CN211646788U - Embedded part T-shaped EPS cavity module - Google Patents

Abstract

The utility model discloses an embedded part T-shaped EPS cavity module, which relates to the technical field of heat preservation modules and comprises a first EPS heat preservation angle plate, a second EPS heat preservation angle plate and an EPS heat preservation straight plate, wherein the first EPS heat preservation angle plate and the second EPS heat preservation angle plate are oppositely arranged, and the EPS heat preservation straight plate is arranged below the two EPS heat preservation angle plates; the EPS heat-insulation plates are connected through a high-polymer injection molding connecting piece to form a T-shaped cavity module; a plurality of dovetail grooves are formed in the two sides of each EPS heat insulation board, inserting convex tongues and grooves and inserting concave tongues and grooves are formed in the top end and the bottom end of each EPS heat insulation board respectively, and rectangular inserting convex tongues and grooves and rectangular inserting concave tongues and grooves are formed in the two ends of each EPS heat insulation board respectively. The utility model discloses well EPS heated board and connecting piece comprise different materials, and simple structure is reasonable, has effectively improved structural strength and construction quality, has reduced construction cost, has solved current EPS cavity module and has connected bridge drawknot intensity low to and influence the wall body concrete insecure scheduling problem because it is bulky to connect the bridge, can replace the tee bend module of current product, and the practicality is strong.

Description

Embedded part T-shaped EPS cavity module

Technical Field

The utility model relates to a heat preservation module technical field especially relates to an embedded part T type EPS cavity module.

Background

At present, the EPS cavity module structure is molded by a mould in the production process and is integrally demoulded with a module panel. Besides, the EPS heat-insulation board and the connecting bridge are formed by the same material through pre-foaming, so that the problem that the strength of the connecting bridge is not enough due to climate temperature change and the process requirement in the production process is strict and complicated is solved. However, the existing EPS cavity module foam connecting bridge generally has insufficient tie strength, and is easy to have the phenomena of mold expansion and crack in the process of concrete pouring and vibrating, which causes waste of labor and material cost and improves construction cost.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a rational in infrastructure, use cost low embedded part T type EPS cavity module.

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

the utility model provides an embedded part T-shaped EPS cavity module, which comprises a first EPS heat preservation angle plate, a second EPS heat preservation angle plate and an EPS heat preservation straight plate, wherein the first EPS heat preservation angle plate and the second EPS heat preservation angle plate are arranged oppositely, and the EPS heat preservation straight plate is arranged below the first EPS heat preservation angle plate and the second EPS heat preservation angle plate; the first EPS heat-preservation angle plate and the second EPS heat-preservation angle plate as well as the EPS heat-preservation straight plate and each EPS heat-preservation angle plate are respectively connected through more than two polymer injection molding connecting pieces to form a T-shaped cavity module, and a cavity is formed between every two adjacent polymer injection molding connecting pieces; a plurality of dovetail grooves are arranged on the two side surfaces of the EPS heat-preservation straight plate and each EPS heat-preservation angle plate; the heat-insulation straight EPS boards and the top ends and the bottom ends of all the heat-insulation corner boards are respectively provided with a plug-in convex rabbet and a plug-in concave rabbet which are used for being plugged with another EPS heat-insulation board, and the two ends of the heat-insulation straight EPS boards and the two ends of all the heat-insulation corner boards are respectively provided with a rectangular plug-in convex rabbet and a rectangular plug-in concave rabbet.

Optionally, the polymer injection molding connecting piece is a polypropylene injection molding connecting piece.

Optionally, the polymer injection molding connecting piece is a Z-shaped hollowed-out connecting piece, and the Z-shaped hollowed-out connecting piece is connected with the EPS heat preservation angle plate and/or the EPS heat preservation straight plate through two side edges.

Optionally, a vertical channel of the T-shaped cavity module is formed between the first EPS heat-preservation angle plate and the second EPS heat-preservation angle plate, a horizontal channel of the T-shaped cavity module is formed between the EPS heat-preservation straight plate and the two EPS heat-preservation angle plates, and the polymer injection molding connecting pieces are distributed in the horizontal channel and the vertical channel at intervals in parallel.

Optionally, the insertion convex rabbet and the insertion concave rabbet are arranged at the same end of the EPS heat-insulation straight plate and the two EPS heat-insulation angle plates.

