CN114922373B

CN114922373B - High-strength light heat-insulating layer with decoration function

Info

Publication number: CN114922373B
Application number: CN202210540181.1A
Authority: CN
Inventors: 吴昊
Original assignee: Shenzhen Building Decoration Group Co ltd
Current assignee: Shenzhen Building Decoration Group Co ltd
Priority date: 2022-05-17
Filing date: 2022-05-17
Publication date: 2023-06-16
Anticipated expiration: 2042-05-17
Also published as: CN114922373A

Abstract

The invention discloses a high-strength light heat-insulating layer with a decoration function, which comprises the following components: the heat preservation main part, the heat preservation main part sets up on the front of wall body, the inside of heat preservation main part is provided with strengthening mechanism, the front of heat preservation main part is provided with the plane materiel board. The invention provides a high-strength light heat-insulating layer with a decoration function, which comprises the following components: the heat preservation main body is arranged on the front surface of the wall body, and in order to improve the firmness of the heat preservation main body, the inside of the heat preservation main body is provided with a reinforcing mechanism, so that the heat preservation main body has firmness and the service life is prolonged; the front surface of the heat preservation main body is provided with a plane material plate for decoration.

Description

High-strength light heat-insulating layer with decoration function

Technical Field

The invention relates to the technical field of heat preservation, in particular to a high-strength light heat preservation with a decoration function.

Background

The heat preservation is one of the indispensable devices in modern construction, it can possess better heat preservation performance, can block that air conditioning from getting into indoor and prevent indoor steam infiltration to the external world, can it to the thermal-insulated effect, but traditional device does not have the facility that can make the heat preservation more firm, leads to the heat preservation to probably appear cracked condition emergence, life is lower, and traditional heat preservation is not pleasing to the eye enough, does not have the facility that can decorate, and a high strength light heat preservation with decorative function can provide convenience for the staff.

The prior patent with the application number 201920089244.X discloses a light heat-insulating layer which comprises an ultraviolet-resistant layer, a matrix layer and a limiting net; the lower surface of the matrix layer is provided with a honeycomb hole structure, the inner wall of each hexagonal single hole of the honeycomb hole structure is a rough surface, the ultraviolet resistant layer is attached to the upper surface of the matrix layer, the limiting net is sleeved on the outer surface of the matrix layer attached with the ultraviolet resistant layer, the inner wall of the limiting net is tightly attached to the upper surface of the ultraviolet resistant layer, the left surface of the matrix layer, the right surface of the matrix layer, the front surface of the matrix layer and the rear surface of the matrix layer, and the lower surface of the matrix layer is exposed; the limiting net is made of fiber mesh cloth, and the fibers are special-shaped fibers. The light heat-insulating layer is not easy to deform, light and warm, and a gap is not easy to appear between the light heat-insulating layer and a wall body. The light heat-insulating layer is not provided with a facility which can enable the heat-insulating layer to be firmer, so that the heat-insulating layer is likely to be broken, and the service life of the light heat-insulating layer is lower. Therefore, there is a need for a high strength lightweight insulation layer with decorative function to at least partially solve the problems of the prior art.

Disclosure of Invention

In the summary, a series of concepts in a simplified form are introduced, which will be further described in detail in the detailed description. The summary of the invention is not intended to define the key features and essential features of the claimed subject matter, nor is it intended to be used as an aid in determining the scope of the claimed subject matter.

In order to at least partially solve the above problems, the present invention provides a high-strength lightweight thermal insulation layer with decoration function, comprising: the heat preservation main part, the heat preservation main part sets up on the front of wall body, the inside of heat preservation main part is provided with strengthening mechanism, the front of heat preservation main part is provided with the plane materiel board.

According to the high-strength light heat-insulating layer with the decoration function, the reinforcing mechanism comprises the supporting plate, the supporting rods, the connecting rods and the tilting rods, the supporting plate is mounted on the back of the heat-insulating layer main body in an embedded mode, a plurality of supporting rods, three connecting rods and a plurality of tilting rods are arranged on the front face of the supporting plate, and the supporting rods, the connecting rods and the tilting rods are arranged in the heat-insulating layer main body in an embedded mode.

According to the embodiment of the invention, the high-strength light heat-insulating layer with the decoration function further comprises: the reinforcing rib is arranged at one end of the connecting rod, two reinforcing ribs close to the top and the bottom are respectively connected with the other ends of the supporting rods and the inclined rods in the outer side and form a triangular structure in cooperation with the connecting rods, connecting rods are connected between the connecting rods close to the middle positions on the inclined rods and the inclined rods on the two sides, connecting plates are arranged between every two reinforcing ribs, and corrugated plates are arranged on the front face and the back face of the connecting plates.

According to the high-strength light heat-insulating layer with the decoration function, the back plate is arranged on the front face of the wall body, the rivet penetrates through the inside of the heat-insulating layer main body, and the rivet is connected with the back plate.

