CN116591326B

CN116591326B - Intelligent composite insulation board

Info

Publication number: CN116591326B
Application number: CN202310575928.1A
Authority: CN
Inventors: 易春阳
Original assignee: Guangdong Dachang Thermal Insulation Technology Co ltd
Current assignee: Guangdong Dachang Thermal Insulation Technology Co ltd
Priority date: 2023-05-22
Filing date: 2023-05-22
Publication date: 2023-10-31
Anticipated expiration: 2043-05-22
Also published as: CN116591326A

Abstract

The invention discloses an intelligent composite insulation board, which comprises a polyester foaming layer, wherein a sponge buffer layer and a rigid protective layer are laminated on the upper surface and the lower surface of the polyester foaming layer; a first heat conduction adjusting component is arranged between the sponge buffer layer and the polyester foaming layer; the polyester foaming layer is provided with a plurality of second heat conduction adjusting components which can provide heat conduction channels between the two first heat conduction adjusting components on the upper surface and the lower surface in a penetrating way; the invention can adjust the heat conductivity coefficient of the heat insulation board according to the actual use requirement so as to meet the use under different use scenes, and has more flexible structure.

Description

Intelligent composite insulation board

Technical Field

The invention relates to the technical field of heat insulation boards, in particular to an intelligent composite heat insulation board.

Background

The heat insulation board is commonly used in occasions with higher requirements on temperature stability, such as a refrigeration house and a thermostatic chamber, and can reduce indoor and outdoor heat exchange strength; the existing heat-insulating boards are composed of fixed layered structures, and the heat conductivity coefficient is fixed and only heat-insulating performance can be provided.

However, for the use occasions such as the thawing chamber, the indoor and outdoor heat exchange is needed, so that the thawing effect is achieved, the thawing efficiency is lower because the heat conductivity coefficient of the heat insulation plate is fixed in the existing thawing chamber, and obviously, the existing heat insulation plate is not suitable for the use occasions of the thawing chamber.

Disclosure of Invention

The invention aims to overcome the defects and provide an intelligent composite heat-insulating board.

In order to achieve the above object, the present invention is specifically as follows:

an intelligent composite insulation board comprises a polyester foaming layer, wherein a sponge buffer layer and a rigid protective layer are laminated on the upper surface and the lower surface of the polyester foaming layer; a first heat conduction adjusting component is arranged between the sponge buffer layer and the polyester foaming layer;

and a plurality of second heat conduction adjusting components which can provide heat conduction channels for the space between the two first heat conduction adjusting components on the upper surface and the lower surface are arranged on the polyester foaming layer in a penetrating way.

The invention further provides a heat conduction adjusting assembly, which comprises two heat conduction plate bodies which are oppositely arranged, wherein an adjusting air bag ring is arranged between the two heat conduction plate bodies, a vacuum chamber can be enclosed between the adjusting air bag ring and the two heat conduction plate bodies, and heat conduction bosses are convexly arranged on the opposite surfaces between the two heat conduction plate bodies.

The second heat conduction adjusting component comprises an adjusting body, wherein heat transfer pads are arranged at two ends of the adjusting body, an adjusting bracket is arranged in the adjusting body, a heat conduction rod is arranged in the adjusting bracket in a penetrating mode, adjusting pistons are arranged at two ends of the heat conduction rod, an elastic heat conduction wire fixedly connected with the adjusting pistons is arranged between the adjusting pistons and the heat transfer pads, and the elastic heat conduction wire is sleeved on the heat conduction rod in a sliding mode;

an air cavity is enclosed between the two adjusting pistons and the adjusting body.

The invention further provides a plurality of second heat conduction adjusting assemblies which are arranged in an array.

The air cavities of the second heat conduction adjusting assemblies positioned in the same horizontal direction or the same vertical direction are sequentially connected in series.

The invention further comprises a first edge sealing plate and a second edge sealing plate which are arranged on two opposite sides of the polyester foaming layer, wherein the first edge sealing plate or the second edge sealing plate is provided with a first air passage and a second air passage which are independent, the first air passage is communicated with the adjusting air bag ring, and the second air passage is communicated with the air cavities of the second heat conduction adjusting assemblies.

In the invention, the two rigid protection layers are provided with surrounding edges towards the other two opposite sides of the polyester foaming layer, and the surrounding edges between the two rigid protection layers are fixedly connected.

The invention further discloses a pagoda-shaped spring structure of the elastic heat conducting wire.

