CN209975792U - Node is strengthened to no heat bridge in-line of assembled heated board - Google Patents

Abstract

The utility model belongs to the technical field of the building, especially, relate to a node is strengthened to no heat bridge in-line of assembled heated board. The main insulation boards are arranged in three rows, the main insulation boards in the same row are uniformly distributed, the main insulation boards in different rows are arranged in a staggered manner, the outer layer of the wallboard is a concrete outer layer, each row of the main insulation boards is longitudinally separated by the concrete rib, the concrete ribs in adjacent rows are staggered with each other, and the main insulation boards in adjacent rows are transversely separated by the concrete middle interlayer; the utility model has the advantages of the installation operation is showing and is simplifying, and the assembly is fast, improve thermal insulation performance, and the material loss rate is low, does not produce building rubbish, is favorable to promoting the industrialization process.

Description

Node is strengthened to no heat bridge in-line of assembled heated board

Technical Field

The utility model belongs to the technical field of the building, especially, relate to a node is strengthened to no heat bridge in-line of assembled heated board.

Background

The building energy conservation is a policy vigorously advocated by the national government, one of the main measures is to perform heat insulation, so as to control the indoor and outdoor heat transfer to achieve the effect of building energy conservation, the fireproof performance of the building, which is warm in winter and cool in summer, mainly depends on the overall materials for forming various parts of roofs, walls and floors, after 20 th century 70 s, the development and application of heat insulation materials in buildings are generally emphasized abroad, novel heat insulation materials are continuously emerging, the consumption of energy is greatly reduced, so as to reduce environmental pollution and greenhouse effect, however, in China, before 1980 s, the development of heat insulation materials is very slow, the connectivity of the whole walls is poor, the earthquake resistance is not high, the use and popularization are influenced, but after 30 years of efforts, particularly after nearly 20 years of high-speed development, few products are from endless to diversified, the quality is from low to high, the expanded perlite, mineral wool, foamed plastic, fire-resistant fiber, heat insulation products are from low to high, the quality is from low to high, the national, the energy consumption of heat insulation materials is a great amount of heat insulation materials, the expanded perlite, mineral wool, the energy consumption of the heat insulation materials is a common heat insulation material for reducing the energy consumption of buildings, the heat insulation materials for the national heat insulation wall is a great amount of buildings, the heat insulation materials, the heat insulation of the heat insulation materials is a heat insulation wall, the heat insulation material, the heat insulation wall is a heat insulation brick, the brick.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem that above-mentioned exists, the utility model provides a node is strengthened to assembled heated board's no heat bridge line font, the installation operation is showing and is simplifying, it is fast to assemble, be favorable to promoting the industrialization process, the multiple anchor of setting is connected and can be prevented that the node from sliding the deformation, the connection design of concave part is inserted to the protruding portion in the node, the arrangement structure that the different row heated board staggers the setting, set up the heat bridge that the inside and connected node department of wallboard can be eliminated to the heat preservation bonding mortar between the wallboard link, reduce energy consumption.

In order to realize the purpose, the utility model discloses a technical scheme be:

