorative material absorb, and cause energy waste; Secondly, because ground (also being the decorative cover of the floor decorative material) distance that the heat conducting element distance lays is larger, it is slower to cause heat to be delivered to interior space process.The 3rd, quality problems can't find problem points in case occur leaking in using etc., even found maintenance also pretty troublesome, must shift out floor decorative material, excavate partly or completely binding material, again the dish type pipeline is repaired, re-layed binding material and floor decorative material, thereby cause maintenance penalty very high.

Chinese patent literature CN101699173A(number of patent application 200910093345.5) " a kind of light and thin composite hot water heating floor " disclosed, put down in writing in 0019 section of its specification: " this floor comprises ground decoration layer 1; upper strata metal guide thermosphere 2; heating tube 3; lower metal heat-conducting layer 4; calcium silicate board with microporous 5, heat-insulation layer 6, floor 7; In calcium silicate board with microporous and the heat-insulation layer tube seat is set, next to the skin the laying in lower metal heat-conducting layer and tube seat surface, and be prefabricated into precast composite slab with tube seat with calcium silicate board with microporous and heat-insulation layer.Heating tube 3 places on the interior lower metal heat-conducting layer of tube seat; Upper strata metal guide thermosphere horizontal laying is on heating tube and lower metal heat-conducting layer, with pipe top, lower metal heat-conducting layer close contact.The heating tube top is in same plane with lower metal heat-conducting layer upper surface.This ground decoration layer is wood flooring, cement flooring, Ceramic Tiles ground or building stones ground, and wherein, when the ground decorative layer was cement flooring, Ceramic Tiles ground or building stones ground, described upper and lower metal guide thermosphere was equipped with hole." the upper strata metal guide thermosphere 2 of this kind structure is positioned at ground decoration layer 1 downside, accelerated the process that heat is delivered to the interior space, save a part of energy, but still had follow-up maintenance hard problem.

Chinese patent literature CN202055172U(number of patent application 201120134573.5) " a kind of water heating floor tile " disclosed, put down in writing in 0013 section of its specification: " described heating layer 2 can be set to the hot-water heating pipe; be embedded in advance between heat-conducting layer 1 and the heat-insulation layer 4, and is cheap, easy for installation.The hot-water heating pipe is hollow structure, when a plurality of water heating floor tile combinations are that the hot-water heating pipe of other module of hot-water heating Guan Keyu is interconnected.In order to make evenly heating of heating layer 2, the hot-water heating pipe can be designed to spiral or tortuous form, as shown in Figure 2, and make it to be evenly distributed." at first, the dimensions of floor tile is more, little have 30 * 30 centimetres, and then difficulty of processing is larger such as the floor tile in this specification coil pipe to be set, cause production cost to increase; Secondly, finding out its pipe joint part by its Fig. 2, also is that the connector 5 in the specification exposes outside, during use, will often be trampled, and causes easily coming off or unclamping, and impact is normally used.In addition, exposed pipe joint also can people by the time obstacles.The 3rd, hide if above the heat-insulation layer of floor tile, lay one deck cladding material, then not only affect heat transfer efficiency, and will increase widely cost.

" a kind of heat accumulation and hot slow-release composite floor module " Chinese patent literature CN101713563A(number of patent application 200910044799.3) disclosed, put down in writing in 0034 section in its specification: " as depicted in figs. 1 and 2, heat accumulation of the present invention and hot slow-release composite floor module have heat-insulation and heat-preservation base plate and Bamboo floor surface layer 2; Between described heat-insulation and heat-preservation base plate 1 and Bamboo floor surface layer 2 and in the module both sides, be respectively equipped with flitch 3, and flitch 3 is provided with the syndeton of joining in order to adjacent block; Described module two ends are respectively equipped with the end plate 4 between described heat-insulation and heat-preservation base plate 1 and Bamboo floor surface layer 2; Between described heat-insulation and heat-preservation base plate 1 and the Bamboo floor surface layer 2 the round thick bamboo tube 5 of perforation and the corresponding circular hole that described round thick bamboo tube 5 two ends place respectively described two end plates 4 are housed, also are filled with phase-change heat-storage material 6 between described heat-insulation and heat-preservation base plate 1 and the Bamboo floor surface layer 2." put down in writing in 0018 section of its specification: " know-why of the present invention is, during actual the use, a plurality of modules are spliced to form flooring surface by the syndeton of correspondence, and the round thick bamboo tube 5 in the module is communicated with successively with round thick bamboo tube in the forward and backward adjacent module, form sealing pipeline; Thermal source (can be the hot-air by the solar energy conversion) is when passing through the round thick bamboo tube 5 of hollow, with heat transferred phase-change heat-storage material 6, the phase-change heat-storage material 6 that is solid state before the heating becomes thickness attitude or liquid state behind absorbing heat, and with the heat storage wherein, this process is an endothermic process; ".Can be found out by foregoing description, this kind structure adopts circle thick bamboo tube 5 as heat pipe, can't realize standardization, industrialized large-scale production, and easily degraded of thick bamboo tube itself, ftracture easily when dry, therefore this heat accumulation and hot slow-release composite floor module poor reliability, security are low, need frequent M R after mating formation, and use cost is higher.Secondly, its phase-change heat-storage material 6 becomes thickness attitude or liquid state behind absorbing heat, it is essential airtight that thereby requirement is filled with the space of phase-change heat-storage material 6, also be that end plate 4 and heat-insulation and heat-preservation base plate 1 self must adopt the waterproof material of hard, Bamboo floor surface layer 2 and circle thick bamboo tube 5 self must carry out water-tight to be processed, all to carry out airtight connection between end plate 4, heat-insulation and heat-preservation base plate 1, Bamboo floor surface layer 2 and the circle thick bamboo tube 5, thereby it is larger to implement difficulty, the production and processing trouble also is not easy to suitability for industrialized production.

The utility model content

The purpose of this utility model provides a kind of simple in structure, is convenient to suitability for industrialized production, the heat conduction member that is used for integrated water heating floor piece easy for installation.

The basic technical scheme of realizing the utility model purpose heat conduction member is: a kind of heat conduction member is provided, its design feature is: heat conduction member is the integral piece that metal material is made, perhaps be glass fiber reinforced plastic shapes, or the extruded profile made of the plastics take macromolecular material as main component.Heat conduction member comprises pipe section and radiating part.Pipe section is to the linear pipeline that arranges along front and back.Radiating part links to each other with pipe section.

