CN104060755B - A kind of architecture interlayer combined wall board - Google Patents

Abstract

The invention discloses a building sandwich composite wall panel, which comprises a concrete outer wall panel and a concrete inner wall panel, and an insulating layer is arranged between the outer wall panel and the inner wall panel, and is arranged inside the outer wall panel, the insulating layer panel and the inner wall panel Non-metallic connecting rod, the middle part of the non-metallic connecting rod is set as a rod body, ring-shaped teeth are set on the rod body, a ring-shaped baffle is set on one side of the rod body, and a ring-shaped sealing platform is set on the other side of the rod body. The convex ring is connected, the second anchor is connected with the annular baffle, the annular baffle is located at the junction of the insulation laminate and the inner wall panel, and the annular sealing platform is located at the thermal insulation layer at the junction of the insulation laminate and the outer wall panel. In the layer board, the annular teeth are located in the insulation layer board, the first anchoring body is located in the outer wall board, and the second anchoring body is located in the inner wall board. In the sandwich composite wallboard of the present invention, the three-layer structure is firmly connected to each other, greatly improving the strength of the wall, enabling the connecting rod to have a good sealing function when passing through the heat-insulating layer, and greatly improving the effect of heat-retaining and heat-insulating.

Description

A kind of building sandwich composite wall panel

technical field

The invention relates to a building wallboard, which is a building sandwich composite wallboard.

Background technique

Since the traditional building wall construction methods do not meet the standards of energy saving and pollution reduction required in modern buildings, those skilled in the art have designed composite wall panels to replace the walls. This wall panel generally has a three-layer structure, with two layers of concrete The insulation layer is sandwiched, and the three-layer boards are connected together by metal connectors. This kind of wallboard is directly used for construction after being made, thereby solving many deficiencies in traditional construction methods. However, it is found that the wall body of this wallboard is very prone to cracks during use, and in severe cases, the outer layer of the wall will fall off. For this reason, the application of this composite wall in the field is gradually decreasing, which limits the use of the sandwich composite wall.

Contents of the invention

The object of the present invention is to provide a building sandwich composite wallboard, which can solve the deficiencies of the prior art.

In order to achieve the above object, the present invention is achieved through the following technical solutions: a building sandwich composite wall panel, comprising a concrete outer wall panel and a concrete inner wall panel, an insulating layer is arranged between the outer wall panel and the inner wall panel, and the outer wall panel, Non-metallic connecting rods are installed inside the insulation layer board and the inner wall board. The middle part of the non-metallic connecting rod is a rod body. The rod body is provided with ring-shaped teeth. platform, the first anchoring body is connected with the annular sealing platform, the second anchoring body is connected with the annular baffle, the annular baffle is located at the junction of the insulation layer and the inner wall panel, and the annular sealing platform is located at the insulation layer In the thermal insulation laminate at the junction with the outer wall board, the annular teeth are located in the thermal insulation laminate, the first anchor is located in the outer wall board, and the second anchor is located in the inner wall board. The angle α between the surface of the annular tooth and the center line of the rod is an acute angle, and the right end of the annular tooth is the maximum diameter. A first rectangular connecting bolt is arranged at one end of the first anchoring body, and a second rectangular connecting bolt is arranged at one end of the second anchoring body. The cross-sectional shapes of the first anchor and the second anchor are triangular. The annular baffle is circular or polygonal, the outer diameter of the left end of the annular sealing platform is smaller than the outer diameter of the right end, and the maximum outer diameter is located at the rightmost end of the annular sealing platform. The cross-sectional areas of the joints between the first anchoring body and the second anchoring body and the rod body are respectively smaller than the cross-sectional areas of other parts. The cross-sectional areas of the joints between the first anchoring body and the second anchoring body and the rod body are respectively larger than the cross-sectional areas of other parts. The outer end of the first anchoring body is provided with a first rectangular connecting bolt, and one end of the second anchoring body is provided with a second rectangular connecting bolt. The cross sections of the first anchoring body and the second anchoring body are polygonal. On the first anchor body and the ring-shaped sealing platform connection, the small ring-shaped teeth are arranged, the angle α between the surface of the small ring _- shaped teeth and the center line of the rod body is an acute angle, and the right end of the small ring-shaped teeth is the maximum diameter. The diameter of the left end of the small ring tooth is smaller than the diameter of the right end, and the small ring tooth is located at the edge in the heat-insulating layer, and the edge is the junction of the heat-insulating layer and the outer wall board. The distance between every two connecting rods is 300-600 mm.

The sandwich composite wallboard of the present invention is directly used as a wall at the construction site after being made on the production line in the factory. The wallboard of the present invention completely solves the deficiencies of the prior art. It uses non-metallic connecting rods and the combination of structures on them to connect the three-layer boards together, so that the elastic connecting rods follow the thermal expansion and cooling of the outer wallboards. Shrinkage produces deformation, so that the structure of each part of the connecting rod plays a corresponding role. The anchor support part of the connecting rod does not produce rigid damage to the outer wall panel, so that the outer wall panel does not produce cracks, and then the outer layer of the wall does not appear. The shedding phenomenon makes the industrial production of composite wall panels replace the traditional wall construction method into reality, and provides a guarantee for clean buildings and energy-saving buildings. In the sandwich composite wallboard of the present invention, the three-layer structure is firmly connected to each other, greatly improving the strength of the wall, enabling the connecting rod to have a good sealing function when passing through the heat-insulating layer, and greatly improving the effect of heat-retaining and heat-insulating. The invention also has the advantages of easy standardized manufacture, simple wall construction and the like.

