CN114232926A - Dry-hanging wall design structure of heat-insulation composite stone wall material - Google Patents

Abstract

The invention discloses a dry hanging wall design structure of a heat insulation composite stone wall material, in particular to the technical field of building decoration, the invention arranges a support frame, a movable contact plate, a first piston frame, a second piston frame, a first movable rod, a second movable rod, a connecting sliding plate, a connecting pipe, a connecting groove, a first placing groove, a top convex plate and a connecting block, wherein gas in the second piston frame enters the first piston frame, at the moment, the connecting sliding plate slides into the corresponding sliding groove, the connecting sliding plate is pulled by the first movable rod to move close to the sliding groove, meanwhile, the inner connecting sliding plate is pulled while the left and right side support frames are connected, the tightness and stability are more ideal, the integral connection stability is ensured to be more ideal, the stability between the adjacent support frames is more ideal, and the safety performance and the heat insulation performance after the integral assembly are obviously improved, obviously saves materials while meeting the requirements of heat preservation and safety, and has more ideal integral environmental protection performance.

Description

Dry-hanging wall design structure of heat-insulation composite stone wall material

Technical Field

The invention relates to the technical field of building decoration, in particular to a dry-hanging wall surface design structure of a heat-insulation composite stone wall surface material.

Background

The stone material as a high-grade building decoration material is widely applied to indoor and outdoor decoration design, curtain wall decoration and public facility construction. Common stone materials in the market at present are mainly divided into natural stone and artificial stone. The natural stone is divided into slate and granite according to the quality of physical and chemical characteristics. The artificial stone is divided into terrazzo and synthetic stone according to the working procedures. The terrazzo is formed by forging and pressing raw materials such as cement, concrete and the like; the synthetic stone is made up by using broken stone of natural stone as raw material, adding adhesive and polishing. The latter two are made by hand, so the strength is not as high as that of natural stone. The stone is a high-grade product of building decoration materials, natural stones are mainly divided into granite, slate, sandstone, limestone, volcanic rock and the like, along with the continuous development and progress of science and technology, the artificial stone products are also changed day by day, and the quality and the attractiveness of the artificial stone are not changed. With the development of building design, stone has become one of the important raw materials for building, decoration, road and bridge construction.

The stone plate as a high-grade building decoration material is widely applied to indoor and outdoor decoration design, curtain wall decoration and public facility construction. The common stone plates in the market at present are mainly divided into natural stone plates and artificial stone plates. The natural stone board is mainly divided into marble, granite and sandstone according to the physical and chemical characteristics and qualities. The artificial stone plate can be classified into cement type artificial stone, polyester type artificial stone, composite type artificial stone, and sintered type artificial stone according to the material. The artificial stone is different in type and composition. The components mainly comprise resin, aluminum powder, pigment and curing agent. The practical building material with high molecular weight is one chemical material reaction process, and is one kind of environment friendly composite material produced with the progress of human society and scientific technology. Compared with traditional building materials such as stainless steel, ceramic and the like, the artificial stone has various functions, rich color and wider application range. The artificial stone has no toxicity, radioactivity, flame retardance, no oil adhesion, no dirt seepage, antibiosis, mildew resistance, wear resistance, impact resistance, easy maintenance, seamless splicing and changeable shape.

The stone composite board is formed by bonding two or more different boards by an adhesive. The surface material is natural stone, and the base material is ceramic tile, stone, glass or aluminum honeycomb.

After the marble is compounded with the ceramic tiles, the granite, the aluminum honeycomb plate and the like, the bending resistance and the shearing resistance of the marble are obviously improved, and the damage rate in the transportation, installation and use processes is greatly reduced. The anti-pollution capability is improved.

During the installation process or the later use process of the common marble original plate (whole plate), such as wet pasting with cement, various discolorations and stains appear on the surface of the marble possibly half a year or a year later, and the marble is very difficult to remove. The composite board has a base plate which is harder and denser and a thin glue layer, so that the situation is avoided.