Technical scheme take the basic technical scheme of above-mentioned heat conduction member as the basis is: also comprise the location division.Heat conduction member is aluminium alloy extrusions.All be coated with anticorrosive paint on the inner-walls of duct of pipe section.The location division has 2, lays respectively on the left and right sides, top of radiating part.Each location division is divided into left location division and right location division by the difference of its position, residing left and right sides.

Technical scheme take the technical scheme of above-mentioned heat conduction member as the basis is: radiating part integral body is tabular, and radiating part be the position of directly dispelling the heat.Radiating part is connected on the pipe section from the top.

Technical scheme take the technical scheme of above-mentioned heat conduction member as the basis is: heat conduction member also is provided with through hole as the upward and downward of equal hot hole at its radiating part.Each equal hot hole is symmetricly set on the left and right sides of radiating part and forms left side all hot hole group and the equal hot hole group in right side with respect to the vertical guide through the pipe section axis.Equal hot hole in each equal hot hole group is arranged to different row at left and right directions each other, the equal hot hole of each of every row is again along front and back to uniformly-spaced arranging, and the aperture of the equal hot hole of same row equates, between the equal hot hole of adjacent column, the aperture of the equal hot hole that is listed as to the inside about being positioned at is greater than the aperture of the equal hot hole that is listed as laterally about being positioned at.

Technical scheme take the appropriate technical solution of above-mentioned heat conduction member as the basis is: the radiator portion of heat conduction member is 2 heat radiation positions, lays respectively at the left and right sides of pipe section.The planform at 2 heat radiation positions is identical, and 2 heat radiation positions are divided into left side radiating part and right side radiating part by the difference of its position, residing left and right sides.2 heat radiation positions all are square tube type.The left position point of heat conduction member is in the upside left part of left side radiating part, and right position point is in the upside right part of right side radiating part.The outer diameter tube of the pipe section of heat conduction member less than the upper surface of radiating part to 0.5 millimeter to 2 millimeters of the distance between the lower surface.

Technical scheme take the technical scheme of above-mentioned heat conduction member as the basis is: all be connected with the body that the cross section is oval shape on the inwall of the radiating part of 2 square tube types of heat conduction member, the body of this oval shape also is the part of aluminium alloy extrusions.

Technical scheme take the appropriate technical solution of above-mentioned heat conduction member as the basis is: all be connected with 2 to 5 rounded bodys in cross section side by side on the inwall of the radiating part of 2 square tube types of heat conduction member, the body of this circle side by side also is the part of aluminium alloy extrusions.

The utlity model has positive effect:

(1) heat conduction member of the present utility model simple in structure, be convenient to large-scale industrial production.

(2) heat conduction member of the present utility model only has a rectilinear aluminium alloy pipeline, heat transport fluid flows through from pipeline, can conduct to equably heat in the architectural surface by its upper surface by the radiating part that links to each other with pipeline, be passed in the space that needs heating by architectural surface again, simple in structure, successful is convenient to implement.

(3) upper surface of the aluminium alloy radiating part of heat conduction member of the present utility model is apart from the space of needs heatings alternating floor architectural surface only, the heat conduction is quick, so that architectural surface can enter rapidly the heat transfer state, thereby the interior space then can heat up rapidly, and thermal loss is less.

(4) can place corresponding phase change heat storage material in the cavity of the radiating part of heat conduction member of the present utility model, can reduce fully the energy resource consumption of thermal source, energy-saving effect is obvious.

Description of drawings

Fig. 1 is the schematic diagram of the first integrated water heating floor piece of application the first heat conduction member of the present utility model;

Fig. 2 is the elevational schematic view of Fig. 1;

Fig. 3 is the schematic diagram of the architectural surface among Fig. 2;

Fig. 4 is the schematic diagram of the sub-body among Fig. 2;

Fig. 5 is the schematic top plan view of Fig. 4;

Fig. 6 is the schematic diagram when observing from the left of Fig. 4;

Fig. 7 is the schematic diagram during from right-hand observe of Fig. 4;

Fig. 8 is the schematic diagram when observing from the rear of Fig. 4;

Fig. 9 is the schematic diagram of the first heat conduction member of the present utility model among Fig. 2;

Figure 10 is the schematic perspective view of a kind of structure of heat conduction member shown in Figure 9;

Figure 11 is the schematic perspective view of the another kind of structure of heat conduction member shown in Figure 9;

Figure 12 is the schematic diagram after Fig. 1 removes architectural surface;

Figure 13 is the schematic diagram of the second integrated water heating floor piece of application the third heat conduction member of the present utility model;

Figure 14 is that Figure 13 removes for the schematic diagram behind the corresponding plug of heat conduction member;

Figure 15 is the schematic diagram of the architectural surface among Figure 13;

Figure 16 is the schematic diagram of the sub-body among Figure 13;

Figure 17 is the schematic top plan view from Figure 16;

Figure 18 is the schematic perspective view of the third heat conduction member among Figure 14;

Figure 19 is the schematic perspective view of the heat conduction member among Figure 18;

Figure 20 is the schematic rear view of the front plug that is used for heat conduction member among Figure 13;

The schematic diagram of Figure 21 when observing to the right from the left of Figure 20;

The schematic diagram of Figure 22 when observing downwards from the top of Figure 20;

Figure 23 is the schematic diagram of the rear plug that is used for heat conduction member among Figure 13;

The schematic diagram of Figure 24 when observing to the right from the left of Figure 23;

The schematic diagram of Figure 25 when observing downwards from the top of Figure 23;

Figure 26 is for observing the schematic diagram after the second integrated water heating floor piece Figure 13 removes architectural surface downwards from the top of Figure 13;

Figure 27 is the schematic perspective view of the 4th kind of heat conduction member in the second integrated water heating floor piece;

Figure 28 is from the A of Figure 27 schematic diagram when observing;

Figure 29 is the schematic rear view of the front plug of the heat conduction member among Figure 28;

The schematic diagram of Figure 30 when observing to the right from the left of Figure 29;

The schematic diagram of Figure 31 when observing downwards from the top of Figure 29;

Figure 32 is the schematic diagram of the rear plug of the heat conduction member among Figure 28;

The schematic diagram of Figure 33 when observing to the right from the left of Figure 32;

The schematic diagram of Figure 34 when observing downwards from the top of Figure 32;

Figure 35 is the schematic perspective view of the 5th kind of heat conduction member in the second integrated water heating floor piece;

Figure 36 is from the B of Figure 35 schematic diagram when observing;

Figure 37 is the schematic rear view of the front plug of the heat conduction member among Figure 36;

The schematic diagram of Figure 38 when observing to the right from the left of Figure 37;

