CN110274298B - Carbon fiber wall heat preservation device that generates heat - Google Patents

Abstract

The invention relates to a carbon fiber wall heating and heat preservation device which comprises an outer layer partition board, a wire, a heating layer, a connecting plug and a connecting socket, wherein the heating layer is arranged below the outer layer partition board, the wire is arranged on the side edge of the heating layer, one end of the wire is provided with the connecting plug, the other end of the wire is provided with the connecting socket which is matched with the connecting plug, and the connecting plug comprises a plug shell and a telescopic limiting structure which is arranged in the plug shell. The structure realizes good indoor heat preservation and heating effects, and has the advantages of low energy consumption, safe use, rapid and convenient installation mode, and stability and firmness after installation.

Description

Carbon fiber wall heat preservation device that generates heat

Technical Field

The invention relates to the technical field of decoration and heating, in particular to a carbon fiber wall heating and heat preserving device.

Background

At present, heating equipment used in families mainly comprises a series of heating equipment such as a heat pump, a heat accumulating type warmer (such as an oil heater, an electric heating water type heater and the like), an air conditioner and the like. However, the equipment has the problems of longer heating time, high energy consumption, abnormal sound and the like, and can not bring comfortable and pleasant heating experience.

The heating devices such as the air conditioner floor heating easily cause the accelerated flow of indoor air or the floor heating to rise to drive ground dust to enter the air, so that the quality of the indoor air is reduced, and the physical and mental health is affected. At present, the construction of the previous heating pipeline engineering is difficult, time-consuming and labor-consuming, and has huge defects: the temperature is reduced quickly after the power is off, the heat cannot be preserved, frequent power-on heating is needed, the replacement and maintenance cost is high, and the like.

Disclosure of Invention

In order to solve the problems in the prior art, the invention aims to provide the carbon fiber wall heating and heat preserving device convenient to install.

In order to achieve the above purpose, the present invention provides the following technical solutions:

the utility model provides a carbon fiber wall heat preservation device that generates heat, includes outer baffle, wire, layer that generates heat, connecting plug and connecting socket generate heat, outer baffle below is provided with the layer that generates heat, be provided with the wire on the layer side that generates heat, the one end of wire is provided with the connecting plug other end and is provided with the connecting socket with connecting plug looks adaptation, connecting plug includes the plug shell and sets up the flexible limit structure in the plug shell, flexible limit structure includes connecting block, locating part one, locating piece two, locating piece, elastomeric element and plug conflict portion, the connecting block sets up in plug shell upper portion, the connecting block below is provided with locating part one and locating part two, locating part one and locating part two below are provided with the locating piece, the locating part below is connected with elastomeric element, elastomeric element is connected with the conflict portion in the one end of keeping away from the locating piece, be provided with the through-hole that is used for letting locating part one and locating part two pass on the plug shell.

Preferably, the positioning block is provided with inclined side surfaces extending upwards from the side surfaces of the two sides,

preferably, the first limiting piece and the second limiting piece are positioned on the same straight line, and one end, far away from the side edge of the plug shell, of the first limiting piece and the second limiting piece is provided with an inclined surface which extends from the lower surface to the inner side surface and is matched with the inclination of the inclined side surface of the positioning block.

Preferably, the upper surfaces of the first limiting piece and the second limiting piece are tightly attached to the lower surface of the connecting block.

Preferably, the connecting socket is internally provided with a connecting part for placing the connecting plug, the connecting part comprises a containing groove for placing the connecting plug and a connecting groove contacted with the plug abutting part, the side wall of the socket is provided with a limiting hole for playing a role in buckling a limiting block, and the limiting hole is provided with limiting grooves along the extending direction of the two sides of the connecting socket.

Preferably, a positioning groove which is embedded with the upper part of the positioning block is formed in the lower part of the connecting block.