The marble composite board is cut into 3 or 4 pieces by using a 1m2 original board (a whole body board) to become 3m2 or 4m2, and the pattern and the color of the marble composite board are almost the same as 100 percent of the original board, so that the marble composite board is easier to ensure large-area use.

Due to the characteristics, in the installation process, the installation efficiency and safety are greatly improved no matter the weight, the easiness in crushing (strength and the like) or the color separation splicing, and the installation cost is also reduced. Break through forbidden zone

The marble decoration parts, such as inner and outer walls, the ground, a windowsill, a doorway, a table top and the like, and the common original plate (a general plate) have no problem, and only the ceiling, such as marble or granite, is afraid of the decoration company and cannot risk the decoration company. The composite board made by bonding the marble, the aluminum-plastic board and the aluminum honeycomb breaks through the restricted area decorated by the stone. Because it is very light, it weighs only 1/5 to 1/10 of the full body panel. It is not the other Mohs that want to decorate the ceiling with stone.

The composite board made of aluminium honeycomb board and marble has sound-insulating, damp-proof, heat-insulating and cold-proof properties because of the hollow aluminium honeycomb core made of equilateral hexagonal shape. Thus, these characteristics far exceed the performance characteristics that the through-body panels do not possess.

The stone aluminum honeycomb composite board has the performances of sound insulation, moisture resistance and heat preservation, so that the consumption of electric energy and heat energy can be greatly reduced after the stone aluminum honeycomb composite board is installed indoors and outdoors.

Because the stone composite material is thinner and lighter, a part of cost is saved in transportation and installation, and for more expensive stone varieties, the cost of the finished plate made of the composite plate is lower than that of the original plate in different degrees.

The marble composite board has the performance characteristics and advantages of natural stones and performance comparison advantages in practical use, and thus, the sustainable development situation of the future market is determined. The market development trend of the marble composite board is also verified by the wide use of more and more countries and regions in the international market.

For example, Chinese patent (application No. CN103967243A) discloses a dry hanging structure for ceramic tiles on a waterproof wall surface, which comprises ceramic tiles and a connecting piece, wherein two adjacent side surfaces of a ceramic tile body are provided with back surface extending blocks, the other two adjacent side surfaces are provided with front surface extending blocks, one side of each back surface extending block, which is close to the front surface of the ceramic tile body, is provided with a buckle groove, and one side of each front surface extending block, which is close to the back surface of the ceramic tile body, is provided with a buckle strip; hang the installation state futilely at the ceramic tile, the back of ceramic tile is extended the piece and is folded mutually with the front extension piece of adjacent ceramic tile, and openly extends the profile of one side and fall into the catching groove of back extension piece, the front extension piece of ceramic tile is folded mutually with the back extension piece of adjacent ceramic tile, and openly extends the profile of one side and fall into the catching groove of back extension piece, the back of ceramic tile body still is equipped with the protruding roof beam of installation more than two, the shape, the size and the protruding roof beam of installation of connecting piece match, the connecting piece is connected with the protruding roof beam of installation. Above-mentioned structure has improved the waterproof nature of ceramic tile dry-hanging structure, and construction convenience.

But wherein the ceramic tile has certain weight, self assembles because the mode of frame is predetermine in the many adoption of weight reason, it is many because weight causes the frame to slightly warp after the equipment is accomplished, connection between the adjacent wallboard is not inseparable, it is unsatisfactory to lead to the wholeness between wallboard and the frame, there is obvious gap between the wallboard probably to appear, lead to holistic not hard up, when influencing the thermal insulation performance, need more material just can keep the thermal insulation performance even, influence holistic aesthetic property when the consumptive material increases, and make holistic installation have obvious potential safety hazard, consequently, need the dry-hanging wall design structure of a heat preservation composite stone material wall material to solve above-mentioned problem.

