CN216195584U - Assembled green energy-saving diatom composite insulation board - Google Patents

Abstract

The utility model discloses an assembled green energy-saving diatom composite insulation board, which belongs to the technical field of diatom composite insulation boards and comprises an insulation board body and a connecting pin, wherein a first embedded plug-in connector is arranged at the top end of the insulation board body, a stable slot is formed in the top end of the insulation board body, a first embedded plug-in slot and a stable slot are formed in the bottom end of the insulation board body, a second embedded plug-in slot is formed in the left end of the insulation board body, and a second embedded plug-in connector is arranged at the right end of the insulation board body, and the assembled green energy-saving diatom composite insulation board has the beneficial effects that: the insulation board bodies can be spliced and connected with each other and are spliced tightly; and the mode of assembling is nimble to make the assembly convenient, through set up first fibrous layer, first powerful glue film, first anti-crack layer, first heat preservation layer and first shockproof layer at basic unit's wall body bilateral symmetry, make the intensity and the weatherability of heated board body good, and heat-resisting, wear-resisting, and ageing resistance can be good.

Description

Assembled green energy-saving diatom composite insulation board

Technical Field

The utility model relates to the technical field of diatom composite insulation boards, in particular to an assembled green energy-saving diatom composite insulation board.

Background

The rock wool is used for external heat preservation of buildings and can achieve the effects of heat preservation and fire prevention; however, rock wool is a high water absorption material, and after water absorption, the heat preservation effect is lost, the strength is greatly reduced, and the safety of an external heat preservation system is influenced; rock wool is used as an external heat insulation project, and after 1-3 years of use, the rock wool board sinks after absorbing moisture, and the wall surface cracks, because indoor moisture and outdoor rainwater permeate into the rock wool heat insulation layer; therefore, rock wool material is used in large quantities for industrial insulation.

The existing diatom composite insulation board is poor in weather resistance and low in strength; moreover, the splicing structure between the diatom composite insulation boards is not stable enough, so that the firmness is poor; the diatom composite insulation board is single in assembly mode and inconvenient to assemble.

SUMMERY OF THE UTILITY MODEL

The utility model provides an assembled green energy-saving diatom composite insulation board.

Therefore, the utility model aims to provide the assembled green energy-saving diatom composite insulation board, which is characterized in that the two sides of the base layer wall are symmetrically provided with the fiber layers, the strong glue layer, the anti-cracking layer, the insulation layer and the shockproof layer, so that the diatom insulation board is high in strength and good in weather resistance; the diatom heat-insulation plates are mutually assembled, and the assembled structure is firm; the diatom heat-insulation plates are assembled in multiple ways and are convenient to assemble, and the problems that the existing diatom composite heat-insulation plates are poor in weather resistance and low in strength are solved; moreover, the splicing structure between the diatom composite insulation boards is not stable enough, so that the firmness is poor; the diatom composite insulation board is single in assembling mode and inconvenient to assemble.

To solve the above technical problem, according to an aspect of the present invention, the present invention provides the following technical solutions:

an assembled green energy-saving diatom composite insulation board comprises an insulation board body and a connecting pin, wherein a first embedded plug connector is arranged at the top end of the insulation board body, a stable slot is formed in the top end of the insulation board body, a first embedded plug groove and a stable slot are formed in the bottom end of the insulation board body, a second embedded plug groove is formed in the left end of the insulation board body, a second embedded plug connector is arranged at the right end of the insulation board body, and the length of the insulation board body is twice the width of the insulation board body;

the insulation board body comprises a first fiber layer, a first strong adhesive layer, a first anti-cracking layer, a first insulation layer, a first shockproof layer, a base wall, a second shockproof layer, a second insulation layer, a second anti-cracking layer, a second strong adhesive layer and a second fiber layer, the bottom of the first fiber layer is provided with a first strong adhesive layer, the bottom of the first strong adhesive layer is provided with a first strong adhesive layer, the bottom of the first strong glue layer is provided with a first anti-cracking layer, the bottom of the first anti-cracking layer is provided with a first heat preservation layer, the bottom of the first heat preservation layer is provided with a first shockproof layer, the bottom of the first shockproof layer is provided with a base wall, the bottom of the base wall is provided with a second shockproof layer, the bottom of the second shockproof layer is provided with a second heat-insulating layer, and a second anti-cracking layer is arranged at the bottom of the second heat preservation layer, a second strong adhesive layer is arranged at the bottom of the second anti-cracking layer, and a second fiber layer is arranged at the bottom of the second strong adhesive layer.