The structure realizes stable and quick installation between devices, in the process of connecting a connecting plug with a connecting socket, the plug abutting part is contacted with the connecting groove of the connecting socket, the limiting part at the moment enters the accommodating groove but does not reach the limiting hole due to the limitation of the position of the limiting part, the elastic part in the connecting plug is compressed continuously by compressing the connecting plug, the compressed elastic part can generate pressure on the first limiting part and the second limiting part above the elastic part and the plug abutting part below the elastic part, when the elastic part is compressed to a certain degree, the limiting part reaches the limiting hole of the connecting socket, and the first limiting part and the second limiting part are separated due to the pressure of the elastic part, so that the first limiting part and the second limiting part enter the limiting groove of the connecting socket through the through hole on the connecting plug and the limiting hole on the connecting plug, thereby playing the roles of connection and fixation. After fixing, as the positioning groove and the shape and the positioning block are also arranged on the connecting block, the positioning block penetrates through the first limiting piece and the second limiting piece to be embedded into the positioning groove in a fixed state, and the inclined planes of the first limiting piece and the second limiting piece, which are similar to the inclination of the positioning block, can realize smooth relative displacement between the first limiting piece, the second limiting piece and the fixing piece, so that the whole connecting process is smoother, and the connection is more stable.

Preferably, the heating layer comprises an upper insulating layer, a fiber heating layer, a lower insulating layer, an energy-gathering reflecting layer and a heat preservation layer, wherein the upper insulating layer is arranged above the fiber heating layer, the lower insulating layer is arranged below the fiber heating layer, an outer layer partition plate is arranged above the upper insulating layer, and the heat preservation layer and the energy-gathering reflecting layer are sequentially arranged on the lower insulating layer.

The fiber heating layer is used in the structure, so that the device has good heating effect, the insulating layer is arranged above and below the heating layer, the safety of the device is guaranteed, the insulating layer is arranged below the lower insulating layer, the device has better heat preservation effect, the energy-collecting reflecting layer is arranged below the insulating layer, the energy-collecting reflecting layer has good aggregation and reflection functions in the natural quantity emitted by the heating layer, and the structure of a wall body is prevented from being influenced by overhigh heat emitted.

Preferably, the fiber heating layer is connected with the lead, the fiber heating layer comprises conductive wires and carbon fibers, the fiber heating layer is formed by mutually staggered arrangement of a plurality of strands of conductive wires and carbon fibers, and the conductive wires are connected with the lead.

Preferably, the connection of the connection plug and the wire is connected by a telescopic connection piece.

The telescopic connection is adopted, so that the plug shadow can be hidden inside the device when the plug is not used, and the attractiveness of the device after the safety rotation is ensured.

Preferably, the supply voltage of the device may be a 36V safety voltage.

The structure adopts 36V safety voltage to ensure the safety of the device in use, and prevents potential safety hazards caused by overhigh voltage in use.

Preferably, the outer separator may be an aluminum plate or other metal plate.

The selection of the materials of the outer separator can strengthen the surface strength of the device, so that the device is not easy to damage in the use process.

Drawings

FIG. 1 is a schematic diagram of a carbon fiber wall heating and heat preservation device according to the present invention;

FIG. 2 is a schematic diagram of a heating layer structure of a carbon fiber wall heating and heat preserving device according to the present invention;

FIG. 3 is a schematic diagram of a connecting plug structure of a carbon fiber wall heating and heat preservation device of the invention;

FIG. 4 is a schematic diagram of a connection socket of a carbon fiber wall heating and heat preservation device according to the invention;

FIG. 5 is a schematic structural view of a telescopic limit structure of a carbon fiber wall heating and heat preservation device of the invention;

in the figure: the energy-collecting and reflecting device comprises a 1-outer layer partition board, a 3-wire, a 5-connecting plug, a 4-connecting socket, a 57-plug shell, a 51-connecting block, a 52 limiting piece I, a 58-limiting piece II, a 53-locating block, a 54-elastic component, a 55-plug abutting part, a 56-through hole, a 41-accommodating groove, a 42-connecting groove, a 43-limiting hole, a 44-limiting groove, a 59-locating groove, a 21-upper insulating layer, a 22-fiber heating layer, a 23-lower insulating layer, a 24-insulating layer and a 25-energy-collecting reflecting layer.

Detailed Description

The following are specific embodiments of the present invention and the technical solutions of the present invention will be further described with reference to the accompanying drawings, but the present invention is not limited to these embodiments.