The schematic diagram of Figure 39 when observing downwards from the top of Figure 37;

Figure 40 is the schematic diagram of the rear plug of the heat conduction member among Figure 37;

The schematic diagram of Figure 41 when observing to the right from the left of Figure 40;

The schematic diagram of Figure 42 when observing downwards from the top of Figure 40;

Figure 43 is the schematic perspective view of the expansion sleeve of the coupling assembling of the hot-water heating floor system of application integrated water heating floor piece of the present utility model;

Figure 44 is from the C of Figure 43 schematic diagram when observing;

The schematic diagram of Figure 45 when observing to the right from the left of Figure 44;

Figure 46 is the cross-sectional schematic of Figure 45;

Figure 47 is the schematic perspective view of straight line tube of coupling assembling of the hot-water heating floor system of integrated water heating floor piece of the present utility model;

Figure 48 is the cross-sectional schematic of Figure 47;

Figure 49 is the schematic diagram of the expansion sleeve among straight line tube shown in Figure 48 Figure 46 identical with two when being combined together;

Figure 50 is the schematic diagram of crooked tube of coupling assembling of the hot-water heating floor system of integrated water heating floor piece of the present utility model;

Figure 51 is the structural representation that coupling assembling connects two adjacent integrated water heating floor pieces of front and back;

Figure 52 is the schematic diagram of the hot-water heating floor system of the simple technique of painting, and institute's apparent direction is the schematic top plan view that paves behind the hot-water heating floor system.

Mark in the above-mentioned accompanying drawing is as follows:

Integrated water heating floor piece 1,

Architectural surface 11, locating slot 11-1, left locating slot 11-1a, right locating slot 11-1b,

Sub-body 12, plugging position 12-1, front side inserting groove 12-1-1, left groove section 12-1-1a, right groove section 12-1-1b, right side inserting groove 12-1-2, rear side grafting tenon 12-1-3, left tenon section 12-1-3a, right tenon section 12-1-3b, left side grafting tenon 12-1-4, mounting groove 12-2, the 12-2-1 of tube seat section, the 12-2-2 of board slot section, left plate slot part 12-2-2a, right plate slot part 12-2-2b

Heat conduction member 13, pipe section 13-1, radiating part 13-2, left side radiating part 13-2a, right side radiating part 13-2b, body 13-2-1, location division 13-3, left location division 13-3a, right location division 13-3b, equal hot hole 13-4, left side equal hot hole group 13-4a, right side equal hot hole group 13-4b

Plug 14, front plug 14-1, the first 14-1-1 of cover plate section, the first Plug Division 14-1-2, tongue-and-groove 14-1-3, rear plug 14-2, the second 14-2-1 of cover plate section, the second Plug Division 14-2-2, tenon 14-2-3,

Coupling assembling 2, expansion sleeve 21, main part 21-1, the first ladder 21-1-1, the second ladder 21-1-2, sealed batten 21-1-3, stop part 21-2,

Straight line tube 22, corrugated part 22-1, the first body 22-2, the second body 22-3,

Crooked tube 23, corrugated part 23-1,

Floorboard 10, floorboard 20, floorboard 30, floorboard 40, floorboard 50, floor 60, floorboard 70, floorboard 80a, floorboard 80b, floorboard 80c,

Heat source system 100, the first pipeline 100-1, the second pipeline 100-2,

Door 200.

The specific embodiment

Description of the present utility model orientation is described according to concrete orientation shown in Figure 1, orientation, the left and right sides shown in Figure 1 left and right directions (also being the bond length direction on floor) for describing, the fore-and-aft direction (also be the long edge lengths direction on floor) of the lower upper position of Fig. 1 for describing, one side of Graph-Oriented 1 is the top, a side who deviates from Fig. 1 is the below, be called the inboard with the side near the center, floor, be called the outside with the side away from the center, floor.

(embodiment 1, heat conduction member)

See Fig. 9 and Figure 10, the integral piece that heat conduction member 13 is made for metal material perhaps is glass fiber reinforced plastic shapes, or the extruded profile made of the plastics take macromolecular material as main component, and present embodiment is aluminium alloy extrusions.Heat conduction member 13 comprises pipe section 13-1, radiating part 13-2 and location division 13-3.Pipe section 13-1 is along front and back to the linear pipeline that arranges, and all is coated with anticorrosive paint on the inner-walls of duct of pipe section 13-1; Radiating part 13-2 integral body is tabular, and radiating part 13-2 is the position of directly dispelling the heat.Radiating part 13-2 is connected on the pipe section 13-1 from the top.Location division 13-3 has 2, lays respectively on the left and right sides, top of radiating part 13-2.Each location division 13-3 is divided into left location division 13-3a and right location division 13-3b by the difference of its position, residing left and right sides.

(embodiment 2, heat conduction member)

See Figure 11, the present embodiment remainder is identical with embodiment 1, and heat conduction member 13 still is aluminium alloy extrusions, and its difference is: heat conduction member 13 also is provided with all through holes of the upward and downward of hot hole 13-4 of conduct at its radiating part 13-2.Each equal hot hole 13-4 is symmetricly set on the left and right sides of radiating part 13-2 and forms left side all hot hole group 13-4a and right side equal hot hole group 13-4b with respect to the vertical guide through pipe section 13-1 axis.Equal hot hole 13-4 in each equal hot hole group is arranged to different row at left and right directions each other, the equal hot hole 13-4 of each of every row is again along front and back to uniformly-spaced arranging, and the aperture of the equal hot hole 13-4 of same row equates, between the equal hot hole 13-4 of adjacent column, the aperture of the equal hot hole 13-4 that is listed as to the inside about being positioned at is greater than the aperture of the equal hot hole 13-4 that is listed as laterally about being positioned at.

(embodiment 3, heat conduction member)

See Figure 13 to Figure 16, the present embodiment remainder is identical with embodiment 1, and heat conduction member 13 still is aluminium alloy extrusions, and its difference is: the heat conduction member 13 of present embodiment also is furnished with corresponding plug 14 and following different technical characterictic.

