CN215162360U - High-filling-property heat-conducting wave-absorbing phase-change composite material - Google Patents

Abstract

The utility model discloses a heat-conducting wave-absorbing phase-change composite material with high filling property, which comprises a graphene frame body and a phase-change heat-absorbing layer; a coating layer disposed on an outer side of a front portion of the graphene frame body; an adhesive layer disposed on an outer side of a rear portion of the graphene frame body; a release layer disposed outside a rear portion of the adhesive layer; the clamping column is connected to the outer side of the right portion of the graphene frame body. This phase change composite is inhaled in heat conduction of high fillibility is when weather is cold, can expand after the intraformational water of heat-conducting resin reaches the freezing point, ice-cube after the inflation can be pushed up the baffle, this makes the baffle that receives thrust can carry out ascending displacement, and the baffle carries out the displacement back, can extrude the spring holder and make it shrink, this makes the appearance chamber volume of heat-conducting resin layer can increase, thereby can avoid the heat-conducting resin layer to take place to damage because of the water shrinkage, this makes more water of internal energy filling of heat-conducting resin layer, this heat storage volume that is favorable to lifting means.

Description

High-filling-property heat-conducting wave-absorbing phase-change composite material

Technical Field

The utility model relates to a phase change composite material technical field specifically is a heat conduction of high fillibility inhales ripples phase change composite material.

Background

The phase-change composite material is a substance which changes the state of the substance and can provide latent heat under the condition of unchanged temperature, the process of changing the physical property is called as a phase-change process, at the moment, the phase-change composite material can absorb or release a large amount of latent heat, the phase-change composite material can be used on the outer wall of a building, and the temperature fluctuation in the house can be reduced by storing heat energy of the phase-change material, so that the use comfort of the house can be improved.

In order to avoid the problem that the heat-shrinkable cold-expansion support of liquid damages equipment, the heat storage capacity of the phase-change composite material is low because the phase-change composite material cannot be filled with too much liquid, the common phase-change composite material in the market is provided.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a heat conduction of high fillibility is inhaled ripples phase change composite to solve the phase change composite who provides in the above-mentioned background art and support bad equipment in order to avoid the pyrocondensation cold expanding of liquid, can't pack too much liquid in phase change composite, lead to the lower problem of phase change composite's heat-retaining volume.

In order to achieve the above object, the utility model provides a following technical scheme: a high-filling heat-conducting wave-absorbing phase-change composite material comprises:

a graphene frame body;

further comprising:

a coating layer disposed on an outer side of a front portion of the graphene frame body;

an adhesive layer disposed on an outer side of a rear portion of the graphene frame body;

a release layer disposed outside a rear portion of the adhesive layer;

the clamping column is connected to the outer side of the right part of the graphene frame body;

the clamping groove is formed in the inner side of the left part of the graphene frame body;

a phase change heat absorption layer disposed at an inner middle end of the graphene frame body;

the phase change heat absorption layer includes:

the heat-conducting resin layer is connected with a spring seat on the inner side surface of the heat-conducting resin layer;

a baffle plate connected to the bottom outer side of the spring seat;

water inlets opened at both sides of the top of the baffle plate.

Preferably, the graphene frame body is fixedly connected with the coating layer, and the graphene frame body is in adhesive connection with the bonding layer.

Preferably, the outer surface of the adhesive layer is attached to the inner surface of the release layer, and the size of the release layer is the same as that of the adhesive layer.

Preferably, as an organic whole between joint post and the graphite alkene framework, and the axis of joint post and the axis in joint groove coincide each other.

Preferably, the heat-conducting resin layer is connected with the graphene frame in a clamping manner, and the heat-conducting resin layer is hollow.

Preferably, be threaded connection between spring holder and the heat conduction resin layer, and be vertical form distribution between spring holder and the baffle.

Preferably, the baffle is elastically connected with the spring seat, and the water inlets are symmetrically distributed along the vertical center line of the baffle.

Preferably, the heat-conducting resin layer is communicated with the water inlet, and the number of the water inlets is two.

The utility model provides a heat conduction of high fillibility is inhaled ripples phase change composite possesses following beneficial effect: the graphene frame body can absorb electromagnetic waves in the air, the electromagnetic waves transmitted to the interior of a building can be reduced, the influence of electromagnetic wave radiation on residents in the building can be greatly reduced, the clamping columns of the graphene frame body are clamped with the clamping grooves of the other graphene frame body, two graphene frame bodies can form a whole and are connected in the same mode, a plurality of graphene frame bodies can be assembled and spliced, the graphene frame bodies are mutually clamped and matched with the fixing of the bonding layer and the wall body, the graphene frame bodies can be firmly fixed on the wall body, the graphene frame bodies and the heat-conducting resin are in a layer-by-layer nested design, the heat-conducting efficiency of equipment can be improved, in addition, when the heat-conducting resin layer is damaged, the heat-conducting resin layer can be continuously used only by replacing the heat-conducting resin layer, and after the baffle is displaced, the spring seat can be extruded to shrink, this makes the appearance chamber volume of heat conduction resin layer can increase to can avoid the heat conduction resin layer to take place to damage because of the water shrinkage, this makes more water of internal energy filling of heat conduction resin layer, this heat storage volume that is favorable to lifting means.

