CN211899019U - Vacuum heat insulation plate - Google Patents

Abstract

The utility model relates to a vacuum insulation panel, include: wall body and a plurality of vacuum insulation board bodies of installing on the wall body all around are provided with on the wall body and are used for the connecting device to adjacent vacuum insulation board body fixed connection, and connecting device includes: the bearing frame is arranged on the periphery of the wall body; the bearing cavity is arranged on one side of the bearing frame, which is far away from the wall body, and is matched with one side of the vacuum heat insulation plate body; the connecting mechanism is arranged on the bearing frame and used for fixedly connecting the adjacent vacuum heat insulation plate bodies, and a fixing mechanism used for fastening and fixing the bearing frame is arranged between the wall body and the bearing frame. The utility model can splice a plurality of vacuum heat insulation board bodies together through the connecting device, thereby satisfying the specifications required by different vacuum heat insulation board bodies and further improving the flexibility of the vacuum heat insulation board bodies; and the vacuum heat insulation plate body can save time and reduce labor force in the installation process.

Description

Vacuum heat insulation plate

Technical Field

The utility model belongs to the technical field of the technique of vacuum insulation board and specifically relates to a vacuum insulation board is related to.

Background

The vacuum heat insulation board is also called as a VIP board at present, is a novel heat insulation material and is formed by compounding a filling core material and a vacuum protection surface layer. The vacuum heat-insulating plate has the advantages of low heat conductivity coefficient, good heat-insulating effect, small occupied space proportion, energy conservation, low carbon, environmental protection, safety and the like, is widely applied to the fields of household appliance heat preservation, biological refrigeration transportation, wall heat preservation, building heat insulation and the like, has obvious energy-saving effect, and is the most advanced high-efficiency heat-insulating material in the world at present.

When the existing vacuum heat insulation plate is applied to a building floor plate, the vacuum heat insulation plate is generally combined with concrete, so that the volume and the weight of the vacuum heat insulation plate are large, the shape and the size of the vacuum heat insulation plate need to be determined in advance, and then the vacuum heat insulation plate needs to be installed on a wall body of a building together through multiple workers, so that the heat insulation and heat preservation effects are achieved for the building.

The above prior art solutions have the following drawbacks: the vacuum heat insulation board is predetermined in shape and size, is difficult to combine together in actual use, has low flexibility and is difficult to meet the specifications required by different vacuum heat insulation boards.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art exists, one of the purposes of the utility model is to provide a vacuum heat insulating board, can splice polylith vacuum heat insulating board body each other through connecting device together to can satisfy the required specification of different vacuum heat insulating board bodies, and then can improve the flexibility of vacuum heat insulating board body.

The above utility model discloses an above-mentioned utility model purpose can realize through following technical scheme:

a vacuum insulation panel, comprising: the wall body and a plurality of install in the wall body is last vacuum insulation board body all around, be provided with on the wall body and be used for adjacent vacuum insulation board body fixed connection's connecting device, connecting device includes: the bearing frame is arranged on the periphery of the wall body; the bearing cavity is arranged on one side of the bearing frame, which is far away from the wall body, and is matched with one side of the vacuum heat insulation plate body; the connecting mechanism is arranged on the bearing frame and used for fixedly connecting the plurality of adjacent vacuum insulation panel bodies, and a fixing mechanism used for fastening and fixing the bearing frame is arranged between the wall body and the bearing frame.

By adopting the technical scheme, the bearing frame and the connecting mechanism are matched with each other, so that a plurality of vacuum heat insulation plate bodies can be spliced together, the specifications required by different vacuum heat insulation plate bodies can be met, and the flexibility of the vacuum heat insulation plate bodies can be improved; the vacuum heat insulation board bodies are assembled in a splicing mode, so that time can be saved, and labor force can be reduced; through setting up fixed establishment, can be convenient for fix the bearing frame on this wall body firmly.