Optionally, the rectangular inserting convex rabbet and the rectangular inserting concave rabbet are arranged at six end points of the T-shaped cavity module in a crossed manner at intervals.

Optionally, the small-mouth end of the dovetail groove is located at the outer side, and the large-mouth end of the dovetail groove is located at the inner side.

Optionally, the outer sides of the corner portions of the first EPS heat-preservation corner plate and the second EPS heat-preservation corner plate are provided with an inclined surface.

Optionally, a plurality of rectangular limiting grooves are distributed on the inserting convex rabbet and the inserting concave rabbet.

The utility model discloses for prior art gain following technological effect:

the embedded part T-shaped EPS cavity module provided by the utility model has simple and reasonable structure, and can make the concreting and the plastering mortar more firm by arranging the dovetail groove and utilizing the structural characteristics of small outside and large inside of the dovetail groove; in addition, the connecting piece has small volume, occupies small volume in the cavity, and can effectively prevent the module from floating upwards when concrete is poured; the connecting piece is through linking into an organic whole EPS cavity with the EPS heated board in the foaming forming process, and the drawknot intensity is high, has stopped traditional EPS cavity module and has pour concrete in the cavity and has risen the mould, has burst the phenomenon, the effectual structural strength and the construction quality that have improved have reduced construction cost, and it is low to have solved current EPS cavity mould and have connected bridge drawknot intensity to and influence the not closely knit scheduling problem of wall body concrete owing to connect the bridge bulky.

In addition, the inclined plane that the right angle position outside of first EPS heat preservation scute and second EPS heat preservation scute set up can effectively increase the bight of two EPS heat preservation scutes and the cavity volume between the EPS heat preservation straight board, can replace the tee bend module of current product, and the practicality is strong.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings required to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive labor.

Fig. 1 is a schematic perspective view of an embedded part T-shaped EPS cavity module according to the present invention;

FIG. 2 is a front view of the embedded part T-shaped EPS cavity module of the present invention;

FIG. 3 is a left side view of FIG. 2;

FIG. 4 is a right side view of FIG. 2;

FIG. 5 is a top view of FIG. 2;

FIG. 6 is a bottom view of FIG. 2;

FIG. 7 is a rear view of FIG. 2;

wherein the reference numerals are: 1. a first EPS insulation angle plate; 2. a second EPS insulation angle plate; 3. a polymer injection molding connecting piece; 4. a cavity; 5. a dovetail groove; 6. inserting convex tongue-and-groove; 7. a concave tongue-and-groove is inserted; 8. a rectangular inserting convex tongue-and-groove; 9. a rectangular inserting concave tongue-and-groove; 10. a bevel; 11. EPS heat preservation straight board.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

The utility model aims at providing a rational in infrastructure, use cost low embedded part T type EPS cavity module.

Based on the structure, the utility model provides an embedded part T-shaped EPS cavity module, which comprises a first EPS heat preservation angle plate, a second EPS heat preservation angle plate and an EPS heat preservation straight plate, wherein the first EPS heat preservation angle plate and the second EPS heat preservation angle plate are arranged oppositely, and the EPS heat preservation straight plate is arranged below the first EPS heat preservation angle plate and the second EPS heat preservation angle plate; the first EPS heat-preservation angle plate and the second EPS heat-preservation angle plate as well as the EPS heat-preservation straight plate and each EPS heat-preservation angle plate are respectively connected through more than two polymer injection molding connecting pieces to form a T-shaped cavity module, and a cavity is formed between every two adjacent polymer injection molding connecting pieces; a plurality of dovetail grooves are arranged on the two side surfaces of the EPS heat-preservation straight plate and each EPS heat-preservation angle plate; the top end and the bottom end of each EPS heat preservation straight plate and each EPS heat preservation angle plate are respectively provided with a plug-in convex rabbet and a plug-in concave rabbet which are used for being plugged with another EPS heat preservation plate, and the two ends of each EPS heat preservation straight plate and each EPS heat preservation angle plate are respectively provided with a rectangular plug-in convex rabbet and a rectangular plug-in concave rabbet.