Referring to fig. 1-5;

embodiment one:

according to the illustration of fig. 1-5, a carbon fiber wall heat preservation device that generates heat includes outer baffle 1, wire 3, layer that generates heat, connecting plug 5 and connecting socket 4 generate heat, outer baffle 1 below is provided with the layer that generates heat, be provided with wire 3 on the layer side that generates heat, the one end of wire 3 is provided with connecting plug 5 other end and is provided with the connecting socket 4 with connecting plug looks adaptation, connecting plug 5 includes plug shell 57 and the flexible limit structure of setting in plug shell 57, flexible limit structure includes connecting block 51, first locating part 52, second locating part 58, locating piece 53, elastomeric element 54 and plug conflict portion 55, connecting block 51 sets up on plug shell 57 upper portion, connecting block 51 below is provided with first locating part 52 and second locating part 58, first locating part 52 and second locating part 58 below is provided with locating piece 53, the locating piece 53 below is connected with elastomeric element 54, elastomeric element 54 is connected with plug conflict portion 55 in the one end that keeps away from locating piece 53, be provided with on plug shell 57 and be used for letting first locating part 52 and second locating part 58 pass the through hole 56.

The positioning block 53 is provided with inclined side surfaces extending upwards from the side surfaces of the two sides.

The first limiting member 52 and the second limiting member 58 are on the same straight line, and an inclined surface which is extended from the lower surface to the inner side surface and is suitable for the inclination of the inclined side surface of the positioning block is arranged at one end of the side edge of the plug housing 57, which is far away from the limiting member 52 and the second limiting member 58.

The connecting socket 4 is internally provided with a connecting part for placing a connecting plug, the connecting part comprises a containing groove 41 for placing the connecting plug and a connecting groove 42 contacted with the plug abutting part, the side wall of the connecting socket is provided with a limiting hole 43 for buckling a first limiting piece 52 and a second limiting piece 58, and the limiting hole 43 is provided with limiting grooves 44 towards the extending directions of two side edges of the connecting socket.

A positioning groove 59 is formed in the lower portion of the connecting block 51 and is engaged with the upper portion of the positioning block 53.

The structure realizes stable and quick installation between devices, in the process of connecting a connecting plug with a connecting socket, the plug abutting part is contacted with the connecting groove of the connecting socket, the limiting part at the moment enters the accommodating groove but does not reach the limiting hole due to the limitation of the position of the limiting part, the elastic part in the connecting plug is compressed continuously by compressing the connecting plug, the compressed elastic part can generate pressure on the first limiting part and the second limiting part above the elastic part and the plug abutting part below the elastic part, when the elastic part is compressed to a certain degree, the limiting part reaches the limiting hole of the connecting socket, and the first limiting part and the second limiting part are separated due to the pressure of the elastic part, so that the first limiting part and the second limiting part enter the limiting groove of the connecting socket through the through hole on the connecting plug and the limiting hole on the connecting plug, thereby playing the roles of connection and fixation. After fixing, as the positioning groove and the shape and the positioning block are also arranged on the connecting block, the positioning block penetrates through the first limiting piece and the second limiting piece to be embedded into the positioning groove in a fixed state, and the inclined planes of the first limiting piece and the second limiting piece, which are similar to the inclination of the positioning block, can realize smooth relative displacement between the first limiting piece, the second limiting piece and the fixing piece, so that the whole connecting process is smoother, and the connection is more stable.

The heating layer comprises an upper insulating layer 21, a fiber heating layer 22, a lower insulating layer 23, an energy-gathering reflecting layer 25 and a heat preservation layer 24, wherein the upper insulating layer 21 is arranged above the fiber heating layer 22, the lower insulating layer 23 is arranged below the fiber heating layer 22, the outer layer partition plate 1 is arranged above the upper insulating layer 21, and the heat preservation layer 24 and the energy-gathering reflecting layer 25 are sequentially arranged below the lower insulating layer 23.

The fiber heating layer 22 is connected with the lead 3, the fiber heating layer 22 comprises conductive wires and carbon fibers, the fiber heating layer is formed by mutually staggered arrangement of a plurality of strands of conductive wires and carbon fibers, and the conductive wires are connected with the lead 3.

The fiber heating layer is used in the structure, so that the device has good heating effect, the insulating layer is arranged above and below the heating layer, the safety of the device is guaranteed, the insulating layer is arranged below the lower insulating layer, the device has better heat preservation effect, the energy-collecting reflecting layer is arranged below the insulating layer, the energy-collecting reflecting layer has good aggregation and reflection functions in the natural quantity emitted by the heating layer, and the structure of a wall body is prevented from being influenced by overhigh heat emitted.

The connection of the connecting plug 5 and the wire 3 adopts a telescopic connecting piece.

The structure adopts 36V safety voltage to ensure the safety of the device in use, and prevents potential safety hazards caused by overhigh voltage in use.