See Figure 18 and Figure 19, the radiating part 13-2 of heat conduction member 13 is divided into 2 heat radiation positions, lays respectively at the left and right sides of pipe section 13-1.The planform at 2 heat radiation positions is identical, and 2 heat radiation positions are divided into left side radiating part 13-2a and right side radiating part 13-2b by the difference of its position, residing left and right sides.2 heat radiation positions all are square tube type, and these 2 heat radiation positions are heat build-up heat radiation position, be placed with phase change heat storage material in these 2 heat build-up heat radiation positions, phase change heat storage material is that the model of Beijing WS PCM Technology Co., Ltd. is the organic phase change material of MG26 in the present embodiment.All preferably be coated with anticorrosive paint on the inner-walls of duct of left side radiating part 13-2a and right side radiating part 13-2b.The left location division 13-3a of heat conduction member 13 is positioned at the upside left part of left side radiating part 13-2a, and right location division 13-3b is positioned at the upside right part of right side radiating part 13-2b.The outer diameter tube of the pipe section 13-1 of heat conduction member 13 less than the upper surface of radiating part 13-2 to 0.5 millimeter to 2 millimeters of the distance between the lower surface (present embodiment is 1 millimeter).

See Figure 20 to Figure 26, plug 14 has 2 groups, and every group has 2.Every group of plug 14 is corresponding with a corresponding radiating part 13-2.2 plugs 14 of every group are divided into front plug 14-1 and rear plug 14-2 by the difference of its residing front and back position.Front plug 14-1 and rear plug 14-2 are the plastics integral piece.

Each front plug 14-1 comprises the first 14-1-1 of cover plate section and is connected to the first Plug Division 14-1-2 on the first 14-1-1 of cover plate section from the rear.Front plug 14-1 also its first cover plate 14-1-1 of section be provided with about perforation and opening towards the tongue-and-groove 14-1-3 in the place ahead.Wherein, the cross-sectional shape profile of the left side radiating part 13-2a of the circumferential profile of the first 14-1-1 of cover plate section of front plug 14-1 and heat conduction member 13 or right side radiating part 13-2b is corresponding; The appearance profile of the first Plug Division 14-1-2 of front plug 14-1 is corresponding with the inboard profile at the front end position of left side radiating part 13-2a or right side radiating part 13-2b; Each front plug 14-1 is pegged graft in the front end position of the left side radiating part 13-2a be fixed on heat conduction member 13 or right side radiating part 13-2b by its first Plug Division 14-1-2, and forms interference fit.Plug 14-2 comprises the second 14-2-1 of cover plate section, is connected to the second Plug Division 14-2-2 on the second 14-2-1 of cover plate section from the place ahead and is connected to tenon 14-2-3 on the second 14-2-1 of cover plate section from the rear after each.Wherein, the cross-sectional shape profile of the left side radiating part 13-2a of the circumferential profile of the second 14-2-1 of cover plate section of rear plug 14-2 and heat conduction member 13 or right side radiating part 13-2b is corresponding; The appearance profile of the second Plug Division 14-2-2 of rear plug 14-2 is corresponding with the inboard profile at the position, rear end of left side radiating part 13-2a or right side radiating part 13-2b; Being pegged graft in the position, rear end of the left side radiating part 13-2a that is fixed on heat conduction member 13 or right side radiating part 13-2b by its second Plug Division 14-2-2 of plug 14-2 after each, and form interference fit.

Each plug 14 in the present embodiment all plays the effect of airtight obstruction heat conduction member 13.

(embodiment 4, heat conduction member)

See Figure 27 to Figure 34, the present embodiment remainder is identical with embodiment 3, heat conduction member 13 still is aluminium alloy extrusions, its difference is: all be connected with the body 13-2-1 that the cross section is oval shape on the inwall of the radiating part 13-2 of 2 square tube types of heat conduction member 13, the body 13-2-1 of this oval shape also is the part of aluminium alloy extrusions.Phase change heat storage material is arranged among the oval shape body 13-2-1 of each radiating part 13-2.The appearance profile of the first Plug Division 14-1-2 of front plug 14-1 is corresponding with the inboard profile at the front end position of the oval shape body 13-2-1 of radiating part 13-2; The appearance profile of the second Plug Division 14-2-2 of rear plug 14-2 is corresponding with the inboard profile at the position, rear end of the oval shape body 13-2-1 of radiating part 13-2.

(embodiment 5, heat conduction member)

See Figure 35 to Figure 42, the present embodiment remainder is identical with embodiment 3, heat conduction member 13 still is aluminium alloy extrusions, its difference is: all be connected with 2 to 5 (present embodiment is 3) rounded body 13-2-1 in cross section side by side on the inwall of the radiating part 13-2 of 2 square tube types of heat conduction member 13, the body 13-2-1 of this circle side by side also is the part of aluminium alloy extrusions.Phase change heat storage material is arranged among the body 13-2-1 of circle side by side of each radiating part 13-2.The appearance profile of the first Plug Division 14-1-2 of front plug 14-1 is corresponding with the inboard profile at the front end position of the body 13-2-1 of 3 circles of radiating part 13-2; The appearance profile of the second Plug Division 14-2-2 of rear plug 14-2 is corresponding with the inboard profile at the position, rear end of the body cavity 13-2-1 of 3 circles of radiating part 13-2.

(application examples 1, integrated water heating floor piece)

See Fig. 1 and Fig. 2, integrated water heating floor piece 1(of the present utility model is hereinafter to be referred as floorboard 1) totally be flat-shaped cuboid, comprise architectural surface 11, sub-body 12 and heat conduction member.Heat conduction member adopts embodiment 1 described heat conduction member 13.

See Fig. 3, the integral piece that architectural surface 11 is made for wood materials.The basic configuration of architectural surface 11 is tabular cuboid.Be respectively equipped with about the downside position of architectural surface 11 is divided along fore-and-aft direction and connect its plate body locating slot 11-1 that Open Side Down.These 2 locating slot 11-1 are divided into left locating slot 11-1a and right locating slot 11-1b by the difference of its position, residing left and right sides.Article 2, the planform of locating slot 11-1 is identical, and its cross section is all rectangular.These 2 locating slot 11-1 are used for the location to architectural surface 11.

See Fig. 4 and Fig. 5, sub-body 12 wood materials that totally is flat-shaped cuboid of serving as reasons arranges the integral piece that makes behind plugging position 12-1 and the mounting groove 12-2.The plugging position 12-1 of sub-body 12 be positioned at its all around around, the plugging position 12-1 of sub-body 12 is the plugging position of floorboard 1, is used for and the grafting of other contiguous floorboard 1 all around.The mounting groove 12-2 of sub-body 12 is positioned at about it to the middle part, for fixed installation heat conduction member 13.The circumferential profile of the upper side of sub-body 12 is corresponding identical with the peripheral shape of the downside of architectural surface 11.