As a preferred scheme of the assembled green energy-saving diatom composite insulation board, the utility model comprises the following steps: the second embedded plug connector is located in the middle of the insulation board body, and the second embedded inserting groove is located in the middle of the insulation board body.

As a preferred scheme of the assembled green energy-saving diatom composite insulation board, the utility model comprises the following steps: the second embedded plug connector and the second embedded plug groove are identical in shape and size.

As a preferred scheme of the assembled green energy-saving diatom composite insulation board, the utility model comprises the following steps: the first embedded plug connectors are provided with two groups, and the two groups of the first embedded plug connectors are respectively positioned at the quarter length and the three-quarter length of the insulation board body.

As a preferred scheme of the assembled green energy-saving diatom composite insulation board, the utility model comprises the following steps: the first embedded inserting grooves are provided with two groups, and the two groups of the first embedded inserting grooves are respectively positioned at the one-fourth length part and the three-fourth length part of the heat insulation board body.

As a preferred scheme of the assembled green energy-saving diatom composite insulation board, the utility model comprises the following steps: the first embedded plug connector and the first embedded inserting groove are identical in shape and size, and the depth of the stable inserting groove is one half of the length of the connecting pin.

As a preferred scheme of the assembled green energy-saving diatom composite insulation board, the utility model comprises the following steps: the first fiber layer and the second fiber layer are arranged to be fiber cement boards, and the first super glue layer and the second super glue layer are arranged to be HY-106AB glue.

As a preferred scheme of the assembled green energy-saving diatom composite insulation board, the utility model comprises the following steps: the first anti-cracking layer and the second anti-cracking layer are anti-cracking mortar plates, and the first heat-insulating layer and the second heat-insulating layer are made of diatomite plates.

As a preferred scheme of the assembled green energy-saving diatom composite insulation board, the utility model comprises the following steps: the first shockproof layer and the second shockproof layer are made of hard foam plastic plates.

Compared with the prior art:

1. the length of the insulation board body is twice of the width, the two first embedded plug-in connectors are respectively located at the quarter length and the three-quarter length of the insulation board body, the two first embedded plug-in grooves are respectively located at the quarter length and the three-quarter length of the insulation board body, the second embedded plug-in connector is located in the middle of the insulation board body, and the second embedded plug-in groove is located in the middle of the insulation board body; therefore, the insulation board bodies can be spliced and connected with each other and are spliced tightly; the assembly mode is flexible, so that the assembly is convenient;

2. through set up first fibrous layer, first powerful glue film, first anticracking layer, first heat preservation layer and first shockproof layer at basic unit's wall body bilateral symmetry for the intensity and the weather resistance of heated board body are good, and heat-resisting, wear-resisting and ageing resistance are good.

Drawings

FIG. 1 is a schematic structural view provided by the present invention;

FIG. 2 is a cross-sectional view of FIG. 1 provided with the present invention;

FIG. 3 is a schematic view of a connecting pin provided in accordance with the present invention;

FIG. 4 is a schematic view of a mutual assembly manner of a first plurality of insulation board bodies provided by the utility model;

fig. 5 is a schematic view of a mutual assembly mode of a second plurality of insulation board bodies provided by the utility model.

In the figure: the heat insulation board comprises a heat insulation board body 100, a first embedded plug connector 101, a stable slot 102, a second embedded plug connector 103, a first embedded plug groove 104, a second embedded plug groove 105, a first fiber layer 106, a first strong adhesive layer 107, a first anti-cracking layer 108, a first heat insulation layer 109, a first shockproof layer 110, a base wall 111, a second shockproof layer 112, a second heat insulation layer 113, a second anti-cracking layer 114, a second strong adhesive layer 115, a second fiber layer 116 and a connecting pin 200.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The utility model provides an assembled green energy-saving diatom composite heat-insulation board, and please refer to fig. 1-5, the heat-insulation board comprises a heat-insulation board body 100 and a connecting pin 200, wherein a first embedded plug-in connector 101 is arranged at the top end of the heat-insulation board body 100, a stable slot 102 is arranged at the top end of the heat-insulation board body 100, a first embedded plug-in slot 104 and a stable slot 102 are arranged at the bottom end of the heat-insulation board body 100, a second embedded plug-in slot 105 is arranged at the left end of the heat-insulation board body 100, a second embedded plug-in connector 103 is arranged at the right end of the heat-insulation board body 100, and the length of the heat-insulation board body 100 is twice the width;