1. The utility model discloses graphite alkene material has the absorption function to the electromagnetic wave, and this makes the graphite alkene framework can absorb the electromagnetic wave in the air, and this can reduce and transmit to the inside electromagnetic wave of building to resident in the reduction building that can be very big receives electromagnetic wave radiation's influence, and this security performance that is favorable to the lifting means.

2. The utility model discloses a carry out the block with the joint post of graphite alkene framework and another joint groove of graphite alkene framework, enable two blocks of graphite alkene frameworks and constitute a whole, adopt the same mode to connect, alright make polylith graphite alkene framework assemble the amalgamation, and adopt the mutual block cooperation bond line of graphite alkene framework and the fixed of wall body, enable graphite alkene framework and carry out firmly fixed on the wall body, this is favorable to lifting means's stability of placing.

3. The utility model discloses the graphite alkene framework has high heat conductivility, and the surface on heat conduction resin layer laminates completely with the internal surface of graphite alkene framework again, this makes the graphite alkene framework can fully transmit the heat to heat conduction resin layer surface, and the heat conduction resin layer can be stored heat transmission to the water in again, through the water to thermal storage, it reduces to enable indoor temperature fluctuation, this is favorable to promoting the living comfort level in house, and adopt graphite alkene framework and to the nested formula design of heat conduction resin layer upon layer, the heat conduction efficiency that enables equipment promotes, if in addition, if the heat conduction resin layer takes place to damage, only need to replace the heat conduction resin layer and can continue to use, this is favorable to the use flexibility ratio of equipment.

4. The utility model discloses when weather is cold, can expand after the intraformational water of heat-conducting resin reaches the freezing point, ice-cube after the inflation can carry out the promotion to the baffle, be swing joint because of baffle and heat-conducting resin layer, this baffle that makes to receive thrust can carry out ascending displacement, and the baffle carries out the displacement back, can extrude the spring holder and make it shrink, this makes the appearance chamber volume on heat-conducting resin layer can increase, thereby can avoid the heat-conducting resin layer to take place to damage because of water shrinkage, this makes more water of internal energy filling of heat-conducting resin layer, this is favorable to lifting means's heat storage volume.

Drawings

FIG. 1 is a schematic view of a cross-sectional overall structure of a highly filled heat-conductive wave-absorbing phase-change composite material of the present invention;

fig. 2 is a schematic structural view of a graphene frame body of the high-filling heat-conducting wave-absorbing phase-change composite material of the present invention;

fig. 3 is the utility model relates to a phase transition heat-sink shell structure sketch of heat conduction absorbing phase transition combined material of high fillibility.

In the figure: 1. a graphene frame body; 2. a coating layer; 3. an adhesive layer; 4. an anti-sticking layer; 5. a clamping column; 6. a clamping groove; 7. a phase change heat absorbing layer; 701. a heat conductive resin layer; 702. a spring seat; 703. a baffle plate; 704. a water inlet.

Detailed Description

Referring to fig. 1 and fig. 2, a high-filling heat-conducting wave-absorbing phase-change composite material includes: the graphene frame body 1 and the coating layer 2 are arranged on the outer side of the front part of the graphene frame body 1, the coating layer 2 can be sprayed on the surface of the graphene frame body 1, the equipment can be more attractive by spraying the coating layer 2, meanwhile, the coating layer 2 can wrap and protect the graphene frame body 1, so that the protective performance of the graphene frame body 1 can be improved, the graphene material has an adsorption function on electromagnetic waves, the graphene frame body 1 can absorb the electromagnetic waves in the air, the electromagnetic waves transmitted to the interior of a building can be reduced, the influence of electromagnetic wave radiation on residents in the building can be greatly reduced, the safety performance of the equipment can be improved, the bonding layer 3 is arranged on the outer side of the rear part of the graphene frame body 1, the anti-sticking layer 4 is arranged on the outer side of the rear part of the bonding layer 3, the graphene frame body 1 is fixedly connected with the coating layer 2, and the graphene frame body 1 is in adhesive connection with the bonding layer 3, the outer surface of the bonding layer 3 is attached to the inner surface of the anti-sticking layer 4, the anti-sticking layer 4 and the bonding layer 3 are the same in size, the bonding layer 3 can be exposed outdoors by tearing off the anti-sticking layer 4, the graphene frame body 1 can be fixed on a wall body by bonding the bonding layer 3 to the outer wall of a house, the clamping column 5 is connected to the outer side of the right part of the graphene frame body 1, the clamping groove 6 is formed in the inner side of the left part of the graphene frame body 1, the clamping column 5 and the graphene frame body 1 are integrated, the central axis of the clamping column 5 is coincident with the central axis of the clamping groove 6, the clamping column 5 of the graphene frame body 1 is clamped with the clamping groove 6 of the other graphene frame body 1, two graphene frame bodies 1 can be integrated into a whole and are connected in the same mode, so that the plurality of graphene frame bodies 1 can be assembled and spliced, and the bonding layer 3 and the wall body are fixed by mutually clamping and matching the graphene frame bodies 1, the graphene frame body 1 can be firmly fixed on the wall body, and the placing stability of the lifting device is facilitated.