The outer layer baffle 1 is made of aluminum plates.

The selection of the materials of the outer separator can strengthen the surface strength of the device, so that the device is not easy to damage in the use process.

Embodiment two:

according to the illustration of fig. 1-5, a carbon fiber wall heat preservation device that generates heat includes outer baffle 1, wire 3, layer that generates heat, connecting plug 5 and connecting socket 4 generate heat, outer baffle 1 below is provided with the layer that generates heat, be provided with wire 3 on the layer side that generates heat, the one end of wire 3 is provided with connecting plug 5 other end and is provided with the connecting socket 4 with connecting plug looks adaptation, connecting plug 5 includes plug shell 57 and the flexible limit structure of setting in plug shell 57, flexible limit structure includes connecting block 51, first locating part 52, second locating part 58, locating piece 53, elastomeric element 54 and plug conflict portion 55, connecting block 51 sets up on plug shell 57 upper portion, connecting block 51 below is provided with first locating part 52 and second locating part 58, first locating part 52 and second locating part 58 below is provided with locating piece 53, the locating piece 53 below is connected with elastomeric element 54, elastomeric element 54 is connected with plug conflict portion 55 in the one end that keeps away from locating piece 53, be provided with on plug shell 57 and be used for letting first locating part 52 and second locating part 58 pass the through hole 56.

The positioning block 53 is provided with inclined side surfaces extending upwards from the side surfaces of the two sides.

The first limiting member 52 and the second limiting member 58 are on the same straight line, and an inclined surface which is extended from the lower surface to the inner side surface and is suitable for the inclination of the inclined side surface of the positioning block is arranged at one end of the side edge of the plug housing 57, which is far away from the limiting member 52 and the second limiting member 58.

The connecting socket 4 is internally provided with a connecting part for placing a connecting plug, the connecting part comprises a containing groove 41 for placing the connecting plug and a connecting groove 42 contacted with the plug abutting part, the side wall of the connecting socket is provided with a limiting hole 43 for buckling a first limiting piece 52 and a second limiting piece 58, and the limiting hole 43 is provided with limiting grooves 44 towards the extending directions of two side edges of the connecting socket.

A positioning groove 59 is formed in the lower portion of the connecting block 51 and is engaged with the upper portion of the positioning block 53.

The structure realizes stable and quick installation between devices, in the process of connecting a connecting plug with a connecting socket, the plug abutting part is contacted with the connecting groove of the connecting socket, the limiting part at the moment enters the accommodating groove but does not reach the limiting hole due to the limitation of the position of the limiting part, the elastic part in the connecting plug is compressed continuously by compressing the connecting plug, the compressed elastic part can generate pressure on the first limiting part and the second limiting part above the elastic part and the plug abutting part below the elastic part, when the elastic part is compressed to a certain degree, the limiting part reaches the limiting hole of the connecting socket, and the first limiting part and the second limiting part are separated due to the pressure of the elastic part, so that the first limiting part and the second limiting part enter the limiting groove of the connecting socket through the through hole on the connecting plug and the limiting hole on the connecting plug, thereby playing the roles of connection and fixation. After fixing, as the positioning groove and the shape and the positioning block are also arranged on the connecting block, the positioning block penetrates through the first limiting piece and the second limiting piece to be embedded into the positioning groove in a fixed state, and the inclined planes of the first limiting piece and the second limiting piece, which are similar to the inclination of the positioning block, can realize smooth relative displacement between the first limiting piece, the second limiting piece and the fixing piece, so that the whole connecting process is smoother, and the connection is more stable.

The heating layer comprises an upper insulating layer 21, a fiber heating layer 22, a lower insulating layer 23, an energy-gathering reflecting layer 25 and a heat preservation layer 24, wherein the upper insulating layer 21 is arranged above the fiber heating layer 22, the lower insulating layer 23 is arranged below the fiber heating layer 22, the outer layer partition plate 1 is arranged above the upper insulating layer 21, and the heat preservation layer 24 and the energy-gathering reflecting layer 25 are sequentially arranged below the lower insulating layer 23.

The fiber heating layer 22 is connected with the lead 3, the fiber heating layer 22 comprises conductive wires and carbon fibers, the fiber heating layer is formed by mutually staggered arrangement of a plurality of strands of conductive wires and carbon fibers, and the conductive wires are connected with the lead 3.

