CN204703316U - Cross heat preservation module - Google Patents

Abstract

A kind of cross heat preservation module, comprise four L-type insulation layers and multiple connector, L-type insulation layer described in each has a horizontal plate and a vertical plate, and described in four, L-type insulation layer is symmetrical arranged between two, the vertical plate of four L-type insulation layers be arranged in parallel, and the level board of four L-type insulation layers be arranged in parallel; Surround by four L-type insulation layers the cross die cavity that can arrange connector, connecting member forming described in each has at least three contiguous blocks, and three contiguous blocks at least surround a hole in cross die cavity; By said structure, it is staggered that the utility model heat preservation module can allow concrete be formed after pouring concrete is come in, not only side and concrete combine connector up and down, hole simultaneously between contiguous block with insulation layer is also combined with concrete, allow between connector and concrete and connect more firmly, whole wall body structure intensity is higher.

Description

Cross heat preservation module

Technical field

The utility model relates to a kind of for building unit field, refers in particular to the cross heat preservation module that a kind of structural strength is high.

Background technology

In order to improve the energy-saving heat preserving effect of building, extend building unit application life, improve production and the efficiency of construction of building, have developed multiple before and after the applicant successively take EPS as the constructional materials of raw material, comprising the complex heat-preservation module of the diverse location for buildings such as interior wall, exterior wall, ground, roofings; Wherein a kind of in order to obtain good heat insulation effect, the structural strength improving body of wall and constructability, normally two-layer EPS heat preservation module plastic fastening is connected, fluid concrete between two-layer EPS heat preservation module so again, thus be concrete structure in the middle of being formed, and both sides are the energy-saving heat-insulating composite body of wall of EPS heat preservation module.

Energy-saving building thing body of wall corner needs to use corresponding cross heat preservation module or cross heat preservation module or cross heat preservation module to come stacking, more simplifies, facilitates stacking energy-saving building thing body of wall.Refer to Fig. 1, Fig. 2, existing heat preservation module includes two and surrounds the cross insulation layer 10 of cross die cavity and multiple connector 20 be arranged in cross die cavity, then toward concreting in two cross insulation layers 10; Existing connector 20 is mostly yi word pattern, play the concrete effect between the cross insulation layer 10 of locking, this cross insulation layer 10 and connector 20 form the pore space structure of horizontal and vertical, after fluid concrete, connector 20 up and down four sides and concrete combines, but this integrated structure makes the structural strength of body of wall limited.

In view of this, the design people for above-mentioned heat preservation module structure design not being attained perfect caused many disappearances and inconvenience, and deeply conceives, and active research improvement has a fling at and development and Design goes out this case.

Utility model content

The purpose of this utility model is the cross heat preservation module providing a kind of structural strength high, to improve the structural strength of whole wall body module.

In order to reach above-mentioned purpose, solution of the present utility model is:

A kind of cross heat preservation module, it comprises four L-type insulation layers and multiple connector, L-type insulation layer described in each has a horizontal plate and a vertical plate, described in four, L-type insulation layer is symmetrical arranged between two, the vertical plate of four L-type insulation layers be arranged in parallel, and the level board of four L-type insulation layers be arranged in parallel; Surround by four L-type insulation layers the cross die cavity that can arrange connector, connecting member forming described in each has at least three contiguous blocks, and three contiguous blocks at least surround a hole in cross die cavity.

Described connecting member forming has four contiguous blocks, and four contiguous blocks surround two circular cavities in cross die cavity.

Described connector is X-type.

Offering one at described connector upper surface can the steel bar groove of accommodating reinforcement bar.

Described L-type insulation layer and connector integrated injection molding.

Interval, described L-type insulation layer side arranges multiple vertical slot, and each contiguous block has can be inserted in vertical slot and the grafting block slided on vertical slot.

Each contiguous block has the parallel surface with cross die cavity parallel contact; Described grafting block is arranged on parallel surface.

In described cross die cavity, two-layer connector is set.

Described two-layer connector shifts to install.

After adopting said structure, the connecting member forming of the cross heat preservation module of the utility model has three contiguous blocks, and three contiguous blocks at least surround a hole in cross die cavity; Concrete can be allowed to be formed after pouring concrete is come in staggered, not only side and concrete combine connector up and down, hole simultaneously between contiguous block with insulation layer is also combined with concrete, and allow between connector and concrete and connect more firmly, whole wall body structure intensity is higher.

Accompanying drawing explanation

Fig. 1 is the structural representation of existing heat preservation module;

Fig. 2 is the schematic top plan view of existing heat preservation module;

Fig. 3 is the structural representation of the utility model heat preservation module;

Fig. 4 is the schematic top plan view of the utility model heat preservation module;

Fig. 5 is the structural representation of the connector of the utility model heat preservation module.

Symbol description

L-type insulation layer 1 connector 2

Horizontal plate 11 is plate 12 vertically

Cross die cavity 13 vertical slot 14

Contiguous block 21 grafting block 22

Hole 23 parallel surface 24

Steel bar groove 25.

Detailed description of the invention

In order to explain the technical solution of the utility model further, below by specific embodiment, the utility model is elaborated.