According to the high-strength light heat-insulating layer with the decoration function, the insert plates are respectively arranged at one side and the bottom of the heat-insulating layer main body, and the embedded plate is arranged at one end of each insert plate.

According to the high-strength light heat-insulating layer with the decoration function, the upper left corner of the heat-insulating layer main body is provided with the L-shaped groove and the abdication groove, the abdication groove is communicated with the L-shaped groove, the inside of the heat-insulating layer main body is provided with the jogging groove, and the jogging groove is communicated with the abdication groove and the L-shaped groove.

According to the high-strength light heat-insulating layer with the decoration function, the back of the surface material plate is provided with the adhesive, and the adhesive is adhered to the front surface of the heat-insulating layer main body.

According to the high-strength light heat-insulating layer with the decoration function, the front surface of the plane material plate is provided with a plurality of decorative strips, and the bottom of each decorative strip is provided with a plurality of hooks.

According to the high-strength light heat-insulating layer with the decoration function, the heat-insulating layer main body is internally provided with a plurality of first compression-resistant modules, each first compression-resistant module comprises a compression-resistant cylinder and two second compression-resistant modules, the two second compression-resistant modules are symmetrically arranged in the heat-insulating layer main body, and the compression-resistant cylinder is arranged between the two second compression-resistant modules.

According to the high-strength light heat preservation with a decoration function, the second compression-resistant module comprises a butterfly cylinder, a compression-resistant frame, two side supporting seats and a bottom supporting frame, the compression-resistant frame is arranged in the butterfly cylinder, the two side supporting seats are arranged in the butterfly cylinder and are positioned on two sides of the compression-resistant frame and are connected with the butterfly cylinder, the bottom supporting frame is arranged at the bottom of the butterfly cylinder and is respectively and movably connected with the compression-resistant frame and the two side supporting seats, the compression-resistant frame comprises a compression-resistant plate, an inner connecting block, a middle compression-resistant block, a decompression spring, two first side compression-resistant plates and two first centering spring rods, the compression-resistant plate is arranged outside the butterfly cylinder and abuts against the inner wall of the heat preservation main body, the middle compression-resistant block is arranged in the butterfly cylinder and is connected with the compression-resistant plate through the compression-resistant plate, the upper end of the middle compression-resistant block is provided with two first notch edges, the lower end of the bottom supporting block is provided with two second notch edges, the two first side compression-resistant plates are respectively arranged on the two sides of the compression-resistant blocks and are respectively abutted against the wedge-shaped side supporting blocks through the two side compression-resistant blocks and the first side compression-resistant blocks.

According to the high-strength light heat preservation layer with the decoration function, the side support seat comprises a second side pressure resistant plate, second centering spring rods and a bottom centering rod, two first pressure resistant holes are formed in the second side pressure resistant plate, a first rod body of the first centering spring rods is arranged in the first pressure resistant holes, a first centering spring 8 of the first centering spring rods abuts against the first side pressure resistant plate and the second side pressure resistant plate, the second centering spring rods are arranged between the second side pressure resistant plate and the inner wall of the butterfly cylinder, a second rod body of the second centering spring rods is arranged in the second pressure resistant hole of the second side pressure resistant plate in a penetrating mode, and the bottom centering rod is arranged on the inner wall of the butterfly cylinder and penetrates in a third pressure resistant hole of the second side pressure resistant plate and a fourth pressure resistant hole of the first side pressure resistant plate;

the bottom support frame comprises a bottom support cylinder, a bottom support plate, two bottom support pulley rods and two inclined hinge rods, wherein the bottom support cylinder is arranged on the inner bottom surface of the butterfly cylinder, two sides of the bottom support plate are respectively connected with the inner wall of the bottom support cylinder in a sliding mode through the bottom support pulley rods, the two inclined hinge rods are respectively arranged on two sides of the upper end of the bottom support plate, one end of each inclined hinge rod is hinged with the bottom support plate, and the other end of each inclined hinge rod is hinged with the bottom of the second side pressure resisting plate.

Compared with the prior art, the invention at least comprises the following beneficial effects:

1. the invention provides a high-strength light heat-insulating layer with a decoration function, which comprises the following components: the heat preservation main body is arranged on the front surface of the wall body, and in order to improve the firmness of the heat preservation main body, the inside of the heat preservation main body is provided with a reinforcing mechanism, so that the heat preservation main body has firmness and the service life is prolonged; the front surface of the heat preservation main body is provided with a plane material plate for decoration.

