CN222333000U - A building insulation board assembly for construction engineering - Google Patents

Abstract

The utility model discloses a building heat insulation board assembly for construction engineering, belonging to the technical field of heat insulation boards, including a first connecting plate, a second connecting plate installed on the first connecting plate, a limiting block installed on the first connecting plate, a limiting groove matched with the limiting block provided on the second connecting plate, a third connecting plate installed on both the first connecting plate and the second connecting plate, a limiting plate rotatably installed on the third connecting plate, a slide plate slidably installed on the limiting plate, an insert block installed on the slide plate, and a slot matched with the insert block provided on the third connecting plate. The utility model is provided with a limiting block and a limiting groove for engaging and connecting, the limiting block on the first connecting plate is inserted into the limiting groove on the second connecting plate to connect the first connecting plate and the second connecting plate, the first slider is provided for sliding connection with the first slide groove, the first slider is slid into the first slide groove, the inner plate is installed, and the first connecting plate and the second connecting plate can be connected to each other.

Description

Building heat insulating board assembly for building engineering

Technical Field

The utility model relates to a building heat insulation board assembly, in particular to a building heat insulation board assembly for building engineering, and belongs to the technical field of heat insulation boards.

Background

The heat insulation board is a heat insulation board, is a common building material, can effectively avoid heat transfer caused by air convection, and plays a role in heat insulation.

The existing building heat insulation board assembly for building engineering needs to be manufactured by connecting a plurality of boards together through bolts in actual use, and needs to be assembled through special tools in assembly, so that the assembly is inconvenient.

Disclosure of utility model

The utility model mainly aims to provide a building heat insulation board assembly for building engineering, which aims to solve the problem that the assembly of the heat insulation board cannot be conveniently realized.

The aim of the utility model can be achieved by adopting the following technical scheme:

The utility model provides a building heat insulating board subassembly that building engineering used, includes first connecting plate, install the second connecting plate on the first connecting plate, install the stopper on the first connecting plate, the second connecting plate on seted up with the spacing groove of stopper mutually supporting, the first connecting plate with all install the third connecting plate on the second connecting plate, rotate on the third connecting plate and install the limiting plate, slidable mounting has the slide on the limiting plate, install the inserted block on the slide, set up on the third connecting plate with the slot of inserted block mutually supporting, the inside of first connecting plate is provided with the inner panel, install first slider on the inner panel, the third connecting plate the second connecting plate with all set up on the first connecting plate with the first spout of mutually supporting of first slider.

Preferably, the limiting plate is provided with a plurality of rotating blocks, the top and the bottom of the limiting plate are respectively provided with the rotating blocks, and the third connecting plate is provided with rotating grooves matched with the rotating blocks.

Preferably, the rotating block is provided with a plurality of rotating cavities, the inside of the rotating cavities is rotatably provided with balls, and the limiting plate is provided with a second pull groove.

Preferably, the limiting plate is provided with a sliding cavity matched with the sliding plate, the sliding plate is provided with a plurality of second sliding blocks, the limiting plate is provided with a second sliding groove matched with the second sliding blocks, and the second sliding blocks are provided with a clamping mechanism.

Preferably, the two sides of the sliding plate are provided with second sliding blocks, the second sliding blocks are T-shaped sliding blocks, and the second sliding grooves are T-shaped sliding grooves.

Preferably, the clamping mechanism comprises a cavity, a spring and a clamping ball, wherein the second sliding block is provided with the cavity, the spring is arranged in the cavity, the clamping ball is arranged at one end of the spring, and the limiting plate is provided with a clamping groove matched with the clamping ball.

Preferably, the sliding plate is provided with a first pull groove, and the first pull groove is arranged on the front surface of the sliding plate.

Preferably, the first sliding block is a T-shaped sliding block, the first sliding groove is a T-shaped sliding groove, a plurality of third pull grooves are formed in the inner plate, the number of the third pull grooves is two, and the two third pull grooves are symmetrically arranged on the front surface of the inner plate.