The fiber heating layer is used in the structure, so that the device has good heating effect, the insulating layer is arranged above and below the heating layer, the safety of the device is guaranteed, the insulating layer is arranged below the lower insulating layer, the device has better heat preservation effect, the energy-collecting reflecting layer is arranged below the insulating layer, the energy-collecting reflecting layer has good aggregation and reflection functions in the natural quantity emitted by the heating layer, and the structure of a wall body is prevented from being influenced by overhigh heat emitted.

The connection of the connecting plug 5 and the wire 3 adopts a telescopic connecting piece.

The structure adopts 36V safety voltage to ensure the safety of the device in use, and prevents potential safety hazards caused by overhigh voltage in use.

The outer separator 1 is a copper plate.

The selection of the materials of the outer separator can strengthen the surface strength of the device, so that the device is not easy to damage in the use process. The copper plate is used for better heat conduction effect.

The specific embodiments described herein are offered by way of example only to illustrate the spirit of the invention. Those skilled in the art may make various modifications or additions to the described embodiments or substitutions thereof without departing from the spirit of the invention or exceeding the scope of the invention as defined in the accompanying claims.

Claims (5)

1. The utility model provides a carbon fiber wall heat preservation device that generates heat, its characterized in that, including outer baffle (1), wire (3), layer of generating heat, connecting plug (5) and connecting socket (4) generate heat, outer baffle (1) below is provided with the layer of generating heat, be provided with wire (3) on the layer side that generates heat, one end of wire (3) is provided with connecting plug (5) other end is provided with connecting socket (4) with connecting plug looks adaptation, connecting plug (5) include plug shell (57) and set up the flexible limit structure in plug shell (57), flexible limit structure includes connecting block (51), locating piece one (52), locating piece two (58), locating piece (53), elastomeric element (54) and plug conflict portion (55), connecting block (51) set up in plug shell (57) upper portion, connecting block (51) below is provided with locating piece one (52) and locating piece two (58), locating piece one end (53) are kept away from in elastomeric element (54), the plug shell (57) is provided with a through hole (56) for allowing the first limiting piece (52) and the second limiting piece (58) to pass through;

the positioning block (53) is provided with inclined side surfaces extending upwards from the side surfaces of the two sides;

the first limiting piece (52) and the second limiting piece (58) are positioned on the same straight line, and inclined surfaces which extend from the lower surface to the inner side and are matched with the inclination of the inclined side surfaces of the positioning blocks are arranged at one ends of the side edges of the first limiting piece (52) and the second limiting piece (58) which are far away from the plug shell (57);

a connecting part for placing a connecting plug (5) is arranged in the connecting socket (4), the connecting part comprises a containing groove (41) for placing the connecting plug and a connecting groove (42) which is contacted with the plug abutting part, a limiting hole (43) for playing a buckling role on a limiting piece I (52) and a limiting piece II (58) is formed in the side wall of the connecting socket, and limiting grooves (44) are formed in the extending direction of the two side edges of the connecting socket from the limiting hole (43);

a positioning groove (59) which is embedded with the upper part of the positioning block (53) is formed in the lower part of the connecting block (51).

2. The carbon fiber wall surface heating and heat preserving device according to claim 1, wherein the heating layer comprises an upper insulating layer (21), a fiber heating layer (22), a lower insulating layer (23), an energy-gathering reflecting layer (25) and a heat preserving layer (24), the upper insulating layer (21) is arranged above the fiber heating layer (22), the lower insulating layer (23) is arranged below the fiber heating layer (22), an outer layer partition plate (1) is arranged above the upper insulating layer (21), and the heat preserving layer (24) and the energy-gathering reflecting layer (25) are sequentially arranged below the lower insulating layer (23).

3. The carbon fiber wall surface heating and heat preserving device according to claim 2, wherein the fiber heating layer (22) is connected with the conducting wire (3), the fiber heating layer (22) comprises conductive wires and carbon fibers, the fiber heating layer is formed by mutually staggered arrangement of a plurality of conductive wires and carbon fibers, and the conductive wires are connected with the conducting wire (3).

4. The carbon fiber wall heating and heat preservation device according to claim 1 is characterized in that the connection of the connecting plug (5) and the lead (3) is realized by adopting a telescopic connecting piece.

5. The carbon fiber wall heating and heat preservation device according to claim 1 is characterized in that the outer layer partition board (1) is an aluminum plate.