The beneficial effects of the invention are as follows: according to the invention, the first heat conduction adjusting components are arranged between the sponge buffer layer and the polyester foaming layer, and the second heat conduction adjusting components are arranged on the polyester foaming layer, so that when the heat insulation board is required to have higher heat conduction coefficient, a heat conduction channel is built between the two first heat conduction adjusting components positioned on the upper surface and the lower surface of the polyester foaming layer through each second heat conduction adjusting component, thereby improving the heat conduction coefficient of the heat insulation board and reducing the heat insulation performance of the heat insulation board; when the heat-insulating board is required to have higher heat-insulating performance, each second heat-conducting adjusting component cuts off a heat-conducting channel between the two first heat-conducting adjusting components on the upper surface and the lower surface, so that a channel for directly conducting heat is cut off, the heat conductivity coefficient of the heat-insulating board is reduced, and high heat-insulating performance is realized; so can adjust the coefficient of heat conductivity of heated board according to the in-service use demand to satisfy the use under the different use scenes, the structure is more nimble.

Drawings

FIG. 1 is an exploded schematic view of the present invention;

FIG. 2 is a schematic cross-sectional view of the present invention;

FIG. 3 is an enlarged partial schematic view at I in FIG. 2;

FIG. 4 is an exploded schematic view of a first thermally conductive conditioning assembly of the present invention;

FIG. 5 is a schematic cross-sectional view of a second thermally conductive conditioning assembly of the present invention;

FIG. 6 is a schematic view of a portion of the structure of a first edge sealing plate of the present invention;

reference numerals illustrate: 1. a polyester foaming layer; 2. a sponge buffer layer; 3. a rigid protective layer; 4. a first thermally conductive conditioning assembly; 41. a heat conductive plate body; 42. adjusting the balloon ring; 43. a thermally conductive boss; 5. a second thermally conductive conditioning assembly; 51. adjusting the body; 52. a heat transfer pad; 53. adjusting the bracket; 54. a heat conduction rod; 55. an adjusting piston; 56. an elastic heat conducting wire; 6. a first edge sealing plate; 61. a first airway; 62. a second airway; 7. a second edge sealing plate; 8. and (5) connecting pipes.

Detailed Description

The invention will now be described in further detail with reference to the drawings and the specific embodiments, without limiting the scope of the invention.

As shown in fig. 1 to 6, the intelligent composite insulation board according to the embodiment includes a polyester foam layer 1, wherein a sponge buffer layer 2 and a rigid protection layer 3 are laminated on the upper and lower surfaces of the polyester foam layer 1; a first heat conduction adjusting component 4 is arranged between the sponge buffer layer 2 and the polyester foaming layer 1;

a plurality of second heat conduction adjusting components 5 which can provide heat conduction channels for the space between the two first heat conduction adjusting components 4 on the upper surface and the lower surface are arranged on the polyester foaming layer 1 in a penetrating mode.

According to the embodiment, the first heat conduction adjusting assemblies 4 are arranged between the sponge buffer layer 2 and the polyester foam layer 1, and the second heat conduction adjusting assemblies 5 are arranged on the polyester foam layer 1, so that when the heat insulation board is required to have higher heat conduction coefficient, a heat conduction channel is built between the two first heat conduction adjusting assemblies 4 positioned on the upper surface and the lower surface of the polyester foam layer 1 through each second heat conduction adjusting assembly 5, the heat conduction coefficient of the heat insulation board is improved, and the heat insulation performance of the heat insulation board is reduced; when the heat insulation board is required to have higher heat insulation performance, each second heat conduction adjusting component 5 cuts off a heat conduction channel between the two first heat conduction adjusting components 4 on the upper surface and the lower surface, so that a channel for directly conducting heat is cut off, the heat conductivity coefficient of the heat insulation board is reduced, and the high heat insulation performance is realized; so can adjust the coefficient of heat conductivity of heated board according to the in-service use demand to satisfy the use under the different use scenes, the structure is more nimble.

In some embodiments, as shown in fig. 1 to 4, the first heat-conducting adjusting component 4 includes two heat-conducting plate bodies 41 that are oppositely arranged, that is, one heat-conducting plate body 41 contacts with the polyester foam layer 1, the other heat-conducting plate body 41 contacts with the sponge buffer layer 2, the heat-conducting plate bodies 41 are made of materials with good heat conductivity, an adjusting air bag ring 42 is arranged between the two heat-conducting plate bodies 41, an air inlet and an air outlet are arranged on the adjusting air bag ring 42 to adjust the pressure in the adjusting air bag ring 42, a vacuum chamber can be enclosed between the adjusting air bag ring 42 and the two heat-conducting plate bodies 41, and heat-conducting bosses 43 are convexly arranged on opposite surfaces between the two heat-conducting plate bodies 41.