2. The invention provides a high-strength light heat-insulating layer with a decoration function, which is provided with a supporting plate, wherein the supporting plate can firmly support a supporting rod, a connecting rod and a tilting rod under the support of a heat-insulating layer main body, so that the supporting rod, the connecting rod, the tilting rod and a reinforcing rib are mutually matched to form a plurality of triangular structures for conducting stress, the tilting rod can firmly support a connecting rod under the support of the reinforcing rib and the supporting plate in a matched manner, the connecting rod can strengthen the position of the heat-insulating layer main body between every two tilting rods to be firmer, the reinforcing rib can firmly support a corrugated plate under the support of the heat-insulating layer main body through a connecting plate, and the corrugated plate and the connecting plate are matched to form a plurality of triangular structures, so that the position of the corrugated plate close to the front surface of the heat-insulating layer main body is firmer by utilizing the triangular structure, the heat-insulating layer main body can be firmer by utilizing the stability effect of the triangle, and the service life is prolonged.

3. The invention provides a high-strength light heat-insulating layer with a decoration function, which is provided with a decoration strip, the decoration strip can firmly support a hook under the support of a plane material plate, and a certain radian is formed after a plurality of devices are assembled and installed, so that a decoration effect is achieved, and a worker can hang other decoration articles on the outer side of the hook under the support of the decoration strip, so that the worker can decorate the device by utilizing other decoration articles which can be hung, and the device can be decorated according to the demands of people, thereby providing convenience for people and making the device more attractive.

Additional advantages, objects, and features of the invention will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the invention.

Drawings

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention. In the drawings:

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a schematic perspective view of an L-shaped groove in the invention;

FIG. 3 is a schematic view of the structure of the insulating layer body according to the present invention;

FIG. 4 is an enlarged schematic view of the structure shown in FIG. 3A according to the present invention;

FIG. 5 is a schematic view of the structure of the embedded board of the present invention;

FIG. 6 is a schematic structural view of a first compression module according to the present invention;

FIG. 7 is a schematic structural view of a second compression module according to the present invention;

FIG. 8 is an enlarged schematic view of the structure of FIG. 7B in accordance with the present invention;

FIG. 9 is an enlarged schematic view of the structure of FIG. 7C in accordance with the present invention;

fig. 10 is an enlarged schematic view of the structure of fig. 7D according to the present invention.

Detailed Description

The present invention is described in further detail below with reference to the drawings and examples to enable those skilled in the art to practice the invention by referring to the description.

It will be understood that terms, such as "having," "including," and "comprising," as used herein, do not preclude the presence or addition of one or more other elements or groups thereof.

As shown in fig. 1 to 5, the present invention provides a high-strength lightweight thermal insulation layer with decoration function, comprising: the heat preservation main body 2, heat preservation main body 2 sets up on the front of wall body 1, the inside of heat preservation main body 2 is provided with strengthening mechanism 5, the front of heat preservation main body 2 is provided with plane materiel plate 4.

The working principle and the beneficial effects of the technical scheme are as follows: the invention provides a high-strength light heat-insulating layer with a decoration function, which comprises the following components: the heat preservation main body 2, wherein the heat preservation main body 2 is arranged on the front surface of the wall body 1, and in order to increase the firmness of the heat preservation main body 2, a reinforcing mechanism 5 is arranged in the heat preservation main body 2, and the heat preservation main body 2 has firmness through the reinforcing mechanism 5, so that the service life is prolonged; wherein, the front of heat preservation main part 2 is provided with plane materiel board 4, plays the decorative effect.

In one embodiment, the reinforcement mechanism 5 includes a stay plate, a stay bar 501, a connecting rod 502 and a tilting rod 503, the back of the insulation main body 2 is embedded with the stay plate, the front of the stay plate is provided with a plurality of stay bars 501, three connecting rods 502 and a plurality of tilting rods 503, and the stay bars 501, the connecting rods 502 and the tilting rods 503 are embedded and arranged in the insulation main body 2.

Further, the method further comprises the following steps: the strengthening rib 505, the one end of connecting rod 502 is provided with strengthening rib 505, and two near the top and bottom the outside of strengthening rib 505 is connected with the other end of vaulting pole 501 and leaning on pole 503 respectively to form the triangle structure with connecting rod 502 cooperation, be connected between connecting rod 502 and the leaning on pole 503 of both sides that is close to intermediate position department on the leaning on pole 503 and be provided with connecting rod 504, be provided with link plate 507 between two liang of strengthening rib 505, link plate 507's front and back are provided with buckled plate 508.