The embedded part T-shaped EPS cavity module provided by the utility model has simple and reasonable structure, and can make the concreting and the plastering mortar more firm by arranging the dovetail groove and utilizing the structural characteristics of small outside and large inside of the dovetail groove; in addition, the connecting piece has small volume, occupies small volume in the cavity, and can effectively prevent the module from floating upwards when concrete is poured; the connecting piece is through linking into an organic whole EPS cavity with the EPS heated board in the foaming forming process, and the drawknot intensity is high, has stopped traditional EPS cavity module and has pour concrete in the cavity and has risen the mould, has burst the phenomenon, the effectual structural strength and the construction quality that have improved have reduced construction cost, and it is low to have solved current EPS cavity mould and have connected bridge drawknot intensity to and influence the not closely knit scheduling problem of wall body concrete owing to connect the bridge bulky.

In order to make the above objects, features and advantages of the present invention more comprehensible, the present invention is described in detail with reference to the accompanying drawings and the detailed description.

The first embodiment is as follows:

as shown in fig. 1-7, the embodiment provides an embedded part T-shaped EPS cavity module, which includes a first EPS heat-preservation angle plate 1, a second EPS heat-preservation angle plate 2, and an EPS heat-preservation straight plate 11, where the first EPS heat-preservation angle plate 1 and the second EPS heat-preservation angle plate 2 are arranged in a back-to-back manner, and the EPS heat-preservation straight plate 11 is arranged below the first EPS heat-preservation angle plate 1 and the second EPS heat-preservation angle plate 2; the first EPS heat-preservation angle plate 1 and the second EPS heat-preservation angle plate 2, and the EPS heat-preservation straight plate 11 and each EPS heat-preservation angle plate are respectively connected through more than two polymer injection molding connecting pieces 3 to form a T-shaped cavity module, and a cavity 4 is formed between every two adjacent polymer injection molding connecting pieces 3; a plurality of dovetail grooves 5 are arranged on the two side surfaces of the EPS heat-preservation straight plate 11 and each EPS heat-preservation angle plate; the top end and the bottom end of the EPS heat preservation straight plate 11 and each EPS heat preservation angle plate are respectively provided with a plug-in convex rabbet 6 and a plug-in concave rabbet 7 which are used for being plugged with another EPS heat preservation plate, and the two ends of the EPS heat preservation straight plate 11 and each EPS heat preservation angle plate are respectively provided with a rectangular plug-in convex rabbet 8 and a rectangular plug-in concave rabbet 9.

In this embodiment, the polymer injection-molded connecting member 3 is preferably formed by injection-molding polypropylene, and is made of a different material from each EPS heat-insulating board, and is clamped with the EPS heat-insulating angle plates 11 and/or the EPS heat-insulating angle plates on both sides by using a physical reaction (expansion and contraction) between the materials in the foaming and forming process of the EPS heat-insulating boards, so as to form a T-shaped embedded part three-way EPS cavity module having a cavity 4 in the middle. This 3 drawknot intensity of polymer injection moulding connecting piece is high, has stopped traditional EPS cavity module and has pour concrete in the cavity and expand the mould, phenomenons such as bursting apart, can effectively improve construction quality, reduces construction cost.

In this embodiment, the polymer injection-molded connecting part 3 is a "Z" type hollow connecting part, and both sides of the "Z" type hollow connecting part are respectively connected with an EPS heat-insulating board, i.e., in a T-shaped EPS cavity module unit, and both free ends of the "Z" type hollow connecting part are not connected with other parts. In this embodiment, the "Z" type fretwork connecting piece includes first vertical and the second vertical with first vertical parallel arrangement, and first vertical and second vertical all vertical setting, and first vertical is located the top of second vertical, and the end of first vertical is connected through the top of diaphragm with the second vertical to form "Z" type spare, but the diaphragm is all perpendicular with first vertical, second vertical in this embodiment.

In this embodiment, as shown in fig. 2 and 7, the first EPS heat preservation angle plate 1 and the second EPS heat preservation angle plate 2 are both preferably 90-degree angle plates, the first EPS heat preservation angle plate 1 and the second EPS heat preservation angle plate 2 are oppositely and symmetrically arranged, a vertical channel of a T-shaped cavity module is formed between a vertical edge of the first EPS heat preservation angle plate 1 and a vertical edge of the second EPS heat preservation angle plate 2, a horizontal channel of the T-shaped cavity module is formed between the EPS heat preservation straight plate 11 and transverse edges of the two EPS heat preservation angle plates, and the polymer injection molding connecting pieces 3 are distributed in the horizontal channel and the vertical channel at intervals in parallel. In the embodiment, the polymer injection molding connecting pieces 3 are symmetrically distributed in the horizontal channel by taking the vertical channel as a symmetry axis, each polymer injection molding connecting piece 3 is perpendicular to the planes of the EPS heat-insulating plates on the two sides, and the volume of a cavity 4 between the two polymer injection molding connecting pieces 3 close to the corner of the EPS heat-insulating angle plate is smaller than that of other cavities; in the vertical passageway, the polymer 3 intervals of connecting piece of moulding plastics evenly set up, and all perpendicular with the vertical plane of the EPS heat preservation scute of both sides. Of course, the number and distribution of the polymer injection-molded connectors 3 in each channel can be adaptively adjusted according to actual conditions and stress analysis.