Disclosure of Invention

In order to overcome the defects in the prior art, the invention provides a dry-hanging wall surface design structure of a heat-insulating composite stone wall surface material, and the invention aims to solve the technical problems that: self assembles because the mode of frame is predetermine in the many adoption of weight reason, because weight causes the slight deformation of frame after the equipment is accomplished many, and connection between the adjacent wallboard is not inseparable, leads to the wholeness ability between wallboard and the frame unsatisfactory, has obvious gap between the wallboard probably appearing, leads to holistic not hard up, when influencing the thermal insulation performance, influences holistic aesthetic property, and makes holistic installation have the problem of obvious potential safety hazard.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a heat preservation composite stone material wall material's dry-hanging wall design structure, includes braced frame, first standing groove has been seted up to braced frame's lower surface, the outer surface overlap joint of first standing groove inner wall and movable contact board, the spread groove has been seted up to movable contact board's lower surface, the upper surface of movable contact board and the bottom fixed connection of two second carriage bars, the top of second carriage bar and the lower fixed surface of second piston plate are connected, the surface and the second piston frame inner wall overlap joint of second piston plate, the second standing groove has been seted up to braced frame's right flank, the left surface of second standing groove inner wall has been seted up and has been placed the chamber.

As a further scheme of the invention: the sliding plate comprises a first piston plate, a second piston plate, a first piston frame, a second piston plate, a supporting frame and a middle plate, wherein the first piston plate is fixedly connected with the left side surface of the middle plate, the left side surface of the middle plate is fixedly connected with the right ends of the two first moving rods, the upper surface of the supporting frame is fixedly connected with the lower surface of the top convex plate, the left side surface of the connecting sliding plate is fixedly connected with the right side surface of the middle plate, the left side surface of the middle plate is fixedly connected with the right ends of the two first moving rods, the left end of the first moving rod is fixedly connected with the right side surface of the first piston plate, the outer surface of the first piston plate is in lap joint with the inner wall of the first piston frame, and the upper surface of the supporting frame is fixedly connected with the lower surface of the top convex plate.

As a further scheme of the invention: the upper surface of top flange and the lower fixed surface of connecting block are connected, the spout has been seted up to braced frame's left surface, the outer fixed surface of braced frame inner wall and wall main part is connected, adjacent two first piston frame opposite face is linked together through the intervalve, adjacent two the second piston frame is linked together through the intervalve, the right side the left surface of intervalve is linked together with the one end of connecting pipe, the other end of connecting pipe is linked together with the right flank of right side second piston frame.

As a further scheme of the invention: the left side face of the first piston plate is fixedly connected with one end of a first elastic assembly, and the other end of the first elastic assembly is fixedly connected with the left side face of the inner wall of the first piston frame.

As a further scheme of the invention: the right side face of the first piston frame is provided with a first moving sleeve, and the inner wall of the first moving sleeve is connected with the outer surface of the first moving rod in a sliding mode.

As a further scheme of the invention: the upper surface of the second piston plate is fixedly connected with the bottom end of the second elastic component, and the other end of the second elastic component is fixedly connected with the upper surface of the inner wall of the second piston frame.

As a further scheme of the invention: the left side of the first piston frame is fixedly connected with the left side of the inner wall of the placing cavity, and the upper surface of the second piston frame is fixedly connected with the upper surface of the inner wall of the first placing groove.

As a further scheme of the invention: the outer surface of the second moving rod is connected with the inner wall of the second moving sleeve in a sliding mode, and the second moving sleeve is connected to the lower surface of the second piston frame in a clamping mode.

As a further scheme of the invention: the size of the connecting sliding plate corresponds to that of the sliding groove, and the position of the connecting sliding plate corresponds to that of the sliding groove.