Description of drawings

Accompanying drawing 1 is the structural representation of the present invention; Accompanying drawing 2 is the structural representation of non-metallic connecting rod 6 in accompanying drawing 1; Accompanying drawing 3 is the right view structural representation of accompanying drawing 2; Accompanying drawing 4 is the embodiment of non-metallic connecting rod 6 One structural schematic diagram; Accompanying drawing 5 is a right-view structural schematic diagram of accompanying drawing 4; Accompanying drawing 6 is a schematic structural diagram of an enlarged structure of part I in accompanying drawing 4;

detailed description

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

In the figure, 1 is the exterior wall panel, 3 is the concrete interior wall panel, the insulation layer 2 is set between the exterior wall panel 1 and the interior wall panel 3, and the non-metallic The connecting rod 6, the middle part of the non-metallic connecting rod 6 is set as a rod body 8, the rod body 8 is provided with annular teeth 10, one side of the rod body 8 is provided with an annular baffle plate 9, and the other side of the rod body 8 is provided with an annular sealing platform 11 , the first anchoring body 12 is connected to the annular sealing platform 11, the second anchoring body 13 is connected to the annular baffle 9, and the annular baffle 9 is located at the junction of the insulation layer 2 and the inner wall panel 3, and the annular The sealing table 11 is located in the insulation layer 2 at the junction of the insulation layer 2 and the exterior wall panel 1, the annular tooth 10 is located in the insulation layer 2, the first anchor 12 is located in the exterior wall 1, and the second anchor 13 is located in the interior wall panel 3. The above-mentioned structure of the present invention solves various problems in the prior art, wherein the annular teeth 10 increase the connection strength with the insulation layer 2, and the annular baffle 9 on the connecting rod 6 is used for positioning, and the connection The hole when the rod 6 passes through the insulation board is closed, and the ring-shaped sealing platform 11 seals the hole through which the connecting rod 6 passes through the outer wall board. The two sealing structures greatly increase the heat preservation effect and ensure the use function of the composite wall board. , the supporting effects of the first anchoring body 12 and the second anchoring body 13 are good. The connecting rods 6 arranged in the building sandwich composite wallboard of the present invention are set every about 500 millimeters, that is, the distance between every two connecting rods 6 is 300 to 600 millimeters, and the preferred distance is 500 millimeters. This spacing achieves the purpose of support and connection, and at the same time reduces the production cost to the minimum. The positions of the various parts of the connecting rod 6 relative to the exterior wall panels, thermal insulation panels and interior wall panels are the optimal solution for achieving the purpose and effect of the invention. .

The angle α between the surface of the annular tooth 10 of the present invention and the centerline of the rod body 8 is an acute angle, the right end of the annular tooth 10 has a maximum diameter 10, and the diameter of the left end of the annular tooth 10 is smaller than the diameter of the right end. This scheme makes the annular tooth 10 further increase the connection strength with the insulation laminate 2, further fixes the position of the connection rod 6 in the insulation laminate without displacement, and enables the structure of each part of the connection rod 6 to be accurately positioned.

One end of the first anchoring body 12 according to the present invention is provided with a first rectangular connecting bolt 18 , and one end of the second anchoring body 13 is provided with a second rectangular connecting bolt 15 . This structure can facilitate the connection of steel ropes in production with the formwork, simplify the production process and improve construction efficiency.

A further solution of the present invention is: the cross-sectional shapes of the first anchoring body 12 and the second anchoring body 13 are triangular. The cross-sectional shapes of the two anchors of the connecting rod 6 are the same to meet the requirement of simplifying the manufacturing process. The triangular cross-sectional shape of the first anchor 12 satisfies the purpose of uniform stress, so that the support in three directions is uniform, and further prevents cracks on the surface of the outer wall panel. The cross-sectional shape shown in accompanying drawing 2 can also achieve the supporting effect, but when pre-embedding, it is necessary to change the installation positions of a plurality of connecting rods 6 .

The annular baffle 9 of the present invention is circular or polygonal, the outer diameter of the left end of the annular sealing table 11 is smaller than the outer diameter of the right end, and the maximum outer diameter is located at the rightmost end of the annular sealing table 11 . This is the preferred shape of the annular baffle 9, which is convenient for manufacture, installation and better sealing. The structural shape of the annular sealing table 11 is a preferred solution to achieve the sealing effect and further prevent displacement.

