CN220908744U

CN220908744U - Tian Lumbricus bone subassembly

Info

Publication number: CN220908744U
Application number: CN202322509249.2U
Authority: CN
Inventors: 周梁; 戴耀文; 王倩文; 方小丹
Original assignee: Beijing Lyucheng Yizhu Technology Co ltd
Current assignee: Beijing Lyucheng Yizhu Technology Co ltd
Priority date: 2023-09-15
Filing date: 2023-09-15
Publication date: 2024-05-07
Anticipated expiration: 2033-09-15

Abstract

The utility model relates to the technical field of heat-insulating wall fixing pieces and discloses a Tian Lumbricus bone component which comprises a Tian keel and two symmetrically arranged ground keels, wherein the Tian keel comprises a body, side wings are arranged on two sides of the body, each Lumbricus bone comprises a corner body, one side of the corner body is provided with a side wing, and the side wings are provided with meshes. The beneficial effects of the utility model are as follows: when in use, the earthworm bone is positioned at the bottom of the heat-preserving wall body and used as a bottom supporting piece, the corner body is clamped with two side sides of the heat-preserving wall body, the ceiling bone is buckled at the upper part of the heat-preserving wall body, and the side wings are used for buckling four corners of the heat-preserving wall body. Through setting up the fastener, can connect two earthworm bones that are in heat preservation wall body both sides, improved the tightness between two earthworm bones. The connection firmness between the ceiling joist and the two earthworm bones can be improved by arranging the tensioning piece, and the connection tightness among the ceiling joist, the heat-insulating wall body and the earthworm bones is improved.

Description

Tian Lumbricus bone subassembly

Technical Field

The utility model relates to the technical field of heat-insulating wall fixing pieces, in particular to a ceiling earthworm bone component.

Background

With the continuous development of the building industry, especially in building construction, the technology which is mature at present comprises an assembled building and the like, and after the construction of a main body frame is completed, a self-heat-preservation wall body is basically formed by adopting a mode of adding a heat-preservation plate on an outer wall.

Especially in the aspect of non-bearing wall body, belongs to the surplus engineering after the main body frame is built, and is mostly perfected by filling hollow bricks and the like at present, and then the outer wall surface is coated.

According to the assembled heat-insulating wall body studied in the earlier stage of the unit, the ground keels are required to be fixed during assembly, and the ceiling keels are fixed after the assembly is completed.

The inventors found that the following problems exist: the space keel and the earthworm bone are two independent components, and the lack of a connecting fastening component leads to poor integrity.

Disclosure of utility model

The application provides a heaven and earth keel assembly which can be well matched with a heat-insulating wall body, two earth keels can be fastened, and the heaven and earth keels and the earth keels can be tensioned through tensioning pieces, so that the integrity of the heaven and earth keels and the heat-insulating wall body is improved.

Therefore, the application provides a Tian Lumbricus bone component, which adopts the following technical scheme:

The utility model provides a day earthworm bone subassembly, includes the ground fossil fragments that a day fossil fragments and two symmetries set up, the day fossil fragments include the body, the both sides of body are equipped with the flank, every earthworm bone include the angle body, one side of angle body is equipped with the flank, be equipped with the mesh on the flank.

By adopting the technical scheme: when in use, the earthworm bone is positioned at the bottom of the heat-preserving wall body and used as a bottom supporting piece, the corner body is clamped with two side sides of the heat-preserving wall body, the ceiling bone is buckled at the upper part of the heat-preserving wall body, and the side wings are used for buckling four corners of the heat-preserving wall body.

Optionally, the side wings of the ceiling joist and the two symmetrically arranged ground joists are on opposite sides.

By adopting the technical scheme: the clamping device is used for clamping four corners of the heat-preserving wall body to form surrounding supports of the four corners of the heat-preserving wall body.

Optionally, the body of the ceiling joist is provided with a reinforcing connection part.

By adopting the technical scheme: the connection firmness and the position consistency of the top of the heat preservation wall body can be enhanced by arranging the reinforced connecting part, and the integrity is improved.

Optionally, the reinforcing connection part includes a fastening protrusion disposed on the body, and the fastening protrusion and the side wing are located on the same side of the body.

By adopting the technical scheme: the upper surface of the heat preservation wall body is provided with a groove, and when the heat preservation wall body is assembled, the buckling protrusions are buckled in the groove.

Optionally, the reinforced connection part further comprises a buckling groove arranged on the body, and the buckling groove and the side wing are located on the opposite side of the body.