See Fig. 5, the mounting groove 12-2 integral body of sub-body 12 is T-shaped, comprises the 12-2-1 of tube seat section and 2 12-2-2 of board slot section.2 12-2-2 of board slot section are called left plate slot part 12-2-2a and right plate slot part 12-2-2b according to the difference of position, the residing left and right sides.The cross section of the 12-2-1 of tube seat section is rectangle and substantially is square, and the 12-2-1 of tube seat section about to length be slightly less than the length of its upward and downward; The 12-2-1 of tube seat section be positioned at sub-body 12 about to the middle part; The 12-2-1 of tube seat section runs through sub-body 12 front and back and opening upwards along front and back to setting; The bottom land of the 12-2-1 of tube seat section is positioned at the middle and lower part of sub-body 12, and the length of the upward and downward of the 12-2-1 of tube seat section be sub-body 12 upward and downward length 1/2 to 3/4(should use-case be 2/3), about the 12-2-1 of tube seat section to length be sub-body 12 about to 1/10 to 1/8(of length should use-case be 1/9).Left plate slot part 12-2-2a is arranged on the left part on the top of sub-body 12, be one along front and back to arranging, run through sub-body 12 front and back, being connected with the top of the 12-2-1 of tube seat section and towards the breach of top from left.Right plate slot part 12-2-2b is arranged on the right part on the top of sub-body 12, be one along front and back to arranging, run through sub-body 12 front and back, being connected from right-hand top with the 12-2-1 of tube seat section and towards the breach of top.

See Fig. 4 to Fig. 8, the plugging position 12-1 of sub-body 12 is positioned at the right side inserting groove 12-1-2 on right side by the front side inserting groove 12-1-1 that is positioned at the front side, and the rear side grafting tenon 12-1-3 that is positioned at rear side forms with the left side grafting tenon 12-1-4 that is positioned at the left side.Front side inserting groove 12-1-1 is 2 groove sections that arrange along left and right directions, also be front side inserting groove 12-1-1 2 groove sections about the 12-2-1 of tube seat section of mounting groove 12-2 is divided into, be followed successively by left groove section 12-1-1a and right groove section 12-1-1b, and front side inserting groove 12-1-1 is the position that the rear side grafting tenon of the integrated water heating floor piece (hereinafter to be referred as the same structure floorboard) of same structure that can be adjacent with the front side when using is mutually pegged graft and cooperated.Right side inserting groove 12-1-2 is the groove that arranges continuously along fore-and-aft direction, and right side inserting groove 12-1-2 is the appropriate section of the left side grafting tenon of same structure floorboard that can be adjacent with the right side when the using position that cooperates (usually and 2 same structure floorboard that are positioned at the right side mutually peg graft) of mutually pegging graft.Rear side grafting tenon 12-1-3 is to 2 tenon sections that arrange about the edge, also be rear side grafting tenon 12-1-3 2 tenon sections about the 12-2-1 of tube seat section of mounting groove 12-2 is divided into, be followed successively by left tenon section 12-1-3a and right tenon section 12-1-3b, and rear side grafting tenon 12-1-3 is the position that can mutually peg graft and cooperate with the front side inserting groove of adjacent same structure floorboard when using.Left side grafting tenon 12-1-4 be the logical tenon that arranges continuously along fore-and-aft direction, and left side grafting tenon 12-1-4 be when using can with the appropriate section of the right side inserting groove of the adjacent same structure floorboard position that cooperates (usually and 2 same structure floorboard on the left of being positioned at mutually peg graft) of mutually pegging graft.

See Fig. 9 and Figure 10, about the 12-2-1 of tube seat section of the outer diameter tube of the pipe section 13-1 of heat conduction member 13 and the mounting groove 12-2 of sub-body 12 to length match, and be slightly less than 0.5 millimeter to 2 millimeters of the length (should use-case be 1 millimeter) of the upward and downward of the 12-2-1 of tube seat section.Left location division 13-3a matches with the left locating slot 11-1a of architectural surface 11, and right location division 13-3b matches with the right locating slot 11-1b of architectural surface 11.

See Fig. 2, Fig. 5 and Figure 12, the pipe section 13-1 of heat conduction member 13 is arranged in the 12-2-1 of tube seat section of the mounting groove 12-2 of sub-body 12, heat conduction member 13 is bonded and fixed among the left plate slot part 12-2-2a of mounting groove 12-2 of sub-body 12 by corresponding resin glue from the top down by the left part of its radiating part 13-2, is bonded and fixed among the right plate slot part 12-2-2b of mounting groove 12-2 of sub-body 12 by corresponding resin glue from the top down by the right part of its radiating part 13-2.Architectural surface 11 is bonded and fixed on the corresponding site of upper side of sub-body 12 by corresponding resin glue and on the upper side of the radiating part 13-2 of heat conduction member 13 from the top down, and the left location division 13-3a of heat conduction member 13 and right location division 13-3b lay respectively among the left locating slot 11-1a and right locating slot 11-1b of corresponding architectural surface 11.Between the rear side bottom land of the front side inserting groove 12-1-1 of the front end of heat conduction member 13 and sub-body 12 is 1 millimeter to 5 millimeters (should use-case be 2 millimeters) apart from a; Corresponding apart from a between the rear side bottom land of the front side inserting groove 12-1-1 of the distance b between the front side root of the rear end of heat conduction member 13 and the rear side grafting tenon 12-1-3 of sub-body 12 and the front end of heat conduction member 13 and sub-body 12, distance b are 1 millimeter to 5 millimeters (should use-case be 2 millimeters).

(application examples 2, integrated water heating floor piece)

Should use-case all the other are identical with application examples 1, its difference is: the length of the fore-and-aft direction of floorboard 1 that should use-case is half of length of fore-and-aft direction of the floorboard 1 of application examples 1.

(application examples 3, integrated water heating floor piece)

See Figure 13 to Figure 16, should the use-case remainder identical with application examples 1, its difference be: should use-case adopt embodiment 3 resulting heat conduction members 13 and accordingly plug 14 and following different technical characterictic.

See Figure 16 and Figure 17, the cross section integral body of the mounting groove 12-2 of sub-body 12 is rectangular.Mounting groove 12-2 be positioned at sub-body 12 about to the middle part; Mounting groove 12-2 runs through sub-body 12 front and back and opening upwards along front and back to setting.About 12-2 to the mounting groove of the length of a left lower portion of the body 12 to the length of 1/2 to 4/5 (the lower body 12 to the length does not include the right and left protruding tenon portion including the plug), the installation groove 12 -2 down to the length of a lower body 12 to the length of the upper and lower 1/2 to 3/4 (in this application example is 2/3), so that the lower part of this application example in the front side of the plug body 12 groove 12 -1-1 segment of the left channel 12-1-1a and the right channel section 12-1-1b of the left-right length in application Example 1 were significantly higher than the front side of the left insertion grooves groove section 12-1-1 12 - 1-1a and the right channel section 12-1-1b of the left-right length should be short, and that this application example of the lower body 12 in the left rear side of the insertion tongue and mortise section 12-1-3 12-1-3a and Right tongue section 12-1-3b of the left-right length of application Example 1 were significantly higher than in the lower portion of the body 12 of the left rear side of the insertion tongue and mortise section 12-1-3 12-1-3a and right tenon section 12-1 the left-3b to be shorter in length.