According to the present invention, the cross-sectional areas of the joints between the first anchoring body 12 and the second anchoring body 13 and the rod body 8 are smaller than the cross-sectional areas of other parts. The cross-sectional areas of the joints of the first anchoring body 12 and the second anchoring body 13 with the rod body 8 are respectively larger than the cross-sectional areas of other parts. A second rectangular connection bolt 15 is provided. Both of the above two schemes make the anchoring body achieve a better supporting effect. One of them can be provided with a through hole 14 at the end position to facilitate the fixing of the formwork through steel ropes. The other scheme is that a rectangular connecting bolt 15 can be set to facilitate Steel rope fixing.

The cross-sections of the first anchoring body 12 and the second anchoring body 13 described in the present invention are polygonal. This is a preferred solution, which is convenient for direct molding of non-metallic shapes for production, and the polygonal shape can be three-sided, four-sided or five-sided.

In order to further securely connect with the insulation laminate 2 after sealing the hole through the connecting rod, a further solution is provided: a small ring-shaped tooth 17 is provided at the connection between the first anchor 12 and the ring-shaped sealing platform 11, and the small ring-shaped The included angle α ₂ between the surface of tooth 17 and the centerline of rod body 8 is an acute angle, and the right-hand end of small annular tooth 17 is maximum diameter, and the left end diameter of small annular tooth 17 is less than the right end diameter, and small annular tooth 17 is positioned at heat preservation. The inner edge of the laminate 2 is the joint of the thermal insulation laminate 2 and the outer wall panel 1 .

The positions of the right end and the left end described in the present invention all take the positions shown in the figure as reference positions. Among the figures, _α3 is the angle between the surface of the annular tooth at the left end of the annular sealing platform 11 and the centerline.

Claims (9)

1. an architecture interlayer combined wall board, it is characterized in that: comprise concrete external wall panel (1) and concrete inner wall plate (3), insulation laminate (2) is set between concrete external wall panel (1) and concrete inner wall plate (3), in concrete external wall panel (1), in insulation laminate (2) and inner wall panel, nonmetal pitman (6) is set, nonmetal pitman (6) middle part is barred body (8), barred body (8) is arranged ring tooth (10), barred body (8) side arranges ring-shaped baffle (9), barred body (8) opposite side arranges annular seal platform (11), first anchoring body (12) connects with annular seal platform (11), second anchoring body (13) connects with ring-shaped baffle (9), ring-shaped baffle (9) is positioned at insulation laminate (2) and concrete inner wall plate (3) joint, annular seal platform (11) is positioned at the insulation laminate (2) of insulation laminate (2) and concrete external wall panel (1) joint, ring tooth (10) is positioned at insulation laminate (2), first anchoring body (12) is positioned at concrete external wall panel (1), second anchoring body (13) is positioned at concrete inner wall plate (3), at the first anchoring body (12), upper and annular seal platform (11) junction arranges little ring tooth (17), the angle α of the surface of little ring tooth (17) and the centreline space of barred body (8) ₂for acute angle, the right-hand member of little ring tooth (17) is maximum gauge, the left end diameter of little ring tooth (17) is less than right-hand member diameter, little ring tooth (17) is positioned at the edge of insulation laminate (2), and this edge is the junction of insulation laminate (2) and concrete external wall panel (1).

2. a kind of architecture interlayer combined wall board according to claim 1, is characterized in that: the angle α of the surface of ring tooth (10) and the centreline space of barred body (8) is acute angle, and ring tooth (10) right-hand member is maximum gauge.

3. a kind of architecture interlayer combined wall board according to claim 1, it is characterized in that: the first anchoring body (12) outer end arranges the first rectangle coupling bar (18), the second anchoring body (13) outer end arranges the second rectangle coupling bar (15).

4. a kind of architecture interlayer combined wall board according to claim 1, is characterized in that: the shape of cross section of the first anchoring body (12) and the second anchoring body (13) is triangle.

5. a kind of architecture interlayer combined wall board according to claim 1, it is characterized in that: ring-shaped baffle (9) is circular or polygon, the left end external diameter of annular seal platform (11) is less than right-hand member external diameter, and maximum outside diameter is positioned at the low order end of annular seal platform (11).

6. a kind of architecture interlayer combined wall board according to claim 1, it is characterized in that: the first anchoring body (12) is less than other position cross sectional area of the first anchoring body (12) with the cross sectional area of barred body (8) junction, the second anchoring body (13) is less than other position cross sectional area of the second anchoring body (13) with the cross sectional area of barred body (8) junction.

7. a kind of architecture interlayer combined wall board according to claim 1, it is characterized in that: the first anchoring body (12) is greater than other position cross sectional area of the first anchoring body (12) with the cross sectional area of barred body (8) junction, second anchoring body (13) is greater than other position cross sectional area of the second anchoring body (13) with the cross sectional area of barred body (8) junction, first anchoring body (12) outer end arranges the first rectangle coupling bar (18), and the second anchoring body (13) outer end arranges the second rectangle coupling bar (15).

8. a kind of architecture interlayer combined wall board according to claim 6 or 7, is characterized in that: the cross section of the first anchoring body (12) and the second anchoring body (13) is many prismatics.

9. a kind of architecture interlayer combined wall board according to claim 1 or 7, is characterized in that: the spacing of every two nonmetal pitmans (6) is 300 ~ 600 millimeters.