The beneficial technical effects of the utility model are as follows:

1. According to the building heat insulation board assembly for the building engineering, the limiting blocks are arranged to be connected with the limiting grooves in a clamping mode, the limiting blocks on the first connecting plates are inserted into the limiting grooves on the second connecting plates to be connected with the first connecting plates and the second connecting plates, the first sliding blocks are arranged to be connected with the first sliding grooves in a sliding mode, the first sliding blocks slide into the first sliding grooves to be installed, the first connecting plates and the second connecting plates can be connected with each other, the limiting plates are arranged to limit the inner plates, the sliding plates are arranged to be connected with the limiting plates in a sliding mode, the inserting blocks can slide into the inserting grooves to limit the limiting plates, and therefore the inner plates can be limited, special tools are not required to be used for installation, and installation is convenient.

2. Through setting up the commentaries on classics piece and changeing the groove rotation and be connected, rotate the limiting plate, the commentaries on classics piece rotates and then closes first connecting plate and second connecting plate and then carries out spacingly to the inner panel in changeing the groove.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is a schematic view of the inner plate structure of the present utility model;

FIG. 3 is a block diagram of the present utility model;

FIG. 4 is a schematic diagram of a plug structure according to the present utility model;

FIG. 5 is a schematic view of a ball clip structure according to the present utility model;

fig. 6 is a schematic diagram of a stopper structure according to the present utility model.

1, A first connecting plate; 2, a second connecting plate, 3, a third connecting plate, 4, a limiting plate, 5, a sliding plate, 6, a first pull groove, 7, a second pull groove, 8, an inner plate, 9, a third pull groove, 10, a first sliding block, 11, a rotating block, 12, a ball, 13, an inserting block, 14, a second sliding block, 15, a clamping ball, 16, a spring, 17, a limiting block, 18, a limiting groove, 19, a sliding cavity, 20 and a cavity.

Detailed Description

In order to make the technical solution of the present utility model more clear and obvious to those skilled in the art, the present utility model will be described in further detail with reference to examples and drawings, but the embodiments of the present utility model are not limited thereto.

As shown in fig. 1-6, the building heat insulating board assembly for constructional engineering provided by the embodiment comprises a first connecting board 1, a second connecting board 2 is installed on the first connecting board 1, a limiting block 17 is installed on the first connecting board 1, a limiting groove 18 matched with the limiting block 17 is formed in the second connecting board 2, a third connecting board 3 is installed on the first connecting board 1 and the second connecting board 2, a limiting board 4 is rotatably installed on the third connecting board 3, a sliding plate 5 is slidably installed on the limiting board 4, an inserting block 13 is installed on the sliding plate 5, a slot matched with the inserting block 13 is formed in the third connecting board 3, an inner plate 8 is arranged in the first connecting board 1, a first sliding block 10 is installed on the inner plate 8, a first sliding groove matched with the first sliding block 10 is formed in each of the third connecting board 3, the second connecting board 2 and the first connecting board 1, the limiting groove 18 is connected in a clamping mode, the limiting block 17 on the first connecting board 1 is inserted into the limiting groove 18 on the second connecting board 2, the first connecting board 1 and the second connecting board 2 are connected, the first sliding block 10 and the first sliding block 10 can be conveniently installed on the first sliding plate 8, the first sliding plate 8 can be conveniently installed on the first sliding plate 8, and the first sliding plate 8 can be conveniently installed on the first sliding plate 8.

