CN217420042U - Connection cushion block and heat-insulation net rack piece for built-in heat-insulation system of building external wall - Google Patents

Abstract

The utility model provides a building outer wall embeds heat preservation system is with connecting cushion and heat preservation rack spare, connect the cushion and include integrated into one piece's interior section and outside section, connect the cushion and be the connection cushion of being made by concrete material, the interior section is contradicted on heated board or enhancement layer, the outside section is contradicted on the exterior sheathing, it is connected with the inboard locking disc of heated board through the connecting piece that can run through heated board and enhancement layer to connect the cushion, be provided with on the interior section with connecting piece complex through-hole, be provided with the recess that is used for placing the connecting piece tip in the outside section, be provided with the draw-in groove that is used for the anti net piece of joint on the outer wall of recess. The connecting cushion block is made of a concrete material, the outer end of the connecting cushion block directly abuts against the template, after the concrete is poured, the poured concrete can be tightly attached to the connecting cushion block, after the outer template is detached, the outer surface of the building outer wall is the whole concrete surface, and the phenomenon of water seepage from the connecting cushion block is effectively avoided.

Description

Building outer wall embeds connection cushion and heat preservation rack spare for heat preservation system

Technical Field

The utility model relates to a building energy saving technical field specifically is a building outer wall embeds heat preservation system is with connecting cushion and heat preservation net rack spare.

Background

At present, building outer wall embeds insulation system uses extensively, and in order to restrict the heated board displacement, traditional art adopts the independent point type of cushion to pass power, and the cushion is very easily impressed the heated board, leads to spacing failure. In order to avoid the cushion block to be pressed into the heat insulation plate, the technical scheme that steel wire meshes are arranged at two ends of the heat insulation plate is disclosed in the prior art.

The building outer wall built-in heat insulation system comprises a heat insulation plate, steel wire meshes arranged at two ends of the heat insulation plate, an inner formwork, an outer formwork, a reinforcing steel bar structure and an anti-cracking net piece, wherein the heat insulation plate, the steel wire meshes at two ends of the heat insulation plate and the anti-cracking net piece arranged on the outer side of the heat insulation plate are fixedly connected through connecting parts to form a heat insulation net frame part; the outer end of the connecting part is abutted against the outer template.

At present, connecting parts adopted in engineering are made of plastic materials or metal materials, after concrete is poured and an inner template and an outer template are removed, the outer end face of each connecting part can be exposed out of the outer end face of an outer wall of a building, the connecting parts are not tightly connected with the concrete, and the phenomena of water seepage of a wall body and the like are easily caused.

In addition, the steel wire mesh and the insulation board which are arranged at the two ends of the insulation board are assembled and fixed through connecting parts, the steel wire mesh is difficult to position and install, the industrial production is inconvenient, and the production efficiency is low. This is a disadvantage of the prior art.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a: 1. the connecting cushion block for the built-in heat insulation system of the building outer wall is provided, so that the phenomenon of water seepage of the building outer wall is reduced; 2. the heat-insulating net rack piece for the built-in heat-insulating system of the building outer wall is provided, the reinforced layer is adhered to the heat-insulating plate, and industrial production is facilitated.

In order to achieve the above object, the utility model provides a following technical scheme:

the utility model provides a building outer wall embeds insulation system is with connecting cushion, includes integrated into one piece's interior section and outside section, connects the cushion and is the connection cushion of being made by concrete material, the interior section is contradicted on heated board or enhancement layer, the outside section is contradicted on the exterior sheathing, it is connected with the inboard locking disc of heated board through the connecting piece that can run through heated board and enhancement layer to connect the cushion, be provided with on the interior section with connecting piece complex through-hole, be provided with the recess that is used for placing the connecting piece tip in the outside section, be provided with the draw-in groove that is used for the anti net piece of joint on the outer wall of recess. Adopt this technical scheme, connect the cushion and make by concrete material, the outer end of connecting the cushion directly contradicts on the template, and after the concrete has been poured, the concrete of pouring can closely laminate with connecting the cushion, pulls down the exterior sheathing after, and the surface of building outer wall is whole concrete surface, has effectually avoided taking place the phenomenon of infiltration from connecting cushion.

Preferably, the reinforcing layer is a mortar layer adhered to the heat-insulating plate or a steel wire mesh arranged outside the heat-insulating plate.