See Figure 20 to Figure 26, the tongue-and-groove 14-1-3 of 2 front plug 14-1 is corresponding with the front side inserting groove 12-1-1 of sub-body 12, and has jointly consisted of the front side inserting groove of floorboard 1 with the front side inserting groove 12-1-1 of sub-body 12.

The tenon 14-1-3 of plug 14-2 is corresponding with the rear side grafting tenon 12-1-3 of sub-body 12 after 2, and has jointly consisted of the rear side grafting tenon of floorboard 1 with the rear side grafting tenon 12-1-3 of sub-body 12.

2 front plug 14-1 in should use-case also play the effect that jointly consists of the front side inserting groove of floorboard 1 with the front side inserting groove 12-1-1 of sub-body 12, and plug 14-2 also plays the effect that jointly consists of the rear side grafting tenon of floorboard 1 with the rear side grafting tenon 12-1-3 of sub-body 12 after 2.

(application examples 4, hot-water heating floor system)

Description orientation that should use-case is described according to the orientation shown in Figure 52, the rear of the left of Figure 52 for describing, right-hand the place ahead for describing of Figure 52, the left of the below of Figure 52 for describing, the top of Figure 52 is right-hand for what describe, side towards Figure 52 is the top, and a side who deviates from Figure 52 is the below.

See Figure 52, hot-water heating floor system that should use-case comprises integrated water heating floor piece 1, coupling assembling 2, heat-insulation layer and support rack.The paving mode that adopts application examples 1 and application examples 2 described floorboard 1 to combine when integrated water heating floor system that should use-case lays.Hot-water heating floor system that should use-case also is furnished with corresponding heat source system 100.

Heat-insulation layer is the extrusion moulding type polystyrene heat insulating board.The extrusion moulding type polystyrene heat insulating board is the supplementary material and the poly-thing that contains that adds other take polystyrene resin as raw material, mix simultaneously injecting catalyst by heating, then extrusion molding extrusion molding and the rigid foam plate made, its formal name used at school is extrusion molding polystyrene polyfoam for heat insulation (being called for short XPS).The length of the upward and downward of heat-insulation layer is 5 millimeters to 8 millimeters, should use-case be 6 millimeters.

Supporting rack is the plastics integral piece.Support rack and comprise connection network and support column.Support column is up big and down small round platform, and the length of the upward and downward of support column is 4 millimeters to 7 millimeters, and this application is 4.5 millimeters.Connection network is latticed plastic wire.Each node downside of connection network is equipped with 1 support column.The external diameter of a circle of the mesh of connection network is 40 millimeters to 60 millimeters, should use-case be 50 millimeters.

See Figure 43, Figure 47 and Figure 50, coupling assembling 2 comprises expansion sleeve 21, straight line tube 22 and crooked tube 23.

See Figure 43 to Figure 46 and Figure 49, expansion sleeve 21 is the quality of rubber materials integral piece.Expansion sleeve 21 comprises main part 21-1 and stop part 21-2.Main part 21-1 integral body is circle ring column.The diameter of the inwall of main part 21-1 is diminishing stepped distribution from outside to inside on fore-and-aft direction, smoothly arrange between each ladder, and the inwall of main part 21-1 is provided with 1 to 4 ladder (should use-case be 2), and 2 ladders are called the first ladder 21-1-1 and the second ladder 21-1-2 successively according to from outside to inside order on fore-and-aft direction.The diameter of the outer wall of the main part 21-1 of expansion sleeve 21 matches with the internal diameter of the pipe section 13-1 of the heat conduction member 13 of floorboard 1, and the outer wall of main part 21-1 be provided with the sealed batten 21-1-3(of 1 to 6 annular should use-case be 3), 3 sealed batten 21-1-3 upwards set gradually from outside to inside in front and back.Stop part 21-2 is connected on the sagittal outer end of main part 21-1.

See Figure 47 to Figure 49, straight line tube 22 is the metal material integral piece, should the preferred metal material of use-case be stainless steel.Straight line tube 22 is totally linearly, by consisting of from rear extremely front the first body 22-2, the 22-1 of bellows section and the second body 22-3 that links to each other successively.Half of the sagittal length of the 22-1 of bellows section add front end that the sagittal length of the stop part 21-2 of expansion sleeve 21 equals heat conduction member 13 substantially between the rear side bottom land of the front side inserting groove 12-1-1 of sub-body 12 apart from a.The external diameter of the first body 22-2 of straight line tube 22 is along being the stepped distribution that increases gradually from backward front direction, smoothly arrange between each ladder, the external diameter of the second body 22-3 of straight line tube 22 is the stepped distribution that reduces gradually along the direction before backward, and the second body 22-3 and the first body 22-2 are with respect to being symmetrical arranged through bellows section 22-1 place vertical guide front and back.The number of the ladder on the outer wall of the first body 22-2 of straight line tube 22 is that the quantity of the ladder on the inwall of expansion sleeve 21 cuts 1.The first body 22-2 of straight line tube 22 by the external diameter of each step portion before backward respectively with the inwall of expansion sleeve 21 on the corresponding cooperation of internal diameter of each ladder of rising of second ladder by before backward.

See Figure 50, crooked tube 23 is the metal material integral piece, should the preferred metal material of use-case be stainless steel.The second tube 23 integral body are " U " shape, structure and the straight line tube 22 of crooked tube 23 are basic identical, and crooked tube 23 serve as reasons long and members straight line tube 22 basic identical structures with its two ends forward bending 90 degree obtain, and the distance between two terminations of " U " shape of crooked tube 23 equals the length of the short side direction (also being the left and right directions of base plate piece 1) of floorboard 1, and the 23-1 of bellows section of crooked tube 23 has 3.

See Figure 51 and Figure 52, when hot-water heating floor system that should use-case was laid, according to from front to back, order was from left to right laid, step following (only drawing part signal among Figure 52):

1. lay one deck extrusion moulding type polystyrene heat insulating board as heat-insulation layer on the ground in room, lay one deck at heat-insulation layer again and support rack.Again floorboard 10 is laid on and supports on the rack.