In this embodiment, as shown in fig. 1, fig. 2, fig. 3, fig. 4 and fig. 5, a plurality of rotating blocks 11 are installed on the limiting plate 4, rotating grooves which are mutually matched with the rotating blocks 11 are all installed on the top and the bottom of the limiting plate 4, the rotating limiting plate 4 is rotated by arranging the rotating blocks 11 to be rotationally connected with the rotating grooves, the rotating blocks 11 rotate in the rotating grooves to further close the first connecting plate 1 and the second connecting plate 2 to limit the inner plate 8, a plurality of rotating cavities are formed in the rotating blocks 11, balls 12 are rotatably installed in the rotating cavities, second pull grooves 7 are formed in the limiting plate 4, through arranging the balls 12, sliding cavities 19 which are mutually matched with the sliding plates 5 are formed in the limiting plate 4, a plurality of second sliding blocks 14 are installed on the sliding plates 5, second sliding grooves which are mutually matched with the sliding plates 14 are mutually matched with each other are formed in the limiting plate 4, a clamping mechanism is installed on the second sliding plates 14, through arranging the second sliding blocks 14 to be in the sliding grooves to be in sliding connection with the second sliding plates, the sliding plates 13 can be slidably connected with the second sliding plates 2 to the second sliding plates 8 to limit the inner plates 8, the sliding plates 16 can be mutually matched with the sliding plates 16 through arranging the sliding grooves 20, the sliding plates 20 are mutually matched with the sliding grooves 20, the sliding plates 16 are respectively arranged on the sliding plates 16, the sliding plates 20 are mutually matched with the sliding plates 16, and the sliding plates 20 are respectively arranged on the sliding plates 15, the sliding plates 20 are in the sliding grooves 20 through the sliding grooves are matched with the sliding grooves are arranged on the sliding plates 15, and the sliding plates 15, the sliding plates are arranged on the sliding plates 15, the sliding plates are matched with the sliding grooves, and the sliding grooves are matched with the sliding grooves are matched, and can be matched with the sliding grooves are and are matched, and, the first pull groove 6 is formed in the front face of the sliding plate 5, and the limiting plate 4 can be pulled conveniently through the first pull groove 6.

In this embodiment, as shown in fig. 1, 2 and 6, the first slider 10 is a T-shaped slider, the first chute is a T-shaped chute, a plurality of third pull grooves 9 are formed in the inner plate 8, the number of the third pull grooves 9 is two, the two third pull grooves 9 are symmetrically installed on the front surface of the inner plate 8, guiding and limiting can be performed on the inner plate 8 by setting the first slider 10 to match the T-shaped slider with the T-shaped chute, and the inner plate 8 can be pulled conveniently by setting the third pull grooves 9.

In this embodiment, as shown in fig. 1 to 6, the working process of the building insulation board assembly for building engineering provided in this embodiment is as follows:

Step 1, inserting a limiting block 17 on a first connecting plate 1 into a limiting groove 18 on a second connecting plate 2, sliding a first sliding block 10 on an inner plate 8 into a first sliding groove to mount the inner plate 8, and connecting the first connecting plate 1 and the second connecting plate 2;

And 2, rotating the limiting plate 4, rotating the rotating block 11 in the rotating groove to close the first connecting plate 1 and the second connecting plate 2, sliding the sliding plate 5, sliding the second sliding block 14 in the second sliding groove, inserting the inserting block 13 into the inserting groove, and clamping the clamping ball 15 into the clamping groove to limit the limiting plate 4 and further limit the inner plate 8.

In summary, in this embodiment, according to the building insulation board assembly for construction engineering of this embodiment, by providing the stopper 17 and the stopper groove 18 to be engaged and connected, the stopper 17 on the first connection board 1 is inserted into the stopper groove 18 on the second connection board 2 to connect the first connection board 1 and the second connection board 2, by providing the first slider 10 and the first sliding groove to be slidingly connected, the first slider 10 is slid into the first sliding groove to mount the inner board 8, and the first connection board 1 and the second connection board 2 can be mutually connected, by providing the stopper board 4, the inner board 8 can be limited, by providing the slide board 5 and the stopper board 4 to be slidingly connected, the insert block 13 can be slid into the slot to limit the stopper board 4 and thus the inner board 8 can be limited, without using a special tool to mount, the mounting is convenient, by providing the rotation block 11 and the rotation groove to be rotationally connected, the rotating limiting plate 4 is rotated, the rotating block 11 rotates in the rotating groove to further close the first connecting plate 1 and the second connecting plate 2 to further limit the inner plate 8, the limiting plate 4 is provided with the second pull groove 7, the rotating friction force of the rotating block 11 can be reduced by arranging the ball 12, the inserting block 13 can be slid into the slot by arranging the second sliding block 14 to be in sliding connection with the second sliding groove, the rotating limiting plate 4 can be further limited, the sliding plate 5 can be guided and limited by arranging the second sliding block 14 to be matched with the T-shaped sliding groove, the sliding plate 5 after sliding can be limited by arranging the clamping ball 15 to be clamped and connected with the clamping groove, the limiting plate 4 can be conveniently pulled by arranging the first pull groove 6, the inner plate 8 can be guided and limited by arranging the first sliding block 10 to be matched with the T-shaped sliding groove, by providing the third pull groove 9, the inner panel 8 can be pulled easily.