the heat insulation board body 100 comprises a first fiber layer 106, a first strong glue layer 107, a first anti-cracking layer 108, a first heat insulation layer 109, a first shockproof layer 110, a base wall 111, a second shockproof layer 112, a second heat insulation layer 113, a second anti-cracking layer 114, a second strong glue layer 115 and a second fiber layer 116, wherein the first strong glue layer 107 is arranged at the bottom of the first fiber layer 106, the first strong glue layer 107 is arranged at the bottom of the first strong glue layer 107, the first anti-cracking layer 108 is arranged at the bottom of the first strong glue layer 107, the first heat insulation layer 109 is arranged at the bottom of the first anti-cracking layer 108, the first shockproof layer 110 is arranged at the bottom of the first heat insulation layer 109, the base wall 111 is arranged at the bottom of the first shockproof layer 110, the second shockproof layer 112 is arranged at the bottom of the base wall 111, the second heat insulation layer 113 is arranged at the bottom of the second shockproof layer 113, and the second anti-cracking layer 114 is arranged at the bottom of the second heat insulation layer 113, a second strong adhesive layer 115 is arranged at the bottom of the second anti-cracking layer 114, and a second fiber layer 116 is arranged at the bottom of the second strong adhesive layer 115;

further, the second embedded plug connector 103 is located in the middle of the insulation board body 100, and the second embedded insertion groove 105 is located in the middle of the insulation board body 100.

Further, the second embedded plug connector 103 and the second embedded plug slot 105 have the same shape and the same size.

Furthermore, two sets of the first embedded plug connectors 101 are provided, and the two sets of the first embedded plug connectors 101 are respectively located at the quarter length and the three-quarter length of the insulation board body 100.

Further, two sets of the first embedded inserting grooves 104 are provided, and the two sets of the first embedded inserting grooves 104 are respectively located at a quarter length position and a three-quarter length position of the heat insulation board body 100.

Further, the first embedded plug 101 and the first embedded socket 104 have the same shape and the same size, and the depth of the fixing socket 102 is one half of the length of the connecting pin 200.

Further, the first fiber layer 106 and the second fiber layer 116 are arranged as fiber cement boards, and the first super glue layer 107 and the second super glue layer 115 are arranged as HY-106AB glue; the first super glue layer 107 is used for enhancing the connection stability between the first fiber layer 106 and the first anti-cracking layer 108; the second super glue layer 115 functions to enhance the connection stability between the second crack resistant layer 114 and the second fiber layer 116; the first fiber layer 106 and the second fiber layer 116 of the fiber cement board material function to improve the strength and weather resistance of the insulation board body 100.

Further, the first anti-cracking layer 108 and the second anti-cracking layer 114 are anti-cracking mortar plates, and the first heat preservation layer 109 and the second heat preservation layer 113 are made of diatomite plates; the first and second insulation layers 109 and 113 serve to enhance the rigidity and strength of the insulation board body 100 and to improve the heat resistance, wear resistance, and aging resistance of the insulation board body 100.

Further, the first shock-proof layer 110 and the second shock-proof layer 112 are provided as a hard bubble plastic plate.

When the heat insulation board is used specifically, the heat insulation board bodies 100 are mutually assembled, namely, the connecting pin 200 is inserted into the stable slot 102 at the upper end of the heat insulation board body 100, two heat insulation board bodies 100 are transversely assembled, and the third heat insulation board body 100 is inserted above the two heat insulation board bodies 100, so that the heat insulation board bodies 100 are longitudinally and alternately assembled; or the two insulation board bodies 100 are vertically inserted into one transverse insulation board body 100 without using the connecting pin 200, and then the other insulation board body 100 is inserted into the vertical insulation board body 100 and the transverse insulation board body 100, so that staggered distribution is realized; due to the first fiber layer 106 and the second fiber layer 116, the strength and the weather resistance of the insulation board body 100 are good; due to the first heat-insulating layer 109 and the second heat-insulating layer 113, the heat resistance, the wear resistance and the ageing resistance are good.