The present invention may be further configured in a preferred embodiment as: the connecting mechanism comprises a plurality of first connecting blocks which are arranged in the bearing cavity; the first supporting groove is formed in the first connecting block; a plurality of second connecting blocks arranged in the bearing cavity; the second support grooves are symmetrically formed in the second connecting block; the connecting component is connected with a first bearing rod which is arranged on one side of the second connecting block, which deviates from the bearing frame, and a connecting component which is connected with one side of the first bearing rod, which deviates from the bearing frame, and is used for fixedly connecting the plurality of adjacent vacuum heat insulation plate bodies.

Through adopting above-mentioned technical scheme, through setting up the structure that first connecting block, second connecting block and first carrier bar cooperate each other, can be convenient for with one side fixed mounting that the vacuum insulation board body was born the frame in this bears the weight of the intracavity.

The present invention may be further configured in a preferred embodiment as: the connecting assembly comprises a plurality of third connecting blocks connected to one side, away from the bearing frame, of the first bearing rod; a plurality of third supporting grooves formed in the third connecting block; a plurality of second bearing rods connected between the adjacent third connecting blocks; a plurality of extension plates disposed on peripheral sides of the vacuum insulation panel body; the limiting sleeve block is covered on the third connecting block and is abutted against the extending plate; a plurality of first round holes penetrating through the limiting sleeve block and the extension plate; a plurality of first threaded holes which are formed in the third connecting block and correspond to the first round holes; the first bearing rod or the second bearing rod is provided with a plurality of first threaded holes, a plurality of first bolts penetrating through the first round holes and in threaded connection with the first threaded holes, and a limiting piece covering the first bearing rod or the second bearing rod and abutted against the extension plate.

Through adopting above-mentioned technical scheme, through setting up the structure that third connecting block, second carrier bar, spacing cover piece and first bolt mutually support, can be convenient for play fixed spacing effect with the extension board on the vacuum insulation board body to can make and splice polylith vacuum insulation board body each other.

The present invention may be further configured in a preferred embodiment as: the limiting part comprises a limiting sleeve plate which is covered on the first bearing rod or the second bearing rod and is abutted with the extension plate; a plurality of second round holes penetrating through the limiting sleeve plate and the extension plate; a plurality of second threaded holes which are all arranged on the third connecting block and the second connecting block and correspond to the second round holes and a plurality of second bolts which penetrate through the second round holes and are in threaded connection with the second threaded holes.

Through adopting above-mentioned technical scheme, through setting up the structure that spacing sleeve board and second bolt mutually supported, can further play the spacing effect of reciprocal anchorage with the extension board between adjacent to make the vacuum insulation board body between adjacent can splice each other, and then can improve the flexibility of vacuum insulation board body when the installation.

The present invention may be further configured in a preferred embodiment as: the fixing mechanism comprises a cavity which is arranged on the wall body and matched with the bearing frame; a plurality of third threaded holes formed in the cavity; a plurality of fixing grooves arranged in the bearing cavity; a plurality of fixing plates which are arranged in the bearing cavity and matched with the fixing grooves; a plurality of third round holes which simultaneously penetrate through the fixing plate and the bearing frame and correspond to the third threaded holes, and a plurality of third bolts which penetrate through the third round holes and are in threaded connection with the third threaded holes.

Through adopting above-mentioned technical scheme, through setting up the structure that fixed plate and third bolt mutually supported, can be so that the bearing frame is firm to be fixed on the wall body.

The present invention may be further configured in a preferred embodiment as: a plurality of limiting blocks are arranged between the extension plate and the bearing frame, and limiting grooves matched with the extension plate are formed in the limiting blocks.

By adopting the technical scheme, the limiting groove on the limiting block is arranged, so that the extending plate can be clamped effectively, and the vacuum heat insulation plate body can be more stably arranged on the bearing frame.

The present invention may be further configured in a preferred embodiment as: the limiting block is a rubber block.

Through adopting above-mentioned technical scheme, be the block rubber through setting up the stopper, can be so that extension board and this block rubber laminating inseparabler to make the vacuum insulation board body can install on bearing the frame more firmly.

The present invention may be further configured in a preferred embodiment as: the bearing frame, the first connecting block, the second connecting block, the third connecting block, the first bearing rod and the second bearing rod are all made of stainless steel.