2. floorboard 10 is laid on the anterior position near door 200, left side in room, makes its front end and door 200 skies open the distance of one section row pipeline, this distance is 20 centimetres to 40 centimetres (should use-case be 30 centimetres).Floorboard 10 adopts application examples 1 described floorboard 1.1 expansion sleeve 21 is inserted from front to back by its main part 21-1 in the front end position of pipe section 13-1 of heat conduction member 13 of floorboard 10, and the trailing flank of the stop part 21-2 of expansion sleeve 21 contacts with the front end face of heat conduction member 13.The straight line tube 22 that then will be called the first tube is inserted in the expansion sleeve 21 from front to back by its first body 22-2, thereby make this first tube 22 the first body 22-2 outer wall each step portion respectively with the inwall of expansion sleeve 21 on corresponding step portion form interference fit, also simultaneously with each the sealed batten 21-1-3 on the outer wall of expansion sleeve 21 along on the inwall at the front end position of the pipe section 13-1 that circumferentially from inside to outside holds out against at the heat conduction member 13 of floorboard 10, thereby form between the first tube 22 and the expansion sleeve 21 and the front end position of expansion sleeve 21 and the pipe section 13-1 of the heat conduction member 13 of floorboard 10 between the airtight of elastic compression mode be fixedly connected with, also so that the first tube 22 be connected with the front end of the pipe section 13-1 of the heat conduction member 13 of floorboard 10.Then with another expansion sleeve 21 with the rear port of the second body 22-3 of the first tube 22 and the first pipeline 100-1 that is positioned at the place ahead that is connected in thermal source 100 also with airtight being fixedly connected with of mode of elastic compression, also so that the first tube 22 be connected with the rear port of the first pipeline 100-1.The first pipeline 100-1 then is fixedly connected with and is interconnected by its front port and the circulating hot water delivery outlet of thermal source 100 are airtight.

3. splicing floor block with tongue and groove 20, and floorboard 20 adopts application examples 1 described floorboard 1.First with corresponding 1 expansion sleeve 21 by its main part 21-1 from the position, rear end of the pipe section 13-1 of the heat conduction member 13 on backward front insertion floor 10, and the leading flank of the stop part 21-2 of expansion sleeve 21 contacts with the rear end face of heat conduction member 13.A straight line tube 22 that then will be called the second tube by its second body 22-3 from the above-mentioned expansion sleeve 21 of backward front insertion, and the leading flank of the 22-1 of bellows section of this second tube 22 contacts with the trailing flank of the stop part 21-2 of expansion sleeve 21, thereby make the second tube 22 the second body 22-3 outer wall each step portion respectively with the inwall of expansion sleeve 21 on corresponding step portion form interference fit, also simultaneously with each the sealed batten 21-1-3 on the outer wall of expansion sleeve 21 along on the inwall at the position, rear end of the pipe section 13-1 that circumferentially from inside to outside holds out against at the heat conduction member 13 of floorboard 10, thereby form between the second tube 22 and the expansion sleeve 21 and the position, rear end of expansion sleeve 21 and the pipe section 13-1 of the heat conduction member 13 of floorboard 10 between the airtight of elastic compression mode be fixedly connected with, also so that the second tube 22 be connected with the rear end of the pipe section 13-1 of the heat conduction member 13 of floorboard 10.Then another expansion sleeve 21 is inserted from front to back by its main part 21-1 in the front end position of pipe section 13-1 of heat conduction member 13 of floorboard 20, and the trailing flank of the stop part 21-2 of expansion sleeve 21 contacts with the front end face of the heat conduction member 13 of floorboard 20.Floorboard 20 edges are pushed hard to floorboard 10 from backward front direction, make the first body 22-2 of the second tube 22 insert the expansion sleeve 21 at front end position of the pipe section 13-1 of the heat conduction member 13 be arranged in floorboard 20, and the trailing flank of the 22-1 of bellows section of the second tube 22 contact with the leading flank of the stop part 21-2 of expansion sleeve 21.Side by side plate 20 forms mutual grafting by its front side inserting groove 12-1-1 with the rear side grafting tenon 12-1-3 of floorboard 10 and cooperates, thereby finishes airtight fixedly connection between adjacent 2 floor panels 20 on the floorboard long side direction, 10 heat conduction member 13 and the mutual grafting between the floorboard 20,10.This moment floorboard 20 the rear end to the distance between the front side of the metope of rear side in room greater than 5 centimetres, and less than sagittal length and 5 centimetres of sums on the floor of application examples 2.

4. lay the floorboard 30 that is positioned at floorboard 10 right sides, floorboard 30 adopts application examples 2 described floorboard 1.Floorboard 30 is mutually pegged graft with the sagittal front portion of the right side inserting groove 12-1-2 of floorboard 10 by its left side grafting tenon 12-1-4 and is cooperated.

5. splicing floor block with tongue and groove 40, and floorboard 40 adopts application examples 1 described floorboard 1.First floorboard 40 is pegged graft mutually by the sagittal front portion of the right side inserting groove 12-1-2 of the sagittal rear portion of its left side grafting tenon 12-1-4 and the right side inserting groove 12-1-2 of adjacent corresponding floorboard 10 and floorboard 20 and cooperate.Then with the similar installation method of step in 3., airtight being fixedly connected with and mutual being communicated with that the heat conduction member 13 front end positions of finishing floor 40 with a straight line tube 22 that is called the 3rd tube and 2 expansion sleeves 21 and the position, rear end of the heat conduction member 13 of floorboard 30 are mutual, and so that upwards mutually peg graft in front and back by corresponding plugging position between 2 floor panels 40,30.

6. splicing floor block with tongue and groove 50, and floorboard 50 adopts application examples 2 described floorboard 1.Mutually peg graft and cooperate in the sagittal rear portion of the right side inserting groove 12-1-2 of and corresponding floorboard 20 of adjacent 12-1-4 by its left side grafting tenon with floorboard 50 first, then with the similar installation method of step in 3., finish mutual airtight being fixedly connected with and mutual being communicated with in front end position and the position, rear end of the heat conduction member 13 on floor 40 of the heat conduction member 13 on floor 50 with a straight line tube 22 that is called the 4th tube and 2 expansion sleeves 21, and so that upwards mutually peg graft in front and back by corresponding plugging position between 2 floor panels 50,40.