While the utility model has been described above with reference to an embodiment, various modifications may be made and equivalents may be substituted for elements thereof without departing from the scope of the utility model. In particular, the various features of the disclosed embodiments of the utility model may be used in any combination, provided that no structural conflict exists, and the combinations are not exhaustively described in this specification merely for the sake of brevity and resource conservation. Therefore, it is intended that the utility model not be limited to the particular embodiments disclosed, but that the utility model will include all embodiments falling within the scope of the appended claims.

Claims (9)

1. The utility model provides an assembled green energy-conserving diatom composite insulation board, includes heated board body (100) and connecting pin (200), its characterized in that: the heat insulation board comprises a heat insulation board body (100), and is characterized in that a first embedded plug connector (101) is arranged at the top end of the heat insulation board body (100), a stable slot (102) is formed in the top end of the heat insulation board body (100), a first embedded plug groove (104) and the stable slot (102) are formed in the bottom end of the heat insulation board body (100), a second embedded plug groove (105) is formed in the left end of the heat insulation board body (100), a second embedded plug connector (103) is arranged at the right end of the heat insulation board body (100), and the length of the heat insulation board body (100) is twice as long as the width;

the heat insulation board body (100) comprises a first fiber layer (106), a first strong adhesive layer (107), a first anti-cracking layer (108), a first heat insulation layer (109), a first shockproof layer (110), a base wall body (111), a second shockproof layer (112), a second heat insulation layer (113), a second anti-cracking layer (114), a second strong adhesive layer (115) and a second fiber layer (116), wherein the first strong adhesive layer (107) is arranged at the bottom of the first fiber layer (106), the first strong adhesive layer (107) is arranged at the bottom of the first strong adhesive layer (107), the first anti-cracking layer (108) is arranged at the bottom of the first strong adhesive layer (107), the first heat insulation layer (109) is arranged at the bottom of the first heat insulation layer (109), the base wall body (111) is arranged at the bottom of the first shockproof layer (110), the second shockproof layer (112) is arranged at the bottom of the base wall body (111), the bottom of the second shockproof layer (112) is provided with a second heat-insulating layer (113), the bottom of the second heat-insulating layer (113) is provided with a second anti-cracking layer (114), the bottom of the second anti-cracking layer (114) is provided with a second strong adhesive layer (115), and the bottom of the second strong adhesive layer (115) is provided with a second fiber layer (116).

2. The assembled green energy-saving diatom composite insulation board according to claim 1, wherein the second embedded plug connector (103) is located in the middle of the insulation board body (100), and the second embedded socket groove (105) is located in the middle of the insulation board body (100).

3. The assembled green energy-saving diatom composite insulation board according to claim 1, wherein the second embedded plug connector (103) and the second embedded plug groove (105) are identical in shape and size.

4. The assembled green energy-saving diatom composite insulation board according to claim 1, wherein there are two sets of first embedded connectors (101), and the two sets of first embedded connectors (101) are located at one quarter length and three quarters length of the insulation board body (100), respectively.

5. The assembled green energy-saving diatom composite insulation board according to claim 1, wherein there are two sets of first embedded inserting grooves (104), and the two sets of first embedded inserting grooves (104) are located at one quarter length and three quarters length of the insulation board body (100), respectively.

6. The assembled green energy-saving diatom composite insulation board according to claim 1, wherein the first embedded plug connector (101) and the first embedded plug groove (104) are identical in shape and size, and the depth of the stabilizing slot (102) is one half of the length of the connecting pin (200).

7. The assembled green energy-saving diatom composite insulation board of claim 1, wherein said first (106) and second (116) fiber layers are provided as fiber cement boards and said first (107) and second (115) super glue layers are provided as HY-106AB glue.

8. The fabricated green energy-saving diatom composite insulation board according to claim 1, wherein the first anti-cracking layer (108) and the second anti-cracking layer (114) are anti-cracking mortar boards, and the first insulation layer (109) and the second insulation layer (113) are made of diatomite boards.

9. The fabricated green energy-saving diatom composite insulation board according to claim 1, wherein said first shock-proof layer (110) and said second shock-proof layer (112) are provided as rigid foam boards.

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