As a further scheme of the invention: the position and the size of top flange are corresponding with the position and the size of first standing groove respectively, the size of spread groove is corresponding with the size of connecting block, the shape of connecting the slide sets up to the T shape, the shape of spout sets up to the T shape, the connecting pipe joint is at the upper surface of first standing groove inner wall, the shape of first piston board sets up to the rectangle, the shape of movable contact board is the same with the shape of top flange, the wall main part adopts heat preservation composite slate wall material to make.

The invention has the beneficial effects that:

1. the invention arranges the supporting frame, the movable contact plate, the first piston frame, the second piston frame, the first moving rod, the second moving rod, the connecting sliding plate, the sliding groove, the connecting pipe, the connecting groove, the first placing groove, the top convex plate and the connecting block, when the supporting frame is placed downwards, the connecting block moves to the corresponding connecting groove, then the top convex plate extrudes the movable contact plate to move upwards, which avoids the relative dislocation between the two adjacent supporting frames, the movable contact plate extrudes the second piston plate to move upwards while the supporting frames move downwards, the gas in the second piston frame enters the first piston frame, at this time, the connecting sliding plate slides to enter the corresponding sliding groove, the connecting sliding plate is pulled by the first moving rod to move close to the sliding groove, simultaneously, the connecting sliding plate is pulled while the left and right supporting frames are connected, the tightness and the stability is more ideal, the integral connection stability is ensured to be more ideal, the stability between adjacent supporting frames is more ideal, the safety performance and the heat insulation performance after integral assembly are obviously improved, the heat insulation and safety requirements are met, meanwhile, the material consumption is obviously saved, and the integral environmental protection performance is more ideal;

2. according to the invention, by arranging the connecting block and the connecting groove, a simple guiding and limiting effect can be realized in the contact connection process of the top convex plate and the movable contact plate, the smooth and accurate contact process of the top convex plate and the movable contact plate is ensured, meanwhile, the top convex plate can smoothly move to the inside of the first placing groove, and the smooth operation of the connection and assembly process of the corresponding supporting frame is ensured.

Drawings

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

FIG. 2 is a schematic top view of the present invention;

FIG. 3 is a perspective view of the support frame of the present invention;

FIG. 4 is a perspective view of the connecting slide plate according to the present invention;

FIG. 5 is an enlarged view of part A of the present invention;

FIG. 6 is a schematic perspective sectional view of a first piston frame according to the present invention;

FIG. 7 is a schematic perspective sectional view of a second piston frame according to the present invention;

in the figure: 1. a support frame; 2. a first placing groove; 3. a movable contact plate; 4. connecting grooves; 5. a second placing groove; 6. a placement chamber; 7. connecting a sliding plate; 8. a top convex plate; 9. connecting blocks; 10. a chute; 11. a middle plate; 12. a first movable bar; 13. a first moving sleeve; 14. a first piston frame; 15. an intermediate pipe; 16. a connecting pipe; 17. a second piston frame; 18. a first piston plate; 19. a first elastic member; 20. a second piston plate; 21. a second elastic member; 22. a second movable bar; 23. a second movable sleeve; 24. the wall surface main body.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 1-7, the present invention provides a dry-hanging wall design structure of a thermal insulation composite stone wall material, comprising a supporting frame 1, wherein a first placing groove 2 is formed on the lower surface of the supporting frame 1, the inner wall of the first placing groove 2 is overlapped with the outer surface of a movable contact plate 3, a connecting groove 4 is formed on the lower surface of the movable contact plate 3, the upper surface of the movable contact plate 3 is fixedly connected with the bottom ends of two second moving rods 22, the top end of the second moving rod 22 is fixedly connected with the lower surface of a second piston plate 20, the outer surface of the second piston plate 20 is overlapped with the inner wall of the second piston frame 17, by arranging the first piston frame 14, the second piston frame 17, the first moving rod 12 and the second moving rod 22, when the air pressure inside the second piston frame 17 is increased, the air inside the second piston frame 17 is transferred into the first piston frame 14, so as to realize the control of the first moving rod 12 inside the first piston frame 14, the second standing groove 5 has been seted up to braced frame 1's right flank, and the left surface of 5 inner walls of second standing groove has been seted up and has been placed chamber 6.