In this embodiment, the insertion convex rabbet 6 and the insertion concave rabbet 7 are arranged at the same end of each EPS heat-insulating board, that is, the positions and the modes of the insertion convex rabbet 6 and the insertion concave rabbet 7 arranged on the EPS heat-insulating straight board 11 and the two EPS heat-insulating angle boards are completely the same. As shown in fig. 2 and 7, the EPS heat-preservation straight plate 11 and the insertion convex rabbet 6 on the two EPS heat-preservation angle plates are both positioned on the front side, and the EPS heat-preservation straight plate 11 and the insertion concave rabbet 7 on the two EPS heat-preservation angle plates are both positioned on the rear side.

In this embodiment, as shown in fig. 1, 2, 5, 6, and 7, the rectangular insertion convex rabbet 8 and the rectangular insertion concave rabbet 9 are respectively disposed at six end points of a T-shaped cavity module surrounded by the EPS heat-insulating straight board 11 and two EPS heat-insulating angle boards, and are alternately arranged. Namely, the mounting directions of the rectangular inserting convex rabbet 8 and the rectangular inserting concave rabbet 9 on the two EPS heat preservation angle plates are opposite, as shown in figure 2, if the rectangular inserting convex rabbet 8 on the first EPS heat preservation angle plate 1 is arranged at the upper end, and the rectangular inserting concave rabbet 9 is arranged at the lower end, the rectangular inserting convex rabbet 8 on the second EPS heat preservation angle plate 2 is arranged at the lower end as shown in figure 7, and the rectangular inserting concave rabbet 9 is arranged at the upper end; one end of the EPS heat preservation straight plate 11, which is provided with the rectangular inserting convex rabbet 8, is arranged at the same end of the rectangular inserting concave rabbet 9 at the lower end of the first EPS heat preservation angle plate 1. The rectangular inserting convex rabbet 8 and the rectangular inserting concave rabbet 9 are arranged in a crossed mode, so that the inserting stability of different EPS cavity modules through the rectangular inserting convex rabbet 8 and the rectangular inserting concave rabbet 9 is improved.

In this embodiment, as shown in fig. 1, the dovetail groove 5 is integrally formed on the EPS heat-insulating angle plate by foaming, and the small-mouth end is located on the outer side, the large-mouth end is located on the inner side, and the small-mouth end and the large-mouth end are structurally characterized, so that the poured concrete and the plastering mortar are firmer.

In this embodiment, as shown in fig. 2 and 7, the inclined planes 10 are arranged on the outer sides of the corners of the first EPS heat-insulating angle plate 1 and the second EPS heat-insulating angle plate 2, so that the volume of the cavity between the corners of the two EPS heat-insulating angle plates can be effectively increased, the three-way module of the existing product can be replaced, and the practicability is high.

In the embodiment, the inserting convex rabbet 6 and the inserting concave rabbet 7 are uniformly distributed with a plurality of rectangular limiting grooves, so that the two modules which are connected up and down can be effectively prevented from moving mutually.

Therefore, the embedded part T-shaped EPS cavity module provided by the utility model has simple and reasonable structure, and can make the poured concrete and the plastering mortar more firm by arranging the dovetail groove and utilizing the structural characteristics of small outside and large inside of the dovetail groove; in addition, the connecting piece has small volume, occupies small volume in the cavity, and can effectively prevent the module from floating upwards when concrete is poured; the connecting piece is through linking into an organic whole EPS cavity with the EPS heated board in the foaming forming process, and the drawknot intensity is high, has stopped traditional EPS cavity module and has pour concrete in the cavity and has risen the mould, has burst the phenomenon, the effectual structural strength and the construction quality that have improved have reduced construction cost, and it is low to have solved current EPS cavity mould and have connected bridge drawknot intensity to and influence the not closely knit scheduling problem of wall body concrete owing to connect the bridge bulky.