Refer to Fig. 3, Fig. 4, the utility model discloses a kind of cross heat preservation module, it comprises four L-type insulation layers 1 and multiple connector 2, L-type insulation layer 1 described in each has horizontal plate 11 and a vertical plate 12, described in four, L-type insulation layer 1 is symmetrical arranged between two, the vertical plate 12 of four L-type insulation layers 1 be arranged in parallel, and the level board 11 of four L-type insulation layers 1 be arranged in parallel; Surround by four L-type insulation layers 1 the cross die cavity 13 that can arrange connector 2, it is Y type that connector 2 described in each forms at least three contiguous block 21(), and three contiguous blocks 21 at least surround a hole 23 in cross die cavity 13.

The connector 2 of the cross heat preservation module of the utility model forms three contiguous blocks, 21, three contiguous blocks 21 in cross die cavity 13, at least surrounds a hole 23; Concrete can be allowed to be formed after pouring concrete is come in staggered, not only side and concrete combine connector 2 up and down, hole 23 simultaneously between contiguous block 21 with insulation layer 1 is also combined with concrete, allow between connector 2 and concrete and connect more firmly, whole wall body structure intensity is higher.

Refer to Fig. 5, the described connector 2 of the cross heat preservation module of the utility model forms four contiguous blocks, 21, four contiguous blocks 21 and surround two circular cavities 23 in described cross die cavity 13; And described connector 2 is in X-type; When fluid concrete, not only side and concrete combine connector 2 up and down, also be combined with concrete at two holes 23 simultaneously, concrete is allowed to be formed staggered, make to connect between connector 2 and concrete more firm, whole wall body structure intensity is higher, and the utility model heat preservation module improves connectivity robustness between connector 2 and concrete by increasing hole 23 with increase and concrete joint surface, and then increases the intensity of wall body structure.

The cross heat preservation module of the utility model offers one at described connector 2 upper surface can the steel bar groove 25 of accommodating reinforcement bar; Reinforcement bar can be added before fluid concrete, improve body of wall overall construction intensity.

Described L-type insulation layer 1 and connector 2 integrated injection molding of the cross heat preservation module of the utility model, need distinguish assembly and connection part 2 when avoiding the later stage to use and consume the plenty of time, increasing work efficiency.

The described insulation layer 1 of the cross heat preservation module of the utility model can separate with connector 2 to be produced, and the later stage is linked together by other connected modes; Can needing varying strength that quantity and the arrangement of connector 2 are set according to body of wall, namely by arranging several connector 2 to increase the structural strength of heat preservation module, in concrete use, reaching flexible Application more.Interval, described L-type insulation layer side arranges multiple vertical slot 14, and each contiguous block 21 has can be inserted in vertical slot 14 and the grafting block 22 slided on vertical slot 14; Each contiguous block 21 has the parallel surface 24 with cross die cavity 13 parallel contact; Described grafting block 22 is arranged on parallel surface 24, makes contiguous block 21 and insulation layer 1 junction more firm.

The cross heat preservation module of the utility model two-layer connector 2 is set in cross die cavity, strengthen heat preservation module structural strength; And described two-layer connector 2 shifts to install; Allow concrete not only be formed staggered in the horizontal direction and wildly in the vertical direction to be formed staggered, make to connect between connector 2 and concrete more firm, whole wall body structure intensity is higher.

Above-described embodiment and accompanying drawing non-limiting product form of the present utility model and style, any person of an ordinary skill in the technical field, to its suitable change done or modification, all should be considered as not departing from patent category of the present utility model.

Claims (9)

1. a cross heat preservation module, it is characterized in that: comprise four L-type insulation layers and multiple connector, L-type insulation layer described in each has a horizontal plate and a vertical plate, described in four, L-type insulation layer is symmetrical arranged between two, the vertical plate of four L-type insulation layers be arranged in parallel, and the level board of four L-type insulation layers be arranged in parallel; Surround by four L-type insulation layers the cross die cavity that can arrange connector, connecting member forming described in each has at least three contiguous blocks, and three contiguous blocks at least surround a hole in cross die cavity.

2. cross heat preservation module as claimed in claim 1, it is characterized in that: described connecting member forming has four contiguous blocks, four contiguous blocks surround two circular cavities in cross die cavity.

3. cross heat preservation module as claimed in claim 2, is characterized in that: described connector is X-type.

4. cross heat preservation module as claimed in claim 1, is characterized in that: offering one at described connector upper surface can the steel bar groove of accommodating reinforcement bar.

5. cross heat preservation module as claimed in claim 1, is characterized in that: described L-type insulation layer and connector integrated injection molding.

6. cross heat preservation module as claimed in claim 1, it is characterized in that: interval, described L-type insulation layer side arranges multiple vertical slot, each contiguous block has can be inserted in vertical slot and the grafting block slided on vertical slot.

7. cross heat preservation module as claimed in claim 6, is characterized in that: each contiguous block has the parallel surface with cross die cavity parallel contact; Described grafting block is arranged on parallel surface.

8. cross heat preservation module as claimed in claim 1, is characterized in that: in described cross die cavity, arrange two-layer connector.

9. cross heat preservation module as claimed in claim 8, is characterized in that: described two-layer connector shifts to install.