Specifically, when the heat insulation board is required to have a higher heat conductivity coefficient, the air conditioning bag ring 42 is decompressed, so that the two heat conduction board bodies 41 move in opposite directions, the volume of the vacuum chamber is reduced until the heat conduction bosses 43 of the two heat conduction board bodies 41 are contacted and abutted to form a heat conduction path, and meanwhile, a heat conduction channel is built between the two first heat conduction adjusting components 4 on the upper surface and the lower surface of the second heat conduction adjusting component 5, so that the heat conductivity coefficient of the heat insulation board is improved; when the heat insulation board is required to have higher heat insulation performance, compressed air is filled into the adjusting air bag ring 42, the adjusting air bag ring 42 expands, the heat conduction bosses 43 of the two heat conduction board bodies 41 are separated from contact and are abutted, a vacuum chamber is formed between the adjusting air bag ring 42 and the two heat conduction board bodies 41 to be in a vacuum environment, so that a passage for direct heat conduction is cut off, the heat conduction coefficient of the heat insulation board is reduced, and high heat insulation performance is realized.

In some embodiments, as shown in fig. 1 to 3 and 5, the second heat conduction adjusting component 5 includes an adjusting body 51, two ends of the adjusting body 51 are respectively provided with a heat transfer pad 52, an adjusting bracket 53 is arranged in the adjusting body 51, the adjusting bracket 53 is provided with a heat conducting rod 54 in a penetrating way, two ends of the heat conducting rod 54 are respectively provided with an adjusting piston 55, an elastic heat conducting wire 56 fixedly connected with the adjusting piston 55 is arranged between the adjusting piston 55 and the heat transfer pad 52, and the elastic heat conducting wire 56 is slidably sleeved on the heat conducting rod 54; an air cavity is enclosed between the two adjusting pistons 55 and the adjusting body 51.

Specifically, by arranging the adjusting bracket 53 so as to mount the heat conducting rod 54 and the adjusting piston 55, one end of the elastic heat conducting wire 56 is provided with a connecting rod, the connecting rod is sleeved on the heat conducting rod 54 in a sliding way, the adjusting piston 55 is fixedly sleeved on the connecting rod, the heat conducting pad 52 is contacted with the heat conducting plate 41, so that when compressed air is filled in the air cavity, the adjusting pistons 55 at two sides drive the elastic heat conducting wire 56 to press the heat conducting pad 52, and the heat conducting pad 52, the elastic heat conducting wire 56, the heat conducting rod 54, the elastic heat conducting wire 56 and the heat conducting pad 52 are in contact communication, a heat conducting channel is built between the first heat conducting adjusting assemblies 4 at two sides of the polyester foaming layer 1, the heat conducting coefficient of the heat insulating plate is improved, and the heat insulating performance of the heat insulating plate is reduced;

meanwhile, the contact area between the elastic heat conducting wire 56 and the heat transfer pad 52 can be controlled by controlling the air pressure of compressed air filled in the air cavity, so that the heat conductivity coefficient amplitude of the heat insulation plate is controlled;

when the heat insulation performance of the heat insulation board needs to be improved, the air cavity can be vacuumized, so that the two adjusting pistons 55 drive the elastic heat conducting wires 56 to be separated from the heat transfer pad 52, the heat conducting channels are cut off, heat conduction between the heat conducting board bodies 41 on two sides of the polyester foaming layer 1 is changed into a heat radiation conduction mode from the elastic heat conducting wires 56 conduction mode, the heat conduction efficiency is reduced, the integral heat conductivity of the heat insulation board is reduced, the heat insulation performance is improved, compressed air is filled into the adjusting air bag ring 42, the heat conducting bosses 43 of the two heat conducting board bodies 41 are separated from contact, the heat conductivity of the heat insulation board is greatly reduced, and the high heat insulation performance is realized.

According to the intelligent composite heat-insulating board, in some embodiments, as shown in fig. 1, a plurality of second heat-conducting adjusting assemblies 5 are arranged in an array, so that heat conduction is more balanced when the heat conductivity coefficient of the heat-insulating board is improved, and the heat-insulating effect is better when the heat-insulating board is enabled to have high heat-insulating performance.

In some embodiments, as shown in fig. 1, air cavities of the second heat conduction adjusting assemblies 5 located in the same horizontal direction or the same vertical direction are sequentially connected in series; specifically, the air cavities of the second heat conduction adjusting components 5 are connected in series through connecting pipes 8, each air cavity is provided with a first air hole, the connecting pipes 8 are fixedly connected to the first air holes, the center of the heat transfer pad 52 is provided with a second air hole so that the adjusting piston 55 can slide when the pressure in the air cavities changes, the air cavities of the second heat conduction adjusting components 5 which are arranged in the same transverse direction are connected in series in sequence, and therefore the structural layout of the second heat conduction adjusting components 5 is simpler, and each air cavity is not required to be connected with external air supply equipment independently.