In addition, the inclined plane that the right angle position outside of first EPS heat preservation scute and second EPS heat preservation scute set up can effectively increase the bight of two EPS heat preservation scutes and the cavity volume between the EPS heat preservation straight board, can replace the right-angle post module of current product, and the product practicality is strong.

It should be noted that, as is obvious to a person skilled in the art, the invention is not limited to details of the above-described exemplary embodiments, but can be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein, and any reference signs in the claims are not intended to be construed as limiting the claim concerned.

The utility model discloses a concrete example is applied to explain the principle and the implementation mode of the utility model, and the explanation of the above example is only used to help understand the method and the core idea of the utility model; meanwhile, for the general technical personnel in the field, according to the idea of the present invention, there are changes in the concrete implementation and the application scope. In summary, the content of the present specification should not be construed as a limitation of the present invention.

Claims (9)

1. The utility model provides an embedded part T type EPS cavity module which characterized in that: the heat-preservation corner plate comprises a first EPS heat-preservation corner plate, a second EPS heat-preservation corner plate and an EPS heat-preservation straight plate, wherein the first EPS heat-preservation corner plate and the second EPS heat-preservation corner plate are arranged oppositely, and the EPS heat-preservation straight plate is arranged below the first EPS heat-preservation corner plate and the second EPS heat-preservation corner plate; the first EPS heat-preservation angle plate and the second EPS heat-preservation angle plate as well as the EPS heat-preservation straight plate and each EPS heat-preservation angle plate are respectively connected through more than two polymer injection molding connecting pieces to form a T-shaped cavity module, and a cavity is formed between every two adjacent polymer injection molding connecting pieces; a plurality of dovetail grooves are arranged on the two side surfaces of the EPS heat-preservation straight plate and each EPS heat-preservation angle plate; the heat-insulation straight EPS boards and the top ends and the bottom ends of all the heat-insulation corner boards are respectively provided with a plug-in convex rabbet and a plug-in concave rabbet which are used for being plugged with another EPS heat-insulation board, and the two ends of the heat-insulation straight EPS boards and the two ends of all the heat-insulation corner boards are respectively provided with a rectangular plug-in convex rabbet and a rectangular plug-in concave rabbet.

2. The embedment T-shaped EPS cavity module of claim 1, wherein: the polymer injection molding connecting piece is a polypropylene injection molding connecting piece.

3. The embedment T-shaped EPS cavity module of claim 1, wherein: the polymer injection molding connecting piece is a Z-shaped hollowed-out connecting piece, and the Z-shaped hollowed-out connecting piece is connected with the EPS heat-insulation angle plate and/or the EPS heat-insulation straight plate through two side edges.

4. The embedment T-shaped EPS cavity module of claim 1, wherein: the first EPS heat preservation scute with form between the second EPS heat preservation scute the vertical passageway of T type cavity module, EPS heat preservation straight board and two form the horizontal passageway of T type cavity module between the EPS heat preservation scute, the polymer is moulded plastics the connecting piece and is in horizontal passageway with interval parallel distribution in the vertical passageway.

5. The embedment T-shaped EPS cavity module of claim 1, wherein: the inserting convex rabbet and the inserting concave rabbet are arranged at the same end of the EPS heat-preservation straight plate and the two EPS heat-preservation angle plates.

6. The embedment T-shaped EPS cavity module of claim 1, wherein: the rectangular inserting convex rabbet and the rectangular inserting concave rabbet are arranged at six end points of the T-shaped cavity module in a crossed mode at intervals.

7. The embedment T-shaped EPS cavity module of claim 1, wherein: the small-mouth end of the dovetail groove is positioned on the outer side, and the large-mouth end of the dovetail groove is positioned on the inner side.

8. The embedment T-shaped EPS cavity module of claim 1 or 4, wherein: and the outer sides of the corner parts of the first EPS heat-preservation corner plate and the second EPS heat-preservation corner plate are respectively provided with an inclined plane.

9. The embedment T-shaped EPS cavity module of claim 1, wherein: the inserting convex rabbet and the inserting concave rabbet are distributed with a plurality of rectangular limiting grooves.

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