By adopting the technical scheme, the bearing frame, the first connecting block, the second connecting block, the third connecting block, the first bearing rod and the second bearing rod are all made of stainless steel, so that the steel structure has the advantages of high strength, light dead weight and strong deformation resistance, and can conveniently play an effective bearing effect on the vacuum heat insulation plate body; and the steel structure is not easy to be oxidized and rusted, thereby prolonging the service life of the steel structure.

To sum up, the utility model discloses a following at least one useful technological effect:

1. through the arrangement of the structure that the bearing frame and the connecting mechanism are matched with each other, a plurality of vacuum heat insulation plate bodies can be spliced together, so that the specifications required by different vacuum heat insulation plate bodies can be met, and the flexibility of the vacuum heat insulation plate bodies can be improved; the vacuum heat insulation board bodies are assembled in a splicing mode, so that time can be saved, and labor force can be reduced; by arranging the fixing mechanism, the bearing frame can be conveniently and fixedly fastened on the wall body;

2. the extending plate can be tightly attached to the rubber block by arranging the limiting block as the rubber block, so that the vacuum heat insulation plate body can be more stably installed on the bearing frame;

3. the bearing frame, the first connecting block, the second connecting block, the third connecting block, the first bearing rod and the second bearing rod are all made of stainless steel, so that the vacuum insulation board has the advantages of high strength, light dead weight and strong deformation resistance, and the steel structure can conveniently play an effective bearing effect on the vacuum insulation board body; and the steel structure is not easy to be oxidized and rusted, thereby prolonging the service life of the steel structure.

Drawings

FIG. 1 is a schematic view showing the construction of a vacuum insulation panel according to the present embodiment;

FIG. 2 is a schematic view showing the structure of the vacuum insulation panel body and the connecting means according to the present embodiment;

FIG. 3 is a schematic structural view of the connecting mechanism of the present embodiment;

FIG. 4 is an enlarged schematic view of portion A of FIG. 3;

fig. 5 is a schematic structural view of the fixing mechanism of the present embodiment.

In the figure, 1, a wall body; 11. a cavity; 12. a third threaded hole; 2. a vacuum insulation panel body; 21. an extension plate; 3. a load-bearing frame; 31. a load bearing cavity; 32. a first connection block; 321. a first support groove; 33. a second connecting block; 331. a second support groove; 34. fixing grooves; 35. a fixing plate; 36. a third circular hole; 37. a third bolt; 4. a first carrier bar; 5. a third connecting block; 51. a third support groove; 52. a second carrier bar; 53. a limiting sleeve block; 54. a first circular hole; 55. a first threaded hole; 56. a first bolt; 6. a limiting sleeve plate; 61. a second circular hole; 62. a second threaded hole; 63. a second bolt; 7. a limiting block; 71. a limiting groove.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

As shown in fig. 1 and 2, for the present invention, a vacuum insulation panel comprises: the vacuum heat insulation plate comprises a wall body 1 and a plurality of vacuum heat insulation plate bodies 2 arranged on the periphery of the wall body 1, wherein extension plates 21 are fixedly connected to the peripheral side surfaces of the vacuum heat insulation plate bodies 2; be provided with connecting device on this wall body 1, this connecting device can be in the same place to the mutual concatenation of these a little vacuum insulation board bodies 2, then firmly installs these a little vacuum insulation board bodies 2 on wall body 1 to make through the mode of installing these a little vacuum insulation board bodies 2 concatenations, can save installation time and reduce the labour.

As shown in fig. 2, in the present embodiment, the connecting device includes: the vacuum heat insulation plate comprises a bearing frame 3 and a connecting mechanism, wherein the bearing frame 3 is arranged on the periphery of a wall body 1, the bearing frame 3 is of a rectangular structure, a rectangular bearing cavity 31 is formed in one side, away from the wall body 1, of the bearing frame 3, and the bearing cavity 31 is matched with one side of the vacuum heat insulation plate bodies 2; the connecting mechanism is disposed between the supporting frame 3 and the vacuum insulation panel bodies 2, and the connecting mechanism can achieve the effect of mutual splicing of the adjacent vacuum insulation panel bodies 2.