the heat-bridge-free linear reinforcing node of the assembled heat-insulation board comprises a stirrup anchoring steel bar, a stirrup, a connecting wood keel, a concrete outer layer, a concrete intermediate interlayer, a concrete rib, main heat-insulation boards, partition boards, a connecting wall board, a convex part, a concave part, heat-insulation bonding mortar, heat-insulation board matching boards, anchor ring anchoring steel bars, tie bar anchoring steel bars, anchor rings and tie bars, wherein in the structure of the heat-bridge-free linear reinforcing node of the assembled heat-insulation board, the main heat-insulation boards are arranged in three rows, the main heat-insulation boards in the same row are uniformly distributed, the main heat-insulation boards in different rows are arranged in a staggered manner, the outer layer of the wall board is a concrete outer layer, each row of main heat-insulation boards is longitudinally separated by the concrete rib, the concrete ribs in adjacent rows are staggered, and the main heat-insulation boards in the adjacent rows are transversely; in the structure of the wall dividing plate, a plurality of stirrup anchoring steel bars, anchor ring anchoring steel bars and tie bar anchoring steel bars are arranged at the joint of the wall dividing plate and the connecting wall plate, concave parts and connecting wood keels are arranged, a heat distribution plate is arranged in the middle heat distribution plate in the wall dividing plate and close to the connecting wood keels, the connecting wall plate is cross-shaped, the left side and the right side of the connecting wall plate are respectively provided with a convex part, the left end and the right end of the connecting wall plate are respectively provided with a plurality of anchor ring anchoring steel bars, the upper part and the lower part of the connecting wall plate are respectively provided with a plurality of stirrup anchoring steel bars, and the heat distribution plate is arranged in; the convex part that will connect the wallboard inserts in the concave part of branch wallboard, adopts the stirrup to carry out the anchor connection to the stirrup anchor reinforcing bar in branch wallboard and the connection wallboard to the stirrup entangles and connects the wooden keel setting, sets up the anchor ring and carries out the anchor connection to the anchor ring anchor reinforcing bar in branch wallboard and the connection wallboard, sets up the drawknot muscle and connects the drawknot muscle anchor reinforcing bar fixedly, carries out the anchor connection to the stirrup simultaneously, sets up heat preservation bonding mortar between the link of branch wallboard and connection wallboard.

Further, the thickness of the concrete rib is set to 60 ~ 80 mm.

Further, the main insulation board and the auxiliary insulation board are hard polyurethane foam boards.

Further, the thickness of the concrete outer layer is set to be 30 ~ 40 mm.

Further, the thickness of the concrete intermediate barrier layer is set to be 80 ~ 90 mm.

Furthermore, the anchor ring is connected to the wall partition plate and the anchor ring anchoring steel bars in the connecting wall partition plate in a welding mode.

Furthermore, the stirrup anchoring steel bar is connected with the stirrup in a welding mode.

Furthermore, the heat-insulating bonding mortar is prepared by mixing heat-insulating mortar and a resin adhesive.

Furthermore, the tie bar and the stirrup are connected in a welding mode.

The utility model has the advantages that:

the utility model has the advantages and beneficial effects that the installation operation is obviously simplified, the assembly speed is fast, the promotion of industrialization process is facilitated, the concrete outer layer is arranged to protect the interior of the heat preservation plate, the stirrup is adopted to anchor and connect the stirrup anchoring steel bar, the anchor ring is arranged to anchor and connect the anchor ring anchoring steel bar, the tie bar is arranged to connect and fix the tie bar anchoring steel bar, meanwhile, the stirrup is anchored and connected, the connection strengthening effect of the wall dividing plate and the connecting wall plate is improved, the connection strength and the stability are improved, the arranged multiple anchoring connection can prevent the node from sliding and deforming, the collision or drawing damage can not happen when the earthquake happens, the connection design that the convex part in the node is inserted into the concave part, the arrangement structure that the heat preservation and bonding mortar are arranged between the wall plate connecting ends can eliminate the heat bridge in the wall plate and at the connecting node, the energy consumption is reduced, the heat insulation performance is improved, the heat bridge effect of the non-heat insulation parts in the wallboard and at the connecting node can be avoided without adopting other heat insulation modes, the energy-saving performance is high, the material loss rate is low, and no construction waste is generated.

Drawings

Fig. 1 is the utility model discloses assembled heated board's no heat bridge in-line strengthens the cross section schematic diagram of node continuation section.

Fig. 2 is the utility model discloses cross section schematic diagram when no heat bridge in-line of assembled heated board strengthens the nodal connection.

Fig. 3 is a schematic cross-sectional view of the wall-dividing plate.

Figure 4 is a schematic cross-sectional view of a connecting wall panel.

In the figure: 1 is a stirrup anchoring steel bar; 2 is a stirrup; 3 is a connecting wood keel; 4 is a concrete outer layer; 5 is a concrete middle interlayer; 6 is a concrete rib; 7 is a main heat-insulation plate; 8 is a wall dividing plate; 9 is a connecting wallboard; 10 is a convex part; 11 is a concave part; 12 is heat-insulating bonding mortar; 13 is a heat preservation board; 14 is an anchor ring anchoring steel bar; 15 is a tie bar anchoring steel bar; 16 is an anchor ring; and 17 is a tie bar.