The working principle and the beneficial effects of the technical scheme are as follows: the concrete structure of strengthening mechanism 5 is provided in this embodiment, the strengthening mechanism 5 of this structure includes the fagging, a set of vaulting pole 501 is installed in the front of fagging, three connecting rod 502 and a set of dwang 503, a set of vaulting pole 501, three connecting rod 502 and a set of dwang 503 are inlayed and are installed in the inside of heat preservation main part 2, the strengthening rib 505 is installed to the one end of three connecting rod 502, the outside of two strengthening ribs 505 that are close to top and bottom is connected with the other end of vaulting pole 501 and dwang 503 respectively, and form triangular structure with the cooperation of connecting rod 502, be close to the connecting rod 504 of intermediate position department on the vaulting pole 503 and be connected between the dwang 503 of both sides, the link 507 is installed between two liang of strengthening rib 505, the front and the back of link 507 are installed buckled plate 508, the fagging can stabilize the vaulting pole 501 under the support of heat preservation main part 2, connecting rod 502, make the vaulting pole 501, connecting rod 503, connecting rod 508, the tie rod 503 and strengthening rib 505 mutually support and constitute a plurality of triangular structure and conduct stress, can be used in the cooperation with the other end of connecting rod 508 and make the connection rod 504 of the heat preservation main part 2 more, the life-span of the connection structure can be more firmly through the connection between the two more than the tie rod 502, the tie rod 505 is located in the position of the tie rod 2, and the tie rod 2 is more firmly used in the position of the tie rod 505, and the tie rod 2 is more firmly connected with the connecting rod 504, the tie rod 2.

In one embodiment, the back plate 101 is disposed on the front surface of the wall body 1, and the rivet 506 is disposed inside the insulation layer main body 2 in a penetrating manner, and the rivet 506 is connected with the back plate 101.

The working principle and the beneficial effects of the technical scheme are as follows: in this embodiment, be provided with backplate 101 in the front of wall body 1, the fagging is installed in the back mosaic of heat preservation main part 2, and rivet 506 is installed in the inside penetration of heat preservation main part 2, and rivet 506 is connected with backplate 101, and rivet 506 can utilize the screw effect to be connected with heat preservation main part 2 and backplate 101 firm.

In one embodiment, a plugboard 201 is respectively arranged at one side and the bottom of the insulating layer main body 2, and an embedded board 202 is arranged at one end of the plugboard 201; further, an L-shaped groove 3 and an abdication groove 301 are formed in the upper left corner of the heat insulation layer main body 2, the abdication groove 301 is communicated with the L-shaped groove 3, a jogging groove 302 is formed in the heat insulation layer main body 2, and the jogging groove 302 is communicated with the abdication groove 301 and the L-shaped groove 3.

The working principle and the beneficial effects of the technical scheme are as follows: in this embodiment, the plugboard 201 is respectively disposed at one side and bottom of the insulating layer main body 2, the embedding board 202 is mounted at one end of the plugboard 201, the insulating layer main body 2 can play a role in insulating heat, and can provide a stable support for the plugboard 201, so that the plugboard 201 stably supports the embedding board 202, the L-shaped groove 3 is formed at the upper left corner of the insulating layer main body 2, the abdicating groove 301 is communicated with the L-shaped groove 3, the embedding groove 302 is formed in the insulating layer main body 2, the embedding groove 302 is communicated with the abdicating groove 301 and the L-shaped groove 3, the L-shaped groove 3 can provide an insertion space for the plugboard 201 and a movable guiding function, the abdicating groove 301 can provide a movable space for the embedding board 202, so that the embedding board 202 can enter the embedding groove 302, and the embedding board 202 can be embedded, thereby a worker can combine and connect the second high-strength light insulating layer with a decoration function with the L-shaped groove 3, the abdicating groove 301 and the embedding groove 302 by utilizing the plugboard 201 and the embedding board 202, so that the high-strength light insulating layer with a decoration function can be combined and connected with the two layers with a light-weight insulating layer with a decoration function, thereby ensuring that the two-weight insulating layers with a light-weight insulating layer with a high-strength and a light-weight, and a high-strength heat insulating layer can be mounted firmly and can be firmly connected.

In one embodiment, the back of the surface material plate 4 is provided with an adhesive 401, and the adhesive 401 is adhered to the front surface of the insulation layer main body 2.

The working principle and the beneficial effects of the technical scheme are as follows: in this embodiment, the front surface of the heat insulation layer main body 2 is provided with the surface material plate 4, the back of the surface material plate 4 is provided with the adhesive 401, the adhesive 401 is adhered to the front surface of the heat insulation layer main body 2, the adhesive 401 has higher viscosity, and the surface material plate 4 can be firmly adhered to the front surface of the heat insulation layer main body 2, so that the surface material plate 4 can provide a protection effect for the heat insulation layer main body 2.

In one embodiment, the front face of the facestock sheet 4 is provided with a plurality of decorative strips 402, and the bottom of the decorative strips 402 is provided with a plurality of hooks 403.