Specifically, as shown in fig. 2 and 3, in the present embodiment, the connection mechanism includes: first connecting block 32, second connecting block 33, first carrier bar 4 and coupling assembling, wherein, this first connecting block 32 is provided with a plurality ofly, these a little first connecting block 32 all fixed welding is on this inner wall of bearing the weight of chamber 31, and these a little first connecting block 32 is located this four angular position of bearing the weight of chamber 31, first supporting groove 321 has all been seted up on these a little first connecting block 32, this first supporting groove 321 mutually supports with this extension board 21 near the limit angular position of this bearing frame 3 one side, in order to support this vacuum insulation board body 2.

Meanwhile, the second connecting blocks 33 are provided with a plurality of second connecting blocks 33, the second connecting blocks 33 are fixedly welded on the inner wall of the bearing cavity 31, the second connecting blocks 33 are located between the first connecting blocks 32, two second supporting grooves 331 are formed in the second connecting blocks 33, and the two second supporting grooves 331 can be matched with the two extending plates 21 at the corner positions close to one side of the bearing frame 3 so as to support the two vacuum heat insulation plate bodies 2.

As shown in fig. 3, a plurality of first carrying rods 4 are provided, the first carrying rods 4 are fixedly connected to a side surface of the second connecting block 33 away from the carrying frame 3, and the first carrying rods 4 are perpendicular to the second connecting blocks 33; the connecting components are arranged in a plurality of numbers, the connecting components are arranged at one ends of the first bearing rods 4 deviating from the second connecting blocks 33, and the connecting components are used for mutually splicing one sides of the adjacent vacuum heat insulation board bodies 2 deviating from the bearing frame 3, so that the specifications required by different vacuum heat insulation board bodies 2 can be met, and the flexibility of the vacuum heat insulation board bodies 2 can be improved.

More specifically, as shown in fig. 4, in the present embodiment, the connecting assembly includes: third connecting block 5, second carrier bar 52, stop collar piece 53 is with first bolt 56, wherein, this third connecting block 5 is provided with two, these two third connecting blocks 5 are fixed connection respectively in this these first carrier bar 4 keep away from this bearing frame 3 one end, and this third connecting block 5 is the rectangle column structure, this third connecting block 5 all is connected with first carrier bar 4 towards this bearing frame 3 on the side all around, four third supporting grooves 51 have been seted up on this third connecting block 5, these third supporting grooves 51 can mutually support with these corners that these extension boards 21 kept away from this bearing frame 3 respectively, in order to support these vacuum body heat insulating panels 2.

Meanwhile, in the present embodiment, the second carrier bar 52 is fixedly connected between the two third connecting blocks 5; the two limit sleeve blocks 53 are arranged, the two limit sleeve blocks 53 are respectively covered on the two third connecting blocks 5, one side of the limit sleeve block 53 facing the third connecting block 5 is abutted against the extending plate 21, a plurality of first round holes 54 simultaneously penetrate through the limit sleeve block 53 and the extending plate 21, and a plurality of first threaded holes 55 corresponding to the first round holes 54 are formed in the third connecting block 5; the first bolts 56 are provided with a plurality of first bolts 56, the first bolts 56 penetrate through the first round holes 54 and are in threaded connection with the first threaded holes 55, and the limiting sleeve block 53 is fixed on the third connecting block 5 through the first bolts 56, so that the extending plate 21 on the vacuum heat insulation plate body 2 can be conveniently fixed and limited, and the limiting sleeve block 53 is further enabled to be mutually spliced with a plurality of vacuum heat insulation plate bodies 2.

As shown in fig. 4, in order to fix the extension plate 21 on the vacuum insulation panel body 2 more stably, in the present embodiment, a plurality of limiting members are disposed on the first carrier bar 4 and the second carrier bar 52, and the limiting members abut against the extension plates 21, and the limiting members include: the limiting sleeve plate 6 and the second bolt 63, the limiting sleeve plate 6 covers the first bearing rod 4 and the second bearing rod 52 respectively, and the bottom of the limiting sleeve plate 6 is abutted with the extending plates 21 on two adjacent vacuum insulation panel bodies 2 respectively.