Preferably, the connecting piece is a U-shaped locking wire, and the inner side section is provided with two through holes matched with the U-shaped locking wire. By adopting the technical scheme, only two through holes are arranged on the inner side section, and the rest are in solid structures, so that the strength of the connecting cushion block is effectively ensured; the outer side section is provided with a groove, so that the U-shaped lock wire can conveniently penetrate through the connecting cushion block.

The utility model provides a building outer wall embeds insulation system is with connecting cushion, includes integrated into one piece's interior section and outside section, the interior section is contradicted on heated board or enhancement layer, the outside section is connected with the concrete chock, the concrete chock is contradicted on the exterior sheathing, it is connected with the inboard locking disc of heated board through the connecting piece that can run through heated board and enhancement layer to connect the cushion, be provided with on the interior section with connecting piece complex through-hole, be provided with the recess that is used for placing the connecting piece tip in the outside section, be provided with the draw-in groove that is used for the anti net piece of joint on the outer wall of recess. Adopt this technical scheme, connect the cushion and can adopt plastics material or metal material, contradict on the exterior sheathing through the concrete chock, after having poured the concrete, the concrete of pouring can closely laminate with the concrete chock, pull down the exterior sheathing after, the surface of building outer wall is whole concrete surface, the effectual phenomenon of having avoided taking place the infiltration from connecting the cushion.

Preferably, the reinforcing layer is a mortar layer adhered to the heat-insulating plate or a steel wire mesh arranged outside the heat-insulating plate.

Preferably, the connecting piece is a U-shaped locking wire, and the inner side section is provided with two through holes matched with the U-shaped locking wire. By adopting the technical scheme, only two through holes are arranged on the inner side section, and the rest are in solid structures, so that the strength of the connecting cushion block is effectively ensured; the outer side section is provided with a groove, so that the U-shaped lock wire can conveniently penetrate through the connecting cushion block.

Preferably, the distance of the concrete plug exposed out of the connecting cushion block is 3mm-5 mm. By adopting the technical scheme, the outer end of the concrete chock is exposed out of the connecting cushion block by 3-5 mm, so that the possibility of water seepage is effectively prevented.

Preferably, the connecting cushion block is provided with a positioning protrusion for positioning the concrete chock block, and the positioning protrusion is arranged in the groove. By adopting the technical scheme, the positioning protrusion is arranged, the position of the concrete chock block can be ensured, the installation is convenient, and the installation precision can be ensured.

A heat insulation net rack piece for a built-in heat insulation system of a building outer wall comprises a heat insulation board, a connecting cushion block, an anti-crack net piece, a lock disc and a connecting piece; reinforcing layers are arranged at the inner end and/or the outer end of the heat insulation plate and are adhered to the heat insulation plate; the connecting cushion block comprises a clamping groove for mounting the anti-crack net piece; the connecting cushion block is fixedly connected with the lock disc through a connecting piece which can penetrate through the heat insulation plate and the reinforced layer, the inner end of the connecting cushion block is abutted against the heat insulation plate or the reinforced layer, and the outer end of the connecting cushion block is abutted against the outer template; the outer end of the lock disc is abutted against the heat insulation plate or the reinforcing layer; the connecting piece is a U-shaped lock wire, two lock holes matched with the U-shaped lock wire are arranged on the lock disc, two through holes matched with the U-shaped lock wire are arranged on the connecting cushion block, the end part of the U-shaped lock wire is clamped on the anti-crack net piece, and the U-shaped lock wire can be in sliding fit with the connecting cushion block; the connecting cushion block comprises an inner side section and an outer side section which are integrally formed, the through hole is formed in the inner side section, a groove used for placing the end portion of the U-shaped lock wire is formed in the outer side section, and the clamping groove is formed in the outer wall of the groove. By adopting the technical scheme, when concrete is poured between the heat insulation plate and the inner template and between the heat insulation plate and the outer template, the arranged reinforcing layer can prevent the connecting cushion block and/or the locking disc from being extruded into the heat insulation plate; reinforcing layers are arranged at the inner end and/or the outer end of the heat insulation plate and are adhered to the heat insulation plate, and the reinforcing layers are fixedly connected with the heat insulation plate without connecting cushion blocks, connecting pieces and locking discs, so that the industrial production is facilitated; the connecting cushion block, the U-shaped lock wire and the lock disc are of a split structure, so that the installation is convenient, the installation efficiency is high, the installation can be carried out after the heat insulation plate is punched, the lock hole is a one-way hole, the U-shaped lock wire cannot exit after being inserted into the lock hole, the end part of the U-shaped lock wire is clamped at the cross-shaped intersection of the anti-crack net piece, the anti-crack net piece is clamped in the groove of the connecting cushion block, and the anti-crack net piece is effectively fixed; the inner side section is only provided with two through holes, and the rest of the inner side section is of a solid structure, so that the strength of the connecting cushion block is effectively ensured; the outer side section is provided with a groove, so that the U-shaped lock wire can conveniently penetrate through the connecting cushion block.