In some embodiments, as shown in fig. 1, the intelligent composite insulation board further includes a first edge sealing board 6 and a second edge sealing board 7 disposed on two opposite sides of the polyester foaming layer 1, where the first edge sealing board 6 or the second edge sealing board 7 is provided with an independent first air channel 61 and an independent second air channel 62, the first air channel 61 is communicated with the air bag adjusting ring 42, specifically, the first air channel 61 is communicated with an air inlet and an air outlet of the air bag adjusting ring 42, the second air channel 62 is communicated with air cavities of the second heat conduction adjusting assemblies 5, and specifically, the second air channel 62 is communicated with the air cavities of the second heat conduction adjusting assemblies 5 through connecting pipes 8. The first air flue 61 and the second air flue 62 are arranged on the first edge sealing plate 6, and the first air flue 61 and the second air flue 62 are arranged to adjust the connection of the air bag ring 42, the air cavity and the external air supply equipment, so that the heat conductivity coefficient of the heat insulation board is adjusted.

In some embodiments, as shown in fig. 1 and 3, two rigid protection layers 3 are provided with surrounding edges towards the other opposite sides of the polyester foaming layer 1, and the surrounding edges between the two rigid protection layers 3 are fixedly connected; so set up for two rigidity protective layers 3 form braced frame, protect polyester foam layer 1, sponge buffer layer 2, first heat conduction adjusting part 4, second heat conduction adjusting part 5.

In one embodiment of the intelligent composite insulation board, in some embodiments, the elastic heat conducting wire 56 has a pagoda-shaped spring structure; so arranged, so as to adjust the contact area of the elastic heat conducting wire 56 with the heat transfer pad 52.

The foregoing description is only one preferred embodiment of the invention, and therefore all changes and modifications that come within the meaning and range of equivalency of the structures, features and principles of the invention are intended to be embraced therein.

Claims

1. The intelligent composite heat-insulating board is characterized by comprising a polyester foaming layer, wherein a sponge buffer layer and a rigid protective layer are laminated on the upper surface and the lower surface of the polyester foaming layer; a first heat conduction adjusting component is arranged between the sponge buffer layer and the polyester foaming layer;

the polyester foaming layer is provided with a plurality of second heat conduction adjusting components which can provide heat conduction channels between the two first heat conduction adjusting components on the upper surface and the lower surface in a penetrating way;

the first heat conduction adjusting component comprises two heat conduction plate bodies which are oppositely arranged, an adjusting air bag ring is arranged between the two heat conduction plate bodies, a vacuum chamber can be enclosed between the adjusting air bag ring and the two heat conduction plate bodies, and heat conduction bosses are convexly arranged on the opposite surfaces between the two heat conduction plate bodies;

the second heat conduction adjusting component comprises an adjusting body, heat transfer pads are arranged at two ends of the adjusting body, an adjusting bracket is arranged in the adjusting body, a heat conducting rod is arranged in the adjusting bracket in a penetrating mode, adjusting pistons are arranged at two ends of the heat conducting rod, an elastic heat conducting wire fixedly connected with the adjusting pistons is arranged between the adjusting pistons and the heat transfer pads, and the elastic heat conducting wire is sleeved on the heat conducting rod in a sliding mode;

2. The intelligent composite insulation panel of any of claims 1, wherein a plurality of the second thermally conductive assemblies are arranged in an array.

3. The intelligent composite insulation panel of claim 2, wherein the air chambers of the second thermally conductive assembly are serially connected in sequence in the same horizontal or same vertical direction.

4. The intelligent composite insulation board of claim 3, further comprising a first edge sealing board and a second edge sealing board arranged on two opposite sides of the polyester foaming layer, wherein the first edge sealing board or the second edge sealing board is provided with an independent first air passage and an independent second air passage, the first air passage is communicated with the adjusting air bag ring, and the second air passage is communicated with the air cavities of the second heat conduction adjusting assemblies.

5. The intelligent composite insulation board of claim 4, wherein two of the rigid protection layers are provided with surrounding edges facing the other opposite sides of the polyester foaming layer, and the surrounding edges between the two rigid protection layers are fixedly connected.

6. The intelligent composite insulation board of any one of claims 1 to 5, wherein the elastic heat conducting wire is in a pagoda-shaped spring structure.