The working principle and the beneficial effects of the technical scheme are as follows: in this embodiment, be provided with a plurality of ornamental strips 402 in the front of plane materiel board 4, the bottom of ornamental strip 402 is provided with a plurality of couples 403, and ornamental strip 402 can firmly support couple 403 under plane materiel board 4's support, and ornamental strip 402 has certain radian and can form continuous radian after the installation of a plurality of high strength light insulation layer combinations with decoration function, thereby play decorative effect, and the staff can hang other decorative article in the outside of couple 403 under ornamental strip 402's support, make the staff can utilize other decorative article that can hang to decorate this high strength light insulation layer with decoration function, thereby make this high strength light insulation layer with decoration function can decorate according to people's demand, it is convenient to provide for people, make this high strength light insulation layer with decoration function more pleasing to the eye.

As shown in fig. 6 to 10, in one embodiment, the insulation main body 2 is provided with a plurality of first compression modules 6, and the first compression modules 6 include a compression cylinder 61 and two second compression modules 62, where the two second compression modules 62 are symmetrically disposed in the insulation main body 2, and the compression cylinder 61 is disposed between the two second compression modules 62.

The working principle and the beneficial effects of the technical scheme are as follows: in order to increase the bearing capacity of the heat-insulating layer main body 2 when receiving impact force, a plurality of first compression modules 6 are arranged on the inner wall of the heat-insulating layer main body 2 in the embodiment, so that the position of the front face is further firmer, the heat-insulating layer main body 2 can be firmer by utilizing the action of the first compression modules 6 for counteracting the impact force, and the service life is prolonged;

the first compression-resistant module 6 comprises a compression-resistant cylinder 61 and two second compression-resistant modules 62, wherein the two second compression-resistant modules 62 are symmetrically arranged in the heat-insulating layer main body 2 and respectively abut against the inner wall of the heat-insulating layer main body 2, the compression-resistant cylinder 61 is arranged in the middle of the two second compression-resistant modules 62, the two second compression-resistant modules 62 are fixed, offset dislocation is avoided, the two second compression-resistant modules 62 can better counteract impact force, the purpose of reducing the impact force received by the heat-insulating layer main body 2 is further achieved, and deformation of the impact part of the heat-insulating layer main body 2 can be effectively prevented.

In one embodiment, the second compression module 62 includes a butterfly cylinder 63, a compression frame 64, two side supporting seats 65 and a bottom supporting frame 66, the compression frame 64 is disposed in the butterfly cylinder 63, two side supporting seats 65 are disposed in the butterfly cylinder 63 and located at two sides of the compression frame 64 and connected with the butterfly cylinder 63, the bottom supporting frame 66 is disposed at the bottom of the butterfly cylinder 63 and is movably connected with the compression frame 64 and the two side supporting seats 65 respectively, the compression frame 64 includes a compression plate 641, an inner connecting block 642, an intermediate compression block 643, a decompression spring 644, two first side compression plates 645 and two first centering spring rods 646, the compression plate 641 is disposed at the outer part of the butterfly cylinder 63 and abuts against the inner wall of the heat insulation layer main body 2, the intermediate compression block 643 is disposed in the butterfly cylinder 63 and is connected with the compression plate 63 through the inner connecting block 642, the upper end of the intermediate compression block 643 is provided with two first side supporting blocks 6431, two lower ends of the intermediate compression block 643 are disposed at two sides of the two side supporting blocks 6435 and two side compression blocks 6432 are respectively connected with the two side compression blocks 6435 through two side compression springs 6435, two side compression blocks 6435 are respectively abutted against the two side compression blocks 6432.

The working principle and the beneficial effects of the technical scheme are as follows: in this embodiment, a specific structure of the second compression-resistant module 62 is provided, where the second compression-resistant module 62 includes a butterfly-shaped cylinder 63, a compression-resistant frame 64, two side supporting seats 65 and a bottom supporting frame 66, specifically, the compression-resistant frame 64 is installed in the butterfly-shaped cylinder 63, the two side supporting seats 65 are installed in the butterfly-shaped cylinder 63 and located at two sides of the compression-resistant frame 64 and connected with the inner wall of the butterfly-shaped cylinder 63, and the bottom supporting frame 66 is installed at the bottom of the butterfly-shaped cylinder 63 and is movably connected with the compression-resistant frame 64 and the two side supporting seats 65 respectively, and the motion process of the compression-resistant frame 64 is configured by the two side supporting seats 65 and the bottom supporting frame 66 to counteract the impact force received, so as to prevent the thermal insulation layer main body 2 from being deformed due to the impact force.