Preferably, the reinforcing layer is a mortar layer. By adopting the technical scheme, the reinforcing layer adopts the mortar layer, mortar can be laid on the inner end surface or the outer end surface of the heat-insulating plate, and structures such as grid cloth and the like can be additionally arranged in the mortar layer.

The connecting cushion block can be arranged into the following two forms:

the connecting cushion block is made of concrete materials, and the outer end of the connecting cushion block directly abuts against the outer template. Adopt this technical scheme, the outer end of connecting the cushion directly contradicts on the template, and after the concrete has been poured, the concrete of pouring can closely laminate with connecting the cushion, pulls down the exterior sheathing after, and the surface of building outer wall is whole concrete surface, and the effectual phenomenon of having avoided taking place the infiltration from connecting the cushion.

And (II) the connecting cushion block is connected with a concrete chock block, and the outer end of the concrete chock block is abutted against the outer template. Adopt this technical scheme, connect the cushion and can adopt plastics material or metal material, contradict on the exterior sheathing through the concrete chock, after having poured the concrete, the concrete of pouring can closely laminate with the concrete chock, pull down the exterior sheathing after, the surface of building outer wall is whole concrete surface, the effectual phenomenon of having avoided taking place the infiltration from connecting the cushion.

Preferably, the distance of the concrete plug exposed out of the connecting cushion block is 3mm-5 mm. By adopting the technical scheme, the outer end of the concrete chock is exposed out of the connecting cushion block by 3-5 mm, so that the possibility of water seepage is effectively prevented.

Preferably, the connecting cushion block is provided with a positioning bulge for positioning the concrete chock block, and the positioning bulge is arranged in the groove. By adopting the technical scheme, the positioning protrusion is arranged, the position of the concrete chock block can be ensured, the installation is convenient, and the installation precision can be ensured.

Therefore, compared with the prior art, the utility model has the substantive characteristics and the progress, and the beneficial effects of the implementation are also obvious.

Drawings

Fig. 1 is a schematic perspective view of a connecting pad.

FIG. 2 is a first schematic side view of a connecting pad.

Fig. 3 is a schematic view of the connection structure of the connection pad, the connection member and the lock plate.

Fig. 4 is a schematic view of a connection structure of the connection pad block and the concrete chock block.

Fig. 5 is a schematic side view of the connecting pad.

Fig. 6 is a schematic structural view of the connector.

Fig. 7 is a schematic perspective view of the first thermal insulation frame member.

Fig. 8 is a schematic perspective view of the second thermal insulation frame member.

Fig. 9 is a schematic perspective view of a built-in thermal insulation system of an exterior wall of a building (the outer formwork and the inner formwork are not shown).

Fig. 10 is a schematic structural diagram of a built-in heat insulation system of an external wall of a building.

In the figure: 1-heat preservation plate, 2-reinforcing layer, 3-connecting cushion block, 3.1-inner section, 3.1.1-through hole, 3.2-outer section, 3.2.1-groove, 3.2.2-clamping groove, 4-anti-crack net piece, 5-locking disc, 5.1-reinforcing rib, 5.1.1-connecting hole, 6-vertical rib, 7-stirrup, 8-limiting section bar, 9-bridge-cut connecting rod, 10-inner template, 11-outer template, 12-concrete plug block and 13-connecting piece.

Detailed Description

The drawings are for illustrative purposes only, and some components in the drawings may be omitted, enlarged or reduced for better explanation of the present embodiments, and do not represent the size of an actual product.