7. constantly repeat above-mentioned steps 3. to step process 6., until finish the laying of the floorboard 1 in whole room.

8. adopt with the above-mentioned similar method in 3. of step 1 crooked tube 23 and 2 expansion sleeves 21 as one group of connecting elements, the floorboard that is positioned at the position, rear end 1 of the even column of the floorboard that is positioned at the position, rear end 1 of odd column and the number large 1 that is adjacent is divided into 1 group of floorboard, is finished mutual airtight being fixedly connected with and mutual connection that belongs to the position, rear end of the heat conduction member 13 of 1 group 2 floor panels 1 by corresponding 1 group of connecting elements.Also the floorboard that is positioned at front end 1 with the odd column of the floorboard that is positioned at the front end position 1 of even column and the number large 1 that is adjacent is divided into 1 group of floorboard, is finished mutual airtight being fixedly connected with and mutual connection that belongs to the front end position of the heat conduction member 13 of 1 group 2 floor panels 1 by corresponding 1 group of connecting elements.For example, floorboard 20 consists of the 1 group of floorboard that is positioned at the position, rear end with floorboard 50, and floorboard 30 consists of the 1 group of floorboard that is positioned at the front end position with floorboard 60, and floorboard 70 consists of the 1 group of floorboard that is positioned at the position, rear end with floorboard 80a.

9. with the front end position of the pipe section 13-1 of the heat conduction member 13 of the floorboard 80c that is arranged in front end of last 1 row by 2 expansion sleeves 21 and 1 straight line tube 22 according to step 2. similarly the method front end position of pipe section 13-1 of finishing the heat conduction member 13 of floorboard 100 be fixedly connected with and mutual being communicated with the airtight of rear port of the second pipeline 100-2 that is positioned at the place ahead that is connected in thermal source 100, the second pipeline 100-2 is then reclaimed by the circulating hot water of its front port and thermal source 100 and mouthful airtight be fixedly connected with and be interconnected, thereby forms the loop of thermal liquid (circulating hot water).

10. the part of corresponding not installing floor board adopts common floor to lay around the room, finally finishes the laying on the floor in whole room.

When native system uses, export hot water by thermal source 100 by its circulating hot water delivery outlet, provide power to send in the hot-water heating floor system by the heat-exchanger pump (not shown in FIG.) that is arranged on the first pipeline 100-1 again, hot water flows through pipe section 13-1 and the corresponding expansion sleeve 21 of the heat conduction member 13 of each floorboard 1 successively, in the heat supplying pipeline that straight line tube 22 and crooked tube 23 form, the heat of circulating hot water passes to architectural surface 11 by the radiating part 13-2 of the heat conduction member 13 in each floor, be discharged in the room by architectural surface 11 again, circulating hot water behind the thermal release flows back to again heating in the heat source system 100 by the second pipeline 100-2, constantly circulate, so that floorboard 1 reaches the purpose of heating constantly to indoor distribute heat.

More than all embodiment and application examples only for illustration of the utility model; but not to restriction of the present utility model; person skilled in the relevant technique is in the situation that does not break away from spirit and scope of the present utility model; can also make various conversion and variation; can also transform accordingly according to the inspiration of above-mentioned all embodiment and application examples in the concrete application process, so all technical schemes that are equal to all should be included within the scope of patent protection of the present utility model.

Claims (7)

1. heat conduction member, it is characterized in that: the integral piece that heat conduction member (13) is made for metal material perhaps is glass fiber reinforced plastic shapes; Heat conduction member (13) comprises pipe section (13-1) and radiating part (13-2); Pipe section (13-1) is to the linear pipeline that arranges along front and back; Radiating part (13-2) links to each other with pipe section (13-1).

2. heat conduction member according to claim 1 is characterized in that: also comprise location division (13-3); Heat conduction member (13) is aluminium alloy extrusions; All be coated with anticorrosive paint on the inner-walls of duct of pipe section (13-1); Location division (13-3) has 2, lays respectively on the left and right sides, top of radiating part (13-2); Each location division (13-3) is divided into left location division (13-3a) and right location division (13-3b) by the difference of its position, residing left and right sides.

3. heat conduction member according to claim 2, it is characterized in that: radiating part (13-2) integral body is tabular, and radiating part (13-2) is direct heat radiation position; Radiating part (13-2) is connected on the pipe section (13-1) from the top.

4. heat conduction member according to claim 3 is characterized in that: heat conduction member (13) also is provided with as equal through holes of the upward and downward of hot hole (13-4) at its radiating part (13-2); Each equal hot hole (13-4) is symmetricly set on the left and right sides of radiating part (13-2) and forms left side all hot hole group (13-4a) and the equal hot hole group in right side (13-4b) with respect to the vertical guide through pipe section (13-1) axis; Equal hot hole (13-4) in each equal hot hole group is arranged to different row at left and right directions each other, the equal hot hole of each of every row (13-4) is again along front and back to uniformly-spaced arranging, and the aperture of the equal hot hole (13-4) of same row equates, between the equal hot hole (13-4) of adjacent column, the aperture of the equal hot hole (13-4) that is listed as to the inside about being positioned at is greater than the aperture of the equal hot hole (13-4) that is listed as laterally about being positioned at.

5. heat conduction member according to claim 2 is characterized in that: the radiating part (13-2) of heat conduction member (13) is divided into 2 heat radiation positions, lays respectively at the left and right sides of pipe section (13-1); The planform at 2 heat radiation positions is identical, and 2 heat radiation positions are divided into left side radiating part (13-2a) and right side radiating part (13-2b) by the difference of its position, residing left and right sides; 2 heat radiation positions all are square tube type; The left location division (13-3a) of heat conduction member (13) is positioned at the upside left part of left side radiating part (13-2a), and right location division (13-3b) is positioned at the upside right part of right side radiating part (13-2b); The outer diameter tube of the pipe section (13-1) of heat conduction member (13) less than the upper surface of radiating part (13-2) to 0.5 millimeter to 2 millimeters of the distance between the lower surface.

6. heat conduction member according to claim 5, it is characterized in that: all be connected with the body (13-2-1) that the cross section is oval shape on the inwall of the radiating part (13-2) of 2 square tube types of heat conduction member (13), the body of this oval shape (13-2-1) also is the part of aluminium alloy extrusions.

7. heat conduction member according to claim 5, it is characterized in that: all be connected with 2 to 5 bodys that the cross section is rounded (13-2-1) side by side on the inwall of the radiating part (13-2) of 2 square tube types of heat conduction member (13), the body of this circle side by side (13-2-1) also is the part of aluminium alloy extrusions.

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