Referring to fig. 2 and 3, the phase-change heat absorption layer 7 is disposed at the inner middle end of the graphene frame 1, and the phase-change heat absorption layer 7 includes: a heat-conducting resin layer 701, a spring seat 702 connected to the inner surface of the heat-conducting resin layer 701, a baffle 703 connected to the outer side of the bottom of the spring seat 702, water inlets 704 provided at both sides of the top of the baffle 703, the heat-conducting resin layer 701 and the graphene frame 1 being engaged, the heat-conducting resin layer 701 being hollow, the spring seat 702 and the heat-conducting resin layer 701 being in threaded connection, the spring seat 702 and the baffle 703 being vertically arranged, the baffle 703 and the spring seat 702 being elastically connected, and the water inlets 704 being symmetrically arranged along the vertical center line of the baffle 703, the heat-conducting resin layer 701 and the water inlets 704 being communicated with each other, and two water inlets 704 being provided, after the graphene frame 1 is mounted, the heat-conducting resin layer 701 can be inserted into the graphene frame 1, the heat-conducting resin layer 701 being hollow, and clean water can be injected into the water inlets 704, the heat-conducting resin layer 701 can be used for storing water, the graphene frame body 1 made of graphene has high heat-conducting performance, the outer surface of the heat-conducting resin layer 701 is completely attached to the inner surface of the graphene frame body 1, so that the graphene frame body 1 can fully transfer heat to the surface of the heat-conducting resin layer 701, the heat-conducting resin layer 701 can transfer the heat into the water for storage, the indoor temperature fluctuation can be reduced by storing the heat through the water, the living comfort of a house can be improved, the heat-conducting efficiency of the equipment can be improved by adopting the nested design of the graphene frame body 1 and the heat-conducting resin layer 701, and the equipment can be continuously used only by replacing the heat-conducting resin layer 701 when the heat-conducting resin layer 701 is damaged, the equipment is favorable for using flexibility, and when the weather is cold, the water in the heat-conducting resin layer 701 can expand after reaching the freezing point, the ice-cube after the inflation can carry out the promotion to baffle 703, be swing joint because of baffle 703 and heat conduction resin layer 701, this makes the baffle 703 that receives the promotion can carry out ascending displacement, and baffle 703 carries out the displacement back, can extrude spring holder 702 and make it shrink, this makes the appearance chamber volume of heat conduction resin layer 701 can increase, thereby can avoid heat conduction resin layer 701 to take place to damage because of the water shrinkage, this makes more water of filling in heat conduction resin layer 701, this is favorable to lifting means's heat storage volume.

In conclusion, when the high-filling heat-conducting wave-absorbing phase-change composite material is used, firstly, the coating layer 2 is sprayed on the surface of the graphene frame body 1 according to the structures shown in fig. 1 and fig. 2, the equipment can be more attractive by spraying the coating layer 2, meanwhile, the coating layer 2 can wrap and protect the graphene frame body 1, so that the protective performance of the graphene frame body 1 can be improved, the graphene material has an adsorption function on electromagnetic waves, the graphene frame body 1 can absorb the electromagnetic waves in the air, the electromagnetic waves transmitted to the interior of a building can be reduced, the influence of electromagnetic wave radiation on residents in the building can be greatly reduced, and the safety performance of the equipment can be improved;