The pressure-resistant frame 64 includes a pressure-resistant plate 641, an inner connecting block 642, an intermediate pressure-resistant block 643, a pressure-reducing spring 644, two first side pressure-resistant plates 645, and two first centering spring levers 646, specifically, the pressure-resistant plate 641 is mounted outside the butterfly cylinder 63 and abuts against the inner wall of the heat-insulating layer main body 2, the intermediate pressure-resistant block 643 is mounted inside the butterfly cylinder 63 and is connected to the pressure-resistant plate 641 through the inner connecting block 642, two first notch edges 6431 are provided at the upper end of the intermediate pressure-resistant block 643, two second notch edges 6432 are provided at the lower end, and two first side pressure-resistant plates 645 are mounted on both sides of the intermediate pressure-resistant block 643 and abut against the first notch edges 6431 and the second notch edges 643 through the upper wedge 6451 and the lower wedge 6452, respectively, so when the pressure-resistant plate 641 located on the inner wall of the heat-insulating layer main body 2 receives an impact force, the pressure-resistant plate 641 is pressed inward, the inner connecting block 642 extrudes the middle anti-pressing block 643 towards the inside of the butterfly cylinder 63, the middle anti-pressing block 643 is further extruded inwards to the decompression spring 644, the decompression spring 644 is extruded to the bottom support 66, a part of impact force is offset by the decompression spring 644 and the bottom support 66, simultaneously, two second notch edges 6432 at the lower end of the middle anti-pressing block 643 are extruded towards two sides to extrude the lower wedge-shaped block 6452, the lower wedge-shaped block 6452 is extruded to the first side anti-pressing block 645, the first side anti-pressing block 645 extrudes the side support 65 through the two first centering spring rods 646, the side support 65 drives the bottom support 66 to move, the middle anti-pressing block 643 is prevented from extruding the decompression spring 644 towards the inside under the action of the bottom support 66 and the side support 65, the service life of the decompression spring 644 is prolonged, the side support 65 and the bottom support 66 are matched with the anti-pressing frame 64 to offset the impact force, further increasing the impact resistance of the insulation body 2.

In one embodiment, the side supporting seat 65 includes a second side pressure-resistant plate 651, a second centering spring rod 652 and a bottom centering rod 653, two first pressure-resistant holes 654 are provided on the second side pressure-resistant plate 651, a first rod 647 of the first centering spring rods 646 is provided in the first pressure-resistant holes 654, and a first centering spring 648 of the first centering spring rod 646 abuts between the first side pressure-resistant plate 645 and the second side pressure-resistant plate 651, the second centering spring rod 652 is provided between the second side pressure-resistant plate 651 and the inner wall of the butterfly cylinder 63, a second rod 655 of the second centering spring rod 652 is provided in the second pressure-resistant hole 656 of the second side pressure-resistant plate 651, and the bottom centering rod 653 is provided on the inner wall of the butterfly cylinder 63 and in the third pressure-resistant hole 657 of the second side pressure-resistant plate 651 and the fourth pressure-resistant hole 649 of the first side pressure-resistant plate 651;

the bottom support 66 comprises a bottom support cylinder 661, a bottom support plate 662, two bottom support pulley rods 663 and two inclined hinge rods 664, the bottom support cylinder 661 is arranged on the inner bottom surface of the butterfly cylinder 63, two sides of the bottom support plate 662 are respectively connected with the inner wall of the bottom support cylinder 661 in a sliding mode through the bottom support pulley rods 663, the two inclined hinge rods 664 are respectively arranged on two sides of the upper end of the bottom support plate 662, one end of each inclined hinge rod 664 is hinged with the bottom support plate 662, and the other end of each inclined hinge rod 664 is hinged with the bottom of the second side pressure resisting plate 651.

The working principle and the beneficial effects of the technical scheme are as follows: the specific structures of the side support seat 65 and the bottom support frame 66 are provided in the embodiment, and the impact resistance bearing capacity of the heat insulation layer main body 2 is further increased through the cooperation of the side support seat 65 and the bottom support frame 66 and the compression-resistant frame 64;

the side supporting seat 65 includes a second side pressure-resistant plate 651, a second centering spring rod 652 and a bottom centering rod 653, specifically, the second side pressure-resistant plate 651 is disposed between the first side pressure-resistant plate 645 and the inner wall of the butterfly cylinder 63, two first pressure-resistant holes 654 are formed in the second side pressure-resistant plate 651, the first rod 647 in the first centering spring rod 646 is penetrated in the first pressure-resistant holes 654, and the first centering spring 648 in the first centering spring rod 646 can be abutted between the first side pressure-resistant plate 645 and the second side pressure-resistant plate 651;

the second centering spring rod 652 is installed between the second side pressure-resistant plate 651 and the inner wall of the butterfly cylinder 63, such that the second centering spring 658 of the second centering spring rod 652 abuts against the second side pressure-resistant plate 651 and the butterfly cylinder 63, the second rod 655 is inserted into the second pressure-resistant hole 656 of the second side pressure-resistant plate 651, and the bottom centering rod 653 is installed on the inner wall of the butterfly cylinder 63 and inserted into the third pressure-resistant hole 657 of the second side pressure-resistant plate 651 and the fourth pressure-resistant hole 649 of the first side pressure-resistant plate 645; so the middle anti-pressing block 643 presses the two lower wedge blocks 6452, so that the lower wedge blocks 6452 press the first side anti-pressing plate 645, and the bottom anti-pressing plate 645 is penetrated by the bottom anti-pressing rods 653 and the second side anti-pressing plate 651, so that the first side anti-pressing plate 645 can move on the bottom anti-pressing rods 653, and then press the two first centering springs 648 in the two first centering spring rods 646 onto the second side anti-pressing plate 651, so that the two second side anti-pressing plates 651 move towards the inner wall of the butterfly cylinder 63, and then drive the bottom bracket 66 to move, so that the bottom bracket 66 supports the decompression springs 844, and the middle anti-pressing block 643 is prevented from pressing the decompression springs 644 inwards to too great extent;