Detailed Description

For further explanation of the present invention, the following detailed description of the present invention is provided with reference to the drawings and examples, which should not be construed as limiting the scope of the present invention.

Example (b): as shown in figures 1-4, the utility model relates to a heat bridge-free straight-line-shaped reinforced node of an assembled insulation board, which comprises a stirrup anchoring reinforcement 1, a stirrup 2, a connecting wood keel 3, a concrete outer layer 4, a concrete intermediate interlayer 5, a concrete rib 6, a main insulation board 7, a wall dividing board 8, a connecting wall board 9, a convex part 10, a concave part 11, insulation bonding mortar 12, a heat distribution board 13, an anchor ring anchoring reinforcement 14, a tie bar anchoring reinforcement 15, an anchor ring 16 and a tie bar 17, in the structure of the heat bridge-free straight-line-shaped reinforced node of the assembled insulation board, the main insulation board 7 is arranged in three inner and outer rows, the main insulation board 7 in the same row is uniformly distributed, the main insulation board 7 in different rows is staggered, the outer layer of the wall board is a concrete outer layer 4, each row of the main insulation board 7 is longitudinally separated by the concrete rib 6, the concrete ribs 6 in adjacent rows are staggered, the main insulation boards 7 in adjacent rows are transversely separated by the concrete middle separation layer 5; in the structure of the wall dividing plate 8, a plurality of stirrup anchoring steel bars 1, anchor ring anchoring steel bars 14 and tie bar anchoring steel bars 15 are arranged at the joint of the wall dividing plate 8 and the connecting wall plate 9, and a concave part 11 and a connecting wood keel 3 are arranged, in the middle row of heat insulation plates in the wall dividing plate 8, a heat distribution plate 13 is arranged at the position adjacent to the connecting wood keel 3, the connecting wall plate 9 is in a cross shape, the left side and the right side of the connecting wall plate 9 are respectively provided with a convex part 10, the left end and the right end of the connecting wall plate 9 are respectively provided with a plurality of anchor ring anchoring steel bars 14, the upper part and the lower part of the connecting wall plate 9 are respectively provided with a plurality of stirrup anchoring steel bars 1, and the heat; insert the convex part 10 of connecting wallboard 9 in the concave part 11 of dividing wallboard 8, adopt stirrup 2 to carry out the anchor connection to stirrup anchor reinforcing bar 1 in dividing wallboard 8 and the connecting wallboard 9, and 2 covers the setting of connecting wood joist 3 of stirrup, set up anchor ring 16 and carry out the anchor connection to anchor ring anchor reinforcing bar 14 in dividing wallboard 8 and the connecting wallboard 9, it connects fixedly to set up drawknot muscle 17 to drawknot muscle anchor reinforcing bar 15, carry out the anchor connection to stirrup 2 simultaneously, set up heat preservation bonding mortar 12 between the link of dividing wallboard 8 and connecting wallboard 9.

The thickness of the concrete rib 6 is set at 60 ~ 80 mm.

The main insulation board 7 and the auxiliary insulation board 13 are hard polyurethane foam boards.

The thickness of the concrete outer layer 4 is set at 30 ~ 40 mm.

The thickness of the concrete middle partition layer 5 is set to be 80 ~ 90 mm.

The anchor ring 16 is connected with the anchor ring anchoring steel bars 14 in the partition wall plate 8 and the connecting wall plate 9 in a welding mode and ensures enough anchoring strength.

The stirrup anchoring steel bar 1 and the stirrup 2 are connected in a welding mode and enough anchoring strength is guaranteed.

The heat-insulating bonding mortar 12 is prepared by mixing heat-insulating mortar and resin adhesive, and can simultaneously eliminate heat bridges and increase the bonding property and the shock-resistant buffering capacity of connecting nodes.