The inner wall of the second placing groove 5 is connected with the outer surface of the connecting sliding plate 7 in a sliding way, and by arranging the connecting sliding plate 7 and the middle plate 11, after the connecting sliding plate 7 enters the sliding groove 10, the middle plate 11 can prevent the connecting sliding plate 7 from moving away from the placing cavity 6, so as to ensure the connection between the connecting sliding plate 7 and the two adjacent supporting frames 1, the left side surface of the connecting sliding plate 7 is fixedly connected with the right side surface of the middle plate 11, the left side surface of the middle plate 11 is fixedly connected with the right ends of the two first moving rods 12, the left end of each first moving rod 12 is fixedly connected with the right side surface of the first piston plate 18, the outer surface of each first piston plate 18 is lapped with the inner wall of the first piston frame 14, by arranging the first moving rod 12, while the first moving rod 12 drives the connecting sliding plate 7 to move close to the placing cavity 6, the pulling between two adjacent supporting frames 1 is realized, and the upper surfaces of the supporting frames 1 are fixedly connected with the lower surface of the top convex plate 8.

The upper surface of top flange 8 and the lower fixed surface of connecting block 9 are connected, spout 10 has been seted up to braced frame 1's left surface, braced frame 1 inner wall and wall main part 24's outer fixed surface is connected, two adjacent first piston frame 14 opposite faces are linked together through intervalve 15, two adjacent second piston frame 17 are linked together through intervalve 15, through setting up intervalve 15 and connecting pipe 16, can realize two first piston frames 14, the intercommunication between the second piston frame 17, make things convenient for gaseous smooth circulation, the left surface of right side intervalve 15 is linked together with the one end of connecting pipe 16, the other end of connecting pipe 16 is linked together with the right flank of right side second piston frame 17.

As shown in fig. 6, the left side surface of the first piston plate 18 is fixedly connected to one end of the first elastic member 19, and the other end of the first elastic member 19 is fixedly connected to the left side surface of the inner wall of the first piston frame 14.

As shown in fig. 6, a first moving sleeve 13 is provided on the right side surface of the first piston frame 14, and the inner wall of the first moving sleeve 13 is slidably connected to the outer surface of the first moving rod 12.

As shown in fig. 7, the upper surface of the second piston plate 20 is fixedly connected to the bottom end of the second elastic member 21, and the other end of the second elastic member 21 is fixedly connected to the upper surface of the inner wall of the second piston frame 17.

As shown in fig. 6, the left side surface of the first piston frame 14 is fixedly connected to the left side surface of the inner wall of the placing chamber 6, and the upper surface of the second piston frame 17 is fixedly connected to the upper surface of the inner wall of the first placing groove 2.

As shown in fig. 7, the outer surface of the second moving rod 22 is slidably connected to the inner wall of the second moving sleeve 23, and the second moving sleeve 23 is clamped to the lower surface of the second piston frame 17.

As shown in fig. 1 and 2, the size of the connection sliding plate 7 corresponds to the size of the chute 10, and the position of the connection sliding plate 7 corresponds to the position of the chute 10.

As shown in fig. 2 and 4, the top protruding plate 8 corresponds in position and size to the first placing groove 2, and the coupling groove 4 corresponds in size to the coupling piece 9, respectively.

As shown in fig. 1 and 2, the connecting slide plate 7 is shaped like a T, the chute 10 is shaped like a T, and the connecting pipe 16 is engaged with the upper surface of the inner wall of the first placing groove 2.

As shown in fig. 1, 2 and 7, the first piston plate 18 is formed in a rectangular shape, the movable contact plate 3 is formed in the same shape as the top flange 8, and the wall body 24 is made of an insulating composite slate wall material.