Meanwhile, two second round holes 61 penetrate through the top ends of the limiting sleeve plate 6 and the extension plate 21 close to the third connecting block 5, and two second threaded holes 62 corresponding to the second round holes 61 are formed in one side of the third connecting block 5 facing the limiting sleeve block 53; two second round holes 61 are respectively penetrated through the top ends of the limiting sleeve plate 6 and the extending plate 21 close to the bearing frame 3, and two second threaded holes 62 corresponding to the second round holes 61 are arranged on the second connecting block 33; the second bolts 63 are four, and the second bolts 63 respectively pass through the second round holes 61 and are in threaded connection with the second threaded holes 62 so as to fix the limiting sleeve plate 6, so that the extending plates 21 between adjacent plates can be further fixed and limited.

As shown in fig. 5, in order to facilitate fixing the bearing frame 3 on the wall 1, in the present embodiment, a fixing mechanism is disposed between the wall 1 and the bearing frame 3, and the fixing mechanism can facilitate fastening and fixing the bearing frame 3 on the wall 1.

Specifically, as shown in fig. 5, in the present embodiment, the fixing mechanism includes: the cavity 11, the fixing plate 35 and the third bolt 37, the cavity 11 is opened on one side of the cavity 11 facing the bearing frame 3, the cavity 11 and the bearing frame 3 are mutually matched, and a plurality of second threaded holes 62 are formed in the cavity 11; a plurality of fixing slots 34 are formed in the bearing cavity 31, a plurality of fixing plates 35 are provided, the fixing plates 35 are matched with the fixing slots 34, and a plurality of third round holes 36 corresponding to the third threaded holes 12 are provided through the fixing plates 35 and the bearing frame 3; the third bolts 37 are provided in plural, the third bolts 37 respectively pass through the third round holes 36, and the third bolts 37 are in threaded connection with the third threaded holes 12, so that the bearing frame 3 can be conveniently and stably fixed on the wall 1.

Preferably, as shown in fig. 5, in the embodiment, a plurality of limiting blocks 7 are disposed between the extending plate 21 and the supporting frame 3, a limiting groove 71 is disposed on one side of the limiting blocks 7 facing the vacuum insulation panels, and the limiting groove 71 is matched with the extending plate 21, so as to facilitate an effective clamping effect on the extending plate 21; meanwhile, in this embodiment, the limiting block 7 is a rubber block, and by setting the rubber block, the extending plate 21 can be attached to the rubber block more tightly, so that the vacuum insulation panel body 2 can be installed on the bearing frame 3 more stably.

Preferably, in the present embodiment, the supporting frame 3, the first connecting blocks 32, the second connecting blocks 33, the third connecting blocks 5, the first supporting rods 4 and the second supporting rods 52 are all made of stainless steel. By utilizing the installation mode of the steel structure, the steel structure has the advantages of high strength, light dead weight and strong deformation resistance, so that the steel structure can conveniently play an effective bearing effect on the vacuum heat insulation plate body 2; and the steel structure is not easy to be oxidized and rusted, thereby prolonging the service life of the steel structure.

The implementation principle of the embodiment is as follows: when a plurality of vacuum insulation panel bodies 2 need to be spliced, firstly, the four corner positions of the extension plates 21 on the vacuum insulation panel bodies 2 are sequentially placed on the first connecting block 32, the second connecting block 33 and the third connecting block 5 at the same time, and meanwhile, the extension plates 21 close to the bearing frame 3 are also inserted into the limiting grooves 71 on the limiting blocks 7; then, the limiting sleeve blocks 53 are covered on the third connecting blocks 5, and the limiting sleeve blocks 53 and the third connecting blocks 5 are fixedly connected with each other by using first bolts 56; then, the position-limiting sleeve plates 6 are respectively covered on the first bearing rods 4 and the second bearing rods 52, and the position-limiting sleeve plates 6 are further fixed and limited by the second bolts 63 on the extending plates 21 of the adjacent vacuum insulation panel bodies 2, so that the process of mutually splicing a plurality of vacuum insulation panel bodies 2 can be completed.