The tie bar 17 and the stirrup 2 are connected in a welding mode and enough anchoring strength is ensured.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims (9)

1. The utility model provides a node is strengthened to no heat bridge in-line of assembled heated board, includes stirrup anchor reinforcing bar (1), stirrup (2), connects wooden keel (3), concrete skin (4), concrete intermediate insulation layer (5), concrete rib (6), main heated board (7), divides wallboard (8), connection wallboard (9), convex part (10), concave part (11), heat preservation bonding mortar (12), joins in marriage heated board (13), anchor ring anchor reinforcing bar (14), lacing wire anchor reinforcing bar (15), anchor ring (16) and lacing wire (17), its characterized in that:

in the structure of the heat-bridge-free linear reinforced joint of the assembled heat-insulation boards, the main heat-insulation boards (7) are arranged in three rows, the main heat-insulation boards (7) in the same row are uniformly distributed, the main heat-insulation boards (7) in different rows are arranged in a staggered manner, the outer layer of the wallboard is a concrete outer layer (4), each row of main heat-insulation boards (7) are longitudinally separated by a concrete rib (6), the concrete ribs (6) in adjacent rows are staggered with each other, and the main heat-insulation boards (7) in adjacent rows are transversely separated by a concrete intermediate interlayer (5); in the structure of the wall dividing plate (8), a plurality of stirrup anchoring steel bars (1), anchor ring anchoring steel bars (14) and tie bar anchoring steel bars (15) are arranged at the joint of the wall dividing plate (8) and the connecting wall plate (9), concave parts (11) and connecting wood keels (3) are arranged, a distribution and insulation plate (13) is arranged in the middle row of insulation plates in the wall dividing plate (8) and adjacent to the connecting wood keels (3), the connecting wall plate (9) is in a cross shape, the left side and the right side of the connecting wall plate (9) are respectively provided with convex parts (10), the left end and the right end of the connecting wall plate (9) are respectively provided with a plurality of stirrup anchoring steel bars (14), the upper part and the lower part of the connecting wall plate (9) are respectively provided with a plurality of stirrup anchoring steel bars (1), and the distribution and insulation plate (13) is; insert convex part (10) of connecting wallboard (9) in concave part (11) of branch wallboard (8), adopt stirrup (2) to carry out the anchor connection to stirrup anchor reinforcing bar (1) in branch wallboard (8) and connection wallboard (9), and stirrup (2) entangle and connect wooden keel (3) setting, set up anchor ring (16) and carry out the anchor connection to anchor reinforcing bar (14) in branch wallboard (8) and connection wallboard (9), it connects fixedly to set up drawknot muscle (17) drawknot muscle anchor reinforcing bar (15), carry out the anchor connection to stirrup (2) simultaneously, set up heat preservation bonding mortar (12) between the link of branch wallboard (8) and connection wallboard (9).

2. The heat bridge-free linear reinforcing node of the fabricated insulation board according to claim 1, wherein the thickness of the concrete rib (6) is set to 60 ~ 80 mm.

3. The non-thermal bridge in-line reinforcing node of the fabricated insulation board of claim 1, wherein: the main insulation board (7) and the auxiliary insulation board (13) are hard polyurethane foam boards.

4. The heat bridge-free linear reinforcing node of the fabricated insulation board according to claim 1, wherein the thickness of the concrete outer layer (4) is set to be 30 ~ 40 mm.

5. The heat bridge-free linear reinforcing node of the fabricated insulation board according to claim 1, wherein the thickness of the concrete intermediate isolation layer (5) is set to be 80 ~ 90 mm.

6. The non-thermal bridge in-line reinforcing node of the fabricated insulation board of claim 1, wherein: the anchor ring (16) is connected with the anchor ring anchoring steel bars (14) in the partition wall plate (8) and the connecting wall plate (9) in a welding mode.

7. The non-thermal bridge in-line reinforcing node of the fabricated insulation board of claim 1, wherein: the stirrup anchoring steel bar (1) is connected with the stirrup (2) in a welding mode.

8. The non-thermal bridge in-line reinforcing node of the fabricated insulation board of claim 1, wherein: the heat-insulating bonding mortar (12) is prepared by mixing heat-insulating mortar and a resin adhesive.

9. The non-thermal bridge in-line reinforcing node of the fabricated insulation board of claim 1, wherein: the tie bar (17) and the stirrup (2) are connected in a welding mode.

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