The working principle of the invention is as follows: firstly, placing a supporting frame 1 corresponding to another supporting frame 1, then controlling the supporting frame 1 to slide downwards, simultaneously enabling a connecting sliding plate 7 to enter a sliding groove 10, when a top convex plate 8 is in contact with a movable contact plate 3, the top convex plate 8 drives the movable contact plate 3 to move upwards and extrude a second piston plate 20 to move, at the moment, air inside a second piston frame 17 is transferred into a first piston frame 14, a first piston plate 18 drives the connecting sliding plate 7 to move towards a placing cavity 6, at the moment, the connecting sliding plate 7 pulls the lateral supporting frame 1 through the sliding groove 10, and after the supporting frames 1 are in stable contact, at the moment, assembling of the corresponding supporting frames 1 is completed.

In summary, the present invention:

by arranging the supporting frame 1, the movable contact plate 3, the first piston frame 14, the second piston frame 17, the first moving rod 12, the second moving rod 22, the connecting sliding plate 7, the sliding grooves 10, the connecting pipes 16, the connecting grooves 4, the first placing groove 2, the top convex plate 8 and the connecting block 9, when the supporting frame 1 is placed downwards, the connecting block 9 moves into the corresponding connecting groove 4, then the top convex plate 8 extrudes the movable contact plate 3 to move upwards, so that the front and back relative dislocation between the two adjacent supporting frames 1 is avoided, the movable contact plate 3 extrudes the second piston plate 20 to move upwards while the supporting frame 1 moves downwards, gas in the second piston frame 17 enters the first piston frame 14, at the moment, the connecting sliding plate 7 slides into the corresponding sliding groove 10, the connecting sliding plate 7 is pulled by the first moving rod 12 to move close to the sliding groove 10, and the connecting sliding plate 7 is pulled while the left and right supporting frames 1 are kept connected, the tightness and stability are more ideal, the integral connection stability is more ideal, the stability between the adjacent supporting frames 1 is more ideal, and the safety performance and the heat insulation performance after integral assembly are obviously improved.

According to the invention, by arranging the connecting block 9 and the connecting groove 4, a simple guiding and limiting effect can be realized in the contact connection process of the top convex plate 8 and the movable contact plate 3, the smooth and accurate contact process of the top convex plate 8 and the movable contact plate 3 is ensured, meanwhile, the top convex plate 8 can smoothly move into the first placing groove 2, and the smooth operation of the connection and assembly process of the corresponding supporting frame 1 is ensured.

The points to be finally explained are: first, in the description of the present application, it should be noted that, unless otherwise specified and limited, the terms "mounted," "connected," and "connected" should be understood broadly, and may be a mechanical connection or an electrical connection, or a communication between two elements, and may be a direct connection, and "upper," "lower," "left," and "right" are only used to indicate a relative positional relationship, and when the absolute position of the object to be described is changed, the relative positional relationship may be changed;

secondly, the method comprises the following steps: in the drawings of the disclosed embodiments of the invention, only the structures related to the disclosed embodiments are referred to, other structures can refer to common designs, and the same embodiment and different embodiments of the invention can be combined with each other without conflict;

and finally: the above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that are within the spirit and principle of the present invention are intended to be included in the scope of the present invention.

Claims (10)

1. The utility model provides a dry-hanging wall design structure of heat preservation composite stone wall material, includes braced frame (1), its characterized in that: first standing groove (2) have been seted up to the lower surface of braced frame (1), the outer surface overlap joint of first standing groove (2) inner wall and movable contact board (3), spread groove (4) have been seted up to the lower surface of movable contact board (3), the upper surface of movable contact board (3) and the bottom fixed connection of two second carriage bars (22), the top of second carriage bar (22) and the lower fixed surface of second piston plate (20) are connected, the surface and the second piston frame (17) inner wall overlap joint of second piston plate (20), second standing groove (5) have been seted up to the right flank of braced frame (1), place chamber (6) have been seted up to the left surface of second standing groove (5) inner wall.