The above description is merely a further embodiment of the present utility model, but the protection scope of the present utility model is not limited thereto, and any person skilled in the art will be able to apply equivalents and modifications according to the technical solution and the concept of the present utility model within the scope of the present utility model disclosed in the present utility model.

Claims (8)

1. The building heat insulation plate assembly for the building engineering comprises a first connecting plate (1) and is characterized in that a second connecting plate (2) is installed on the first connecting plate (1), a limiting block (17) is installed on the first connecting plate (1), a limiting groove (18) matched with the limiting block (17) is formed in the second connecting plate (2), a third connecting plate (3) is installed on the first connecting plate (1) and the second connecting plate (2), a limiting plate (4) is rotatably installed on the third connecting plate (3), a sliding plate (5) is slidably installed on the limiting plate (4), an inserting block (13) is installed on the sliding plate (5), an inner plate (8) is arranged in the first connecting plate (1), a first sliding block (10) is installed on the inner plate (8), and a first sliding block (10) is arranged on the third connecting plate (2) and the first connecting plate (1).

2. The building heat insulation board assembly for constructional engineering according to claim 1, wherein the limiting plate (4) is provided with a plurality of rotating blocks (11), the top and the bottom of the limiting plate (4) are provided with the rotating blocks (11), and the third connecting plate (3) is provided with rotating grooves matched with the rotating blocks (11).

3. The building heat insulation board assembly for building engineering according to claim 2, wherein the rotating block (11) is provided with a plurality of rotating cavities, balls (12) are rotatably arranged in the rotating cavities, and the limiting plate (4) is provided with a second pull groove (7).

4. The building heat insulation board assembly for constructional engineering according to claim 1, wherein the limiting plate (4) is provided with a sliding cavity (19) matched with the sliding plate (5), the sliding plate (5) is provided with a plurality of second sliding blocks (14), the limiting plate (4) is provided with a second sliding groove matched with the second sliding blocks (14), and the second sliding blocks (14) are provided with a clamping mechanism.

5. The building insulation board assembly for construction engineering according to claim 4, wherein the two sides of the sliding board (5) are provided with second sliding blocks (14), the second sliding blocks (14) are T-shaped sliding blocks, and the second sliding grooves are T-shaped sliding grooves.

6. The building heat insulation board assembly for constructional engineering according to claim 5, wherein the clamping mechanism comprises a cavity (20), a spring (16) and a clamping ball (15), the second sliding block (14) is provided with the cavity (20), the spring (16) is installed in the cavity (20), the clamping ball (15) is installed at one end of the spring (16), and the limiting plate (4) is provided with a clamping groove matched with the clamping ball (15).

7. The building insulation board assembly for construction engineering according to claim 6, wherein the sliding board (5) is provided with a first pull groove (6), and the first pull groove (6) is arranged on the front surface of the sliding board (5).

8. The building heat insulation board assembly for constructional engineering according to claim 1, wherein the first sliding block (10) is a T-shaped sliding block, the first sliding groove is a T-shaped sliding groove, a plurality of third pull grooves (9) are formed in the inner plate (8), the number of the third pull grooves (9) is two, and the two third pull grooves (9) are symmetrically arranged on the front surface of the inner plate (8).