Example 1

As shown in fig. 1-3, 6, and 9-10, a connection pad block for a built-in insulation system of a building outer wall comprises an inner section 3.1 and an outer section 3.2 which are integrally formed, wherein the connection pad block 3 is a connection pad block made of a concrete material, the inner section 3.1 abuts against an insulation board 1 or a reinforced layer 2, the outer section 3.2 abuts against an outer template 11, the connection pad block 3 is connected with a lock disc 5 on the inner side of the insulation board 1 through a connecting piece 13 which can penetrate through the insulation board 1 and the reinforced layer 2, a through hole 3.1.1 matched with the connecting piece 13 is arranged on the inner section 3.1, a groove 3.2.1 for placing the end part of the connecting piece 13 is arranged on the outer section 3.2, and a clamping groove 3.2.2 for clamping an anti-crack net piece 4 is arranged on the outer wall of the groove 3.2.1.

Further, the enhancement layer 2 is the mortar layer with 1 adhesion of heated board or the enhancement layer is the steel wire net piece that sets up in the 1 outside of heated board.

Furthermore, the connecting piece is U type lock silk, be provided with on the interior section 3.1 with U type lock silk complex two through-holes 3.1.1.

Example 2

The difference from the embodiment 1 is that, as shown in fig. 4-5, the outer section 3.2 of the connecting pad 3 is connected with a concrete chock 12, the concrete chock 12 is abutted against the outer formwork 11, and the distance of the concrete chock 12 exposed out of the connecting pad 3 is 3mm-5 mm. The connecting cushion block 3 is provided with a positioning protrusion 3.2.3 for positioning the concrete chock block 12, and the positioning protrusion 3.2.3 is arranged in the groove 3.2.1.

Example 3

As shown in fig. 1-10, a heat-insulating grid member for a built-in heat-insulating system of a building outer wall comprises a heat-insulating plate 1, a connecting cushion block 3, an anti-crack net sheet 4, a lock disc 5 and a connecting member 13; the inner end and/or the outer end of the heat insulation plate 1 are/is provided with a reinforcing layer 2, and the reinforcing layer 2 is adhered to the heat insulation plate 1; the connecting cushion block 3 comprises a clamping groove 3.2.2 for mounting the anti-crack net piece 4; the connecting cushion block 3 is fixedly connected with the lock disc 5 through a connecting piece 13 which can penetrate through the heat insulation plate 1 and the reinforced layer 2, the inner end of the connecting cushion block 3 is abutted against the heat insulation plate 1 or the reinforced layer 2, and the outer end of the connecting cushion block 3 is abutted against the outer template 11; the outer end of the lock disc 5 is abutted against the heat preservation plate 1 or the reinforcing layer 2; the connecting piece 13 is a U-shaped lock wire, the lock disc 5 is provided with two lock holes matched with the U-shaped lock wire, the connecting cushion block 3 is provided with two through holes 3.1.1 matched with the U-shaped lock wire, the end part of the U-shaped lock wire is clamped on the anti-crack net piece 4, and the U-shaped lock wire can be in sliding fit with the connecting cushion block 3; the connecting cushion block 3 comprises an inner section 3.1 and an outer section 3.2 which are integrally formed, the through hole 3.1.1 is formed in the inner section 3.1, a groove 3.2.1 used for placing the end part of the U-shaped lock wire is formed in the outer section 3.2, and the clamping groove 3.2.2 is formed in the outer wall of the groove 3.2.1.

Further, the reinforcing layer 2 is a mortar layer.

The connecting cushion block 3 comprises the following two structural forms:

the connecting cushion block 3 is made of concrete materials, and the outer end of the connecting cushion block 3 directly props against the outer template 11.

And (II) the connecting cushion block 3 is connected with a concrete chock block 12, and the outer end of the concrete chock block 12 props against the outer template 11. In the structure form, the distance of the outer end of the concrete chock 12 exposed out of the connecting cushion block 3 is 3mm-5 mm. The connecting cushion block 3 is provided with a positioning bulge 3.2.3 for positioning the concrete chock block 12.

While the preferred embodiments of this patent have been described in detail, this patent is not limited to the above-described embodiments, and various changes can be made without departing from the spirit of this patent within the knowledge of those skilled in the art.