meanwhile, since the second centering spring rod 652 is located between the second side pressure-resistant plate 651 and the inner wall of the butterfly cylinder 63, the second side pressure-resistant plate 651 is supported by the second centering spring rod 652 to facilitate the subsequent return of the second side pressure-resistant plate 651, and the first side pressure-resistant plate 645 also returns to the original position under the action of the first centering spring rod 646; wherein the bottom bracket 66 comprises a bottom bracket cylinder 661, a bottom bracket plate 662, two bottom bracket pulley rods 663 and two diagonal hinge rods 664, wherein the bottom bracket cylinder 661 is arranged on the inner bottom surface of the butterfly cylinder 63, two sides of the bottom bracket plate 662 are respectively connected with the inner wall of the bottom bracket cylinder 661 in a sliding way through the bottom bracket pulley rods 663, the two diagonal hinge rods 664 are respectively arranged at two sides of the upper end of the bottom bracket plate 662, one end of the diagonal hinge rods 664 are hinged with the bottom bracket plate 662, and the other end of the diagonal hinge rods 664 are hinged with the bottom of the second side pressure-resistant plate 651, so when the second side pressure-resistant plate 651 moves towards the inner wall of the butterfly cylinder 63, the bottom bracket plate 662 moves towards the middle pressure-resistant block 643 through the diagonal hinge rods 664, and the bottom bracket plate 662 moves in the bottom bracket cylinder 661 through the bottom bracket pulley rods 663, so that the bottom bracket plate 662 supports the pressure-reducing springs 644; similarly, when the second side pressure resistant plate 651 is reset, the inclined hinge rod 664 moves towards the bottom support plate 662 and into the bottom support cylinder 661, and the impact force received by the second pressure resistant module 62 in the process can be counteracted, so that the impact resistance bearing capacity of the heat insulation layer main body 2 is further increased, and deformation of the place where the heat insulation layer main body 2 receives the impact force is avoided.

In the description of the present invention, it should be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", "axial", "radial", "circumferential", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element being referred to must have a specific orientation, be configured and operated in a specific orientation, and therefore should not be construed as limiting the present invention.

In the present invention, unless explicitly specified and limited otherwise, the terms "mounted," "connected," "secured," and the like are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally formed; may be mechanically connected, may be electrically connected or may be in communication with each other; either directly or indirectly, through intermediaries, or both, may be in communication with each other or in interaction with each other, unless expressly defined otherwise. The specific meaning of the above terms in the present invention can be understood by those of ordinary skill in the art according to the specific circumstances.

Although embodiments of the present invention have been disclosed above, it is not limited to the details and embodiments shown and described, it is well suited to various fields of use for which the invention would be readily apparent to those skilled in the art, and accordingly, the invention is not limited to the specific details and illustrations shown and described herein, without departing from the general concepts defined in the claims and their equivalents.

Claims

1. A high strength lightweight thermal insulation layer with decorative function, comprising: the heat preservation main body (2), the heat preservation main body (2) is arranged on the front face of the wall body (1), a reinforcing mechanism (5) is arranged in the heat preservation main body (2), and a plane material plate (4) is arranged on the front face of the heat preservation main body (2);

the heat preservation device comprises a heat preservation layer main body (2), and is characterized in that a plurality of first compression resistant modules (6) are arranged in the heat preservation layer main body (2), each first compression resistant module (6) comprises a compression resistant cylinder (61) and two second compression resistant modules (62), the two second compression resistant modules (62) are symmetrically arranged in the heat preservation layer main body (2), and each compression resistant cylinder (61) is arranged between the two second compression resistant modules (62);