then, by tearing off the anti-sticking layer 4, the bonding layer 3 can be exposed outdoors, by adhering the bonding layer 3 to the outer wall of a house, the graphene frame body 1 can be fixed on the wall body, the clamping column 5 of the graphene frame body 1 is clamped with the clamping groove 6 of another graphene frame body 1, two graphene frame bodies 1 can form a whole body, the same mode is adopted for connection, a plurality of graphene frame bodies 1 can be assembled and spliced, the graphene frame bodies 1 are mutually clamped and matched with the bonding layer 3 to be fixed with the wall body, the graphene frame bodies 1 can be firmly fixed on the wall body, and the arrangement stability of the device can be improved;

then, according to the structure shown in fig. 2 and fig. 3, after the graphene frame 1 is installed, the heat conducting resin layer 701 can be inserted into the graphene frame 1, the interior of the heat conducting resin layer 701 is hollow, the heat conducting resin layer 701 can store water by injecting clear water into the water inlet 704, the graphene frame 1 made of graphene has high heat conducting performance, and the outer surface of the heat conducting resin layer 701 is completely attached to the inner surface of the graphene frame 1, so that the graphene frame 1 can fully transfer heat to the surface of the heat conducting resin layer 701, the heat conducting resin layer 701 can transfer heat to the water for storage, the indoor temperature fluctuation can be reduced by storing heat through the water, which is beneficial to improving the housing comfort, and the heat conducting efficiency of the device can be improved by adopting the nested design of the graphene frame 1 and the heat conducting resin layer 701, in addition, if the heat-conducting resin layer 701 is damaged, the heat-conducting resin layer 701 can be continuously used only by being replaced, so that the use flexibility of the equipment is facilitated;

at last when weather is cold, can expand after the water in the heat conduction resin layer 701 reaches the freezing point, ice-cube after the inflation can carry out the boosting to baffle 703, be swing joint because of baffle 703 and heat conduction resin layer 701, this makes baffle 703 that receives the boosting can carry out ascending displacement, and baffle 703 carries out the displacement back, can extrude spring holder 702 and make it shrink, this makes the appearance chamber volume of heat conduction resin layer 701 can increase, thereby can avoid heat conduction resin layer 701 to take place to damage because of the water shrinkage, this makes more water of filling in the heat conduction resin layer 701, this is favorable to lifting means's heat storage volume.

Claims (8)

1. A high-filling heat-conducting wave-absorbing phase-change composite material comprises:

a graphene frame body (1);

it is characterized by also comprising:

a paint layer (2) disposed outside a front portion of the graphene frame body (1);

an adhesive layer (3) provided on the outer side of the rear portion of the graphene frame (1);

a release layer (4) disposed outside a rear portion of the adhesive layer (3);

the clamping column (5) is connected to the outer side of the right part of the graphene frame body (1);

a clamping groove (6) which is formed in the inner side of the left part of the graphene frame body (1);

a phase change heat absorbing layer (7) disposed at an inner middle end of the graphene frame body (1);

the phase change heat absorbing layer (7) comprises:

a heat-conductive resin layer (701), wherein a spring seat (702) is connected to the inner surface of the heat-conductive resin layer (701);

a baffle plate (703) connected to a bottom outer side of the spring seat (702);

water inlets (704) opened at both sides of the top of the baffle plate (703).

2. The high-filling-property heat-conducting wave-absorbing phase-change composite material as claimed in claim 1, wherein the graphene frame body (1) is fixedly connected with the coating layer (2), and the graphene frame body (1) is adhesively connected with the bonding layer (3).

3. The phase-change composite material with high filling property and heat conduction and wave absorption of claim 1, wherein the outer surface of the bonding layer (3) is attached to the inner surface of the anti-sticking layer (4), and the size of the anti-sticking layer (4) is the same as that of the bonding layer (3).

4. The high-filling-property heat-conducting wave-absorbing phase-change composite material as claimed in claim 1, wherein the clamping column (5) and the graphene frame body (1) are integrated, and a central axis of the clamping column (5) and a central axis of the clamping groove (6) are overlapped.

5. The phase-change composite material with high filling property and heat conduction and wave absorption of claim 1, wherein the heat-conducting resin layer (701) is connected with the graphene frame body (1) in a clamping manner, and the heat-conducting resin layer (701) is hollow.

6. The phase change composite material with high filling property and heat conduction and wave absorption of claim 1, wherein the spring seat (702) is in threaded connection with the heat conduction resin layer (701), and the spring seat (702) and the baffle (703) are vertically distributed.

7. The phase change composite material with high filling property and heat conduction and wave absorption of claim 1, wherein the baffle (703) is elastically connected with the spring seat (702), and the water inlets (704) are symmetrically distributed along the vertical center line of the baffle (703).

8. The phase-change composite material with high filling property and heat conduction and wave absorption of claim 1, wherein the heat-conducting resin layer (701) and the water inlets (704) are communicated with each other, and two water inlets (704) are formed.

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