Claims (12)

1. The utility model provides a building outer wall embeds insulation system is with connecting cushion, its characterized in that, including integrated into one piece's medial section and outside section, connect the cushion and be the connection cushion of being made by concrete material, the medial section is contradicted on heated board or enhancement layer, the outside section is contradicted on the exterior sheathing, it is connected with the inboard locking disc of heated board through the connecting piece that can run through heated board and enhancement layer to connect the cushion, be provided with on the medial section with connecting piece complex through-hole, be provided with the recess that is used for placing the connecting piece tip in the outside section, be provided with the draw-in groove that is used for the anti-crack net piece of joint on the outer wall of recess.

2. The utility model provides a building outer wall embeds insulation system is with connecting cushion, a serial communication port, including integrated into one piece's medial section and outside section, the medial section is contradicted on heated board or enhancement layer, the outside section is connected with the concrete chock, the concrete chock is contradicted on the exterior sheathing, it is connected with the inboard locking disc of heated board through the connecting piece that can run through heated board and enhancement layer to connect the cushion, be provided with on the medial section with connecting piece complex through-hole, be provided with the recess that is used for placing the connecting piece tip in the outside section, be provided with the draw-in groove that is used for the anti net piece of splitting of joint on the outer wall of recess.

3. The connecting cushion block for the built-in heat insulation system of the external wall of the building according to claim 1 or 2, wherein the reinforcing layer is a mortar layer adhered to the heat insulation board or a steel wire mesh arranged outside the heat insulation board.

4. The connecting cushion block for the built-in heat insulation system of the building outer wall according to claim 1 or 2, wherein the connecting piece is a U-shaped locking wire, and two through holes matched with the U-shaped locking wire are formed in the inner side section.

5. The connecting cushion block for the built-in heat insulation system of the external wall of the building as claimed in claim 2, wherein the distance of the concrete plug exposed out of the connecting cushion block is 3mm-5 mm.

6. The connecting cushion block for the built-in heat insulation system of the external wall of the building according to claim 2, wherein a positioning protrusion for positioning the concrete chock block is arranged on the connecting cushion block, and the positioning protrusion is arranged in the groove.

7. A heat insulation net rack piece for a built-in heat insulation system of a building outer wall is characterized by comprising a heat insulation board, a connecting cushion block, an anti-crack net piece, a lock disc and a connecting piece; reinforcing layers are arranged at the inner end and/or the outer end of the heat insulation plate and are adhered to the heat insulation plate; the connecting cushion block comprises a clamping groove for mounting the anti-crack net piece; the connecting cushion block is fixedly connected with the lock disc through a connecting piece which can penetrate through the heat insulation plate and the reinforced layer, the inner end of the connecting cushion block abuts against the heat insulation plate or the reinforced layer, and the outer end of the connecting cushion block can abut against the outer template; the outer end of the lock disc is abutted against the heat insulation plate or the reinforcing layer; the connecting piece is a U-shaped lock wire, two lock holes matched with the U-shaped lock wire are arranged on the lock disc, two through holes matched with the U-shaped lock wire are arranged on the connecting cushion block, the end part of the U-shaped lock wire is clamped on the anti-crack net piece, and the U-shaped lock wire can be in sliding fit with the connecting cushion block; the connecting cushion block comprises an inner section and an outer section which are integrally formed, the through hole is formed in the inner section, a groove used for placing the end portion of the U-shaped locking wire is formed in the outer section, and the clamping groove is formed in the outer wall of the groove.

8. The insulating grid member for the built-in insulating system of the external wall of the building as claimed in claim 7, wherein the reinforcing layer is a mortar layer.

9. The insulation grid member for the built-in insulation system of the external wall of the building as claimed in claim 7, wherein the connection pad is a connection pad made of concrete material, and the outer end of the connection pad is directly abutted against the external form.

10. The heat insulation grid member for the built-in heat insulation system of the external wall of the building as claimed in claim 7, wherein the connecting cushion block is connected with a concrete chock, and the outer end of the concrete chock is abutted against the external formwork.

11. The insulation grid member for the building external wall built-in insulation system according to claim 10, wherein the distance of the outer end of the concrete chock exposed from the connecting cushion block is 3mm to 5 mm.

12. An insulation grid member for a built-in insulation system of a building exterior wall according to claim 10 or 11, wherein the connecting cushion block is provided with a positioning protrusion for positioning the concrete chock block, and the positioning protrusion is arranged in the groove.

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