2. The dry-hanging wall design structure of the thermal insulation composite stone wall material as claimed in claim 1, which is characterized in that: the outer surface sliding connection of second standing groove (5) inner wall and connection slide (7), the left surface of connection slide (7) and the right flank fixed connection of intermediate lamella (11), the right-hand member fixed connection of the left surface of intermediate lamella (11) and two first carriage bars (12), the left end of first carriage bar (12) and the right flank fixed connection of first piston board (18), the surface and the first piston frame (14) inner wall overlap joint of first piston board (18), the upper surface of braced frame (1) and the lower fixed surface of top flange (8) are connected.

3. The dry-hanging wall design structure of the thermal insulation composite stone wall material as claimed in claim 2, characterized in that: the upper surface of top flange (8) and the lower fixed surface of connecting block (9) are connected, spout (10) have been seted up to the left surface of braced frame (1), braced frame (1) inner wall and the outer fixed surface of wall main part (24) are connected, adjacent two first piston frame (14) opposite face is linked together through intervalve (15), adjacent two second piston frame (17) are linked together through intervalve (15), the right side the left surface of intervalve (15) is linked together with the one end of connecting pipe (16), the other end of connecting pipe (16) is linked together with the right flank of right side second piston frame (17).

4. The dry-hanging wall design structure of heat-insulating composite stone wall material as claimed in claim 3, characterized in that: the left side surface of the first piston plate (18) is fixedly connected with one end of a first elastic component (19), and the other end of the first elastic component (19) is fixedly connected with the left side surface of the inner wall of the first piston frame (14).

5. The dry-hanging wall design structure of heat-insulating composite stone wall material as claimed in claim 3, characterized in that: the right side surface of the first piston frame (14) is provided with a first moving sleeve (13), and the inner wall of the first moving sleeve (13) is in sliding connection with the outer surface of the first moving rod (12).

6. The dry-hanging wall design structure of heat-insulating composite stone wall material as claimed in claim 3, characterized in that: the upper surface of the second piston plate (20) is fixedly connected with the bottom end of the second elastic component (21), and the other end of the second elastic component (21) is fixedly connected with the upper surface of the inner wall of the second piston frame (17).

7. The dry-hanging wall design structure of heat-insulating composite stone wall material as claimed in claim 3, characterized in that: the left side surface of the first piston frame (14) is fixedly connected with the left side surface of the inner wall of the placing cavity (6), and the upper surface of the second piston frame (17) is fixedly connected with the upper surface of the inner wall of the first placing groove (2).

8. The dry-hanging wall design structure of heat-insulating composite stone wall material as claimed in claim 3, characterized in that: the outer surface of the second moving rod (22) is connected with the inner wall of a second moving sleeve (23) in a sliding mode, and the second moving sleeve (23) is connected to the lower surface of the second piston frame (17) in a clamping mode.

9. The dry-hanging wall design structure of heat-insulating composite stone wall material as claimed in claim 3, characterized in that: the size of the connecting sliding plate (7) corresponds to the size of the sliding chute (10), and the position of the connecting sliding plate (7) corresponds to the position of the sliding chute (10).

10. The dry-hanging wall design structure of heat-insulating composite stone wall material as claimed in claim 3, characterized in that: the position and the size of the top convex plate (8) correspond to those of the first placing groove (2) respectively, the size of the connecting groove (4) corresponds to that of the connecting block (9), the shape of the connecting sliding plate (7) is set to be T-shaped, the shape of the sliding groove (10) is set to be T-shaped, the connecting pipe (16) is connected to the upper surface of the inner wall of the first placing groove (2) in a clamped mode, the shape of the first piston plate (18) is set to be rectangular, and the shape of the movable contact plate (3) is the same as that of the top convex plate (8).

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