the second compression module (62) comprises a butterfly cylinder (63), a compression frame (64), two side support seats (65) and a bottom support frame (66), the compression frame (64) is arranged in the butterfly cylinder (63), the two side support seats (65) are arranged in the butterfly cylinder (63) and located at two sides of the compression frame (64) and connected with the butterfly cylinder (63), the bottom support frame (66) is arranged at the bottom of the butterfly cylinder (63) and is respectively and movably connected with the compression frame (64) and the two side support seats (65), the compression frame (64) comprises a compression plate (641), an inner connection block (642), an intermediate compression block (643), a decompression spring (644), two first side compression plates (645) and two first centering spring rods (646), the compression plate (641) is arranged at the outer part of the butterfly cylinder (63) and is abutted against the inner wall of the main body (2), the intermediate compression block (643) is arranged in the butterfly cylinder (63) and is respectively connected with the two upper side compression plates (643) of the two middle compression plates (643) through two side compression plates (643) and two side compression plates (643) are respectively arranged at two sides of the two compression plates (643), the first notch edge (6431) and the second notch edge (6432) are propped against by the upper wedge block (6451) and the lower wedge block (6452) respectively, the first side pressure-resistant plate (645) is movably connected with the side support seat (65) through two first centering spring rods (646), and the middle pressure-resistant block (643) is connected with the bottom support frame (66) through the pressure-reducing spring (644);

the side support seat (65) comprises a second side compression resistant plate (651), a second centering spring rod (652) and a bottom centering rod (653), two first compression resistant holes (654) are formed in the second side compression resistant plate (651), a first rod body (647) in the first centering spring rod (646) is arranged in the first compression resistant holes (654), a first centering spring (648) in the first centering spring rod (646) abuts against the first side compression resistant plate (645) and between the second side compression resistant plate (651), the second centering spring rod (652) is arranged between the second side compression resistant plate (651) and the inner wall of the second butterfly cylinder (63), the second rod body (655) of the second centering spring rod (652) is arranged in the second compression resistant hole (656) of the second side compression resistant plate (651), and the bottom centering rod (653) is arranged on the inner wall of the butterfly cylinder (63) and penetrates through the third compression resistant plate (645) of the fourth compression resistant plate (647);

the bottom support frame (66) comprises a bottom support cylinder (661), a bottom support plate (662), two bottom support pulley rods (663) and two inclined hinge rods (664), wherein the bottom support cylinder (661) is arranged on the inner bottom surface of the butterfly cylinder (63), two sides of the bottom support plate (662) are respectively connected with the inner wall of the bottom support cylinder (661) in a sliding mode through the bottom support pulley rods (663), the two inclined hinge rods (664) are respectively arranged on two sides of the upper end of the bottom support plate (662), one end of each inclined hinge rod (664) is hinged to the bottom support plate (662), and the other end of each inclined hinge rod is hinged to the bottom of the second side pressure resistant plate (651).

2. The high-strength light heat-insulating layer with a decoration function according to claim 1, wherein the reinforcing mechanism (5) comprises a supporting plate, supporting rods (501), connecting rods (502) and tilting rods (503), the supporting plate is mounted on the back of the heat-insulating layer main body (2) in an embedded mode, a plurality of supporting rods (501), three connecting rods (502) and a plurality of tilting rods (503) are arranged on the front face of the supporting plate, and the supporting rods (501), the connecting rods (502) and the tilting rods (503) are embedded in the heat-insulating layer main body (2).

3. The high strength lightweight thermal insulation layer with decorative function of claim 2, further comprising: strengthening rib (505), the one end of connecting rod (502) is provided with strengthening rib (505), is close to two of top and bottom the outside of strengthening rib (505) is connected with the other end of vaulting pole (501) and leaning on pole (503) respectively to form triangular structure with connecting rod (502) cooperation, be connected between connecting rod (502) and the leaning on pole (503) of both sides that are close to intermediate position department on leaning on pole (503) and be provided with connecting rod (504), be provided with link plate (507) between two liang of strengthening rib (505), the front and the back of link plate (507) are provided with buckled plate (508).

4. The high-strength light heat-insulating layer with the decoration function according to claim 1, wherein the back plate (101) is arranged on the front surface of the wall body (1), rivets (506) are arranged in the heat-insulating layer main body (2) in a penetrating mode, and the rivets (506) are connected with the back plate (101).

5. The high-strength light-weight heat-insulating layer with a decoration function according to claim 1, wherein a plugboard (201) is respectively arranged at one side and the bottom of the heat-insulating layer main body (2), and an embedding board (202) is arranged at one end of the plugboard (201).

6. The high-strength light heat-insulating layer with the decorative function according to claim 1, wherein an L-shaped groove (3) and a yielding groove (301) are formed in the upper left corner of the heat-insulating layer main body (2), the yielding groove (301) is communicated with the L-shaped groove (3), an embedded groove (302) is formed in the heat-insulating layer main body (2), and the embedded groove (302) is communicated with the yielding groove (301) and the L-shaped groove (3).

7. The high-strength light heat-insulating layer with the decoration function according to claim 1, wherein an adhesive (401) is arranged on the back of the surface material plate (4), the adhesive (401) is adhered to the front surface of the heat-insulating layer main body (2), a plurality of decorative strips (402) are arranged on the front surface of the surface material plate (4), and a plurality of hooks (403) are arranged at the bottom of the decorative strips (402).