The embodiment of this specific implementation mode is the preferred embodiment of the present invention, not limit according to this the utility model discloses a protection scope, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims (8)

1. A vacuum insulation panel, comprising: wall body (1) and a plurality of install in wall body (1) vacuum heat insulating board body (2) on all around, its characterized in that, be provided with on wall body (1) and be used for to adjacent vacuum heat insulating board body (2) fixed connection's connecting device, connecting device includes: the bearing frame (3) is arranged on the periphery of the wall body (1); the bearing cavity (31) is arranged on one side, away from the wall body (1), of the bearing frame (3) and matched with one side of the vacuum heat insulation plate body (2); the connecting mechanism is arranged on the bearing frame (3) and used for fixedly connecting the plurality of adjacent vacuum insulation board bodies (2), and a fixing mechanism used for fastening and fixing the bearing frame (3) is arranged between the wall body (1) and the bearing frame (3).

2. The vacuum insulation panel of claim 1, wherein said attachment mechanism comprises: a plurality of first connecting blocks (32) mounted in the bearing cavity (31); a first supporting groove (321) opened on the first connecting block (32); a plurality of second connecting blocks (33) mounted in the bearing cavities (31); the second support grooves (331) are symmetrically arranged on the second connecting block (33); the connecting component is connected with a first bearing rod (4) which is arranged on one side of the second connecting block (33) departing from the bearing frame (3) and a connecting component which is connected with one side of the first bearing rod (4) departing from the bearing frame (3) and is used for fixedly connecting the plurality of adjacent vacuum heat insulation plate bodies (2).

3. The vacuum insulation panel of claim 2, wherein said attachment assembly comprises: a plurality of third connecting blocks (5) connected to the first carrying rod (4) on the side facing away from the carrying frame (3); a plurality of third supporting grooves (51) formed in the third connecting block (5); a plurality of second bearing rods (52) connected between the adjacent third connecting blocks (5); a plurality of extension plates (21) arranged on the peripheral side surfaces of the vacuum insulation panel body (2); a limit sleeve block (53) which covers the third connecting block (5) and is abutted with the extension plate (21); a plurality of first round holes (54) penetrating through the limit sleeve block (53) and the extension plate (21); a plurality of first threaded holes (55) which are formed in the third connecting block (5) and correspond to the first round holes (54); a plurality of first bolts (56) which penetrate through the first round holes (54) and are in threaded connection with the first threaded holes (55), and a limiting piece which is covered on the first bearing rod (4) or the second bearing rod (52) and is abutted against the extension plate (21).

4. The vacuum insulation panel of claim 3, wherein said retainer comprises: a limiting sleeve plate (6) which covers the first bearing rod (4) or the second bearing rod (52) and is abutted against the extension plate (21); a plurality of second round holes (61) penetrating through the limiting sleeve plate (6) and the extension plate (21); a plurality of second threaded holes (62) which are arranged on the third connecting block (5) and the second connecting block (33) and correspond to the second round holes (61) and a plurality of second bolts (63) which penetrate through the second round holes (61) and are in threaded connection with the second threaded holes (62).

5. The vacuum insulation panel of claim 1, wherein said securing mechanism comprises: the cavity (11) is arranged on the wall body (1) and matched with the bearing frame (3); a plurality of third threaded holes (12) arranged in the cavity (11); a plurality of fixing grooves (34) arranged in the bearing cavity (31); a plurality of fixing plates (35) which are arranged in the bearing cavity (31) and matched with the fixing grooves (34); a plurality of third round holes (36) which simultaneously penetrate through the fixing plate (35) and the bearing frame (3) and correspond to the third threaded holes (12), and a plurality of third bolts (37) which penetrate through the third round holes (36) and are in threaded connection with the third threaded holes (12).

6. The vacuum insulation panel according to claim 3, wherein a plurality of limiting blocks (7) are arranged between the extension plate (21) and the bearing frame (3), and the limiting blocks (7) are provided with limiting grooves (71) matched with the extension plate (21).

7. A vacuum insulation panel according to claim 6, characterized in that the stopper (7) is a rubber block.

8. A vacuum insulation panel according to claim 2, characterized in that the carrier frame (3), the first connecting block (32), the second connecting block (33), the third connecting block (5), the first carrier bar (4) and the second carrier bar (52) are all stainless steel.

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