By adopting the technical scheme: in contrast to the above, the top of the heat-insulating wall body is provided with the convex blocks, and when the heat-insulating wall body is assembled, the convex blocks are inserted into the buckling grooves, so that the overall consistency is improved.

Optionally, a fastener is arranged between the two earthworm bones.

By adopting the technical scheme: through setting up the fastener, can connect two earthworm bones that are in heat preservation wall body both sides, improved the tightness between two earthworm bones.

Optionally, the fastener includes the connecting rod of wearing to establish in the mesh, the one end of connecting rod is equipped with joint portion, and the other end threaded connection has the nut.

By adopting the technical scheme: when the assembly is completed, the two earthworm bones can be continuously tightened by screwing the nuts, so that better clamping and supporting effects can be formed on the heat-insulating wall body.

Optionally, a tensioning piece is arranged between the side wings of the ceiling joist and the two symmetrically arranged ground joists.

By adopting the technical scheme: the connection firmness between the ceiling joist and the two earthworm bones can be improved by arranging the tensioning piece, and the connection tightness among the ceiling joist, the heat-insulating wall body and the earthworm bones is improved.

Optionally, the tensioning piece includes the mobile jib, the both ends of mobile jib all are connected with the elastic component, the other end of elastic component is connected to the portion of hanging.

By adopting the technical scheme: the two ends of the main rod are provided with elastic pieces, the elastic pieces are provided with hanging parts, when in use, the hanging parts at the upper end can be hung in the meshes of the ceiling joist, and the hanging parts at the other end can be hung in the meshes of the earthworm joist through tension equipment

Optionally, the elastic element is a spring, and the hooking part is a hook.

By adopting the technical scheme: the type at the spring can be selected according to actual conditions, wherein the outside of heat preservation wall body is equipped with the inner panel recess, and the spring can be in the inner panel recess inside.

The working principle and the beneficial effects of the application are as follows:

1. When in use, the earthworm bone is positioned at the bottom of the heat-preserving wall body and used as a bottom supporting piece, the corner body is clamped with two side sides of the heat-preserving wall body, the ceiling bone is buckled at the upper part of the heat-preserving wall body, and the side wings are used for buckling four corners of the heat-preserving wall body.

2. Through setting up the fastener, can connect two earthworm bones that are in heat preservation wall body both sides, improved the tightness between two earthworm bones.

3. The connection firmness between the ceiling joist and the two earthworm bones can be improved by arranging the tensioning piece, and the connection tightness among the ceiling joist, the heat-insulating wall body and the earthworm bones is improved.

Drawings

The application will be described in further detail with reference to the drawings and the detailed description.

Fig. 1 is a schematic view of a heaven and earth keel structure according to example 1 of the present application;

Fig. 2 is a schematic view of an improved structure of the ceiling grid according to embodiment 1 of the present application;

FIG. 3 is a schematic overall side structure of embodiment 1 of the present application;

fig. 4 is a schematic view of the ceiling grid structure of embodiment 2 of the present application.

In the figure: 100. a ceiling keel; 110. a body; 200. a ground keel; 210. a horn; 300. a side wing; 310. a mesh; 400. reinforcing the connection portion; 410. a buckling bulge; 420. a buckling groove; 500. a fastener; 510. a connecting rod; 520. a clamping part; 530. a nut; 600. a tension member; 610. a main rod; 620. an elastic member; 630. and a hanging part.

Detailed Description

The technical solutions of the embodiments of the present utility model will be clearly and completely described below in conjunction with the embodiments of the present utility model, and it is apparent that the described embodiments are only some embodiments of the present utility model, not all embodiments. All other embodiments, which can be made by one of ordinary skill in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Example 1

Referring to fig. 1-3, an embodiment of the present application provides a space keel assembly, which includes a space keel 100 and two symmetrically arranged ground keels 200, wherein the space keel 100 includes a body 110, two sides of the body 110 are provided with side wings 300, each of the earthworm bones 200 includes a corner 210, one side of the corner 210 is provided with a side wing 300, the side wings 300 are provided with meshes 310, the meshes 310 in the embodiment are in an oval runway shape, and the space keel 100 and the ground keels 200 can be integrally bent and formed by adopting hole plates, so that the processing efficiency can be provided.

The basic principle of this embodiment is: when in use, the ground keel 200 is positioned at the bottom of the heat-insulating wall body and used as a bottom supporting piece, the corner body 210 is clamped with two side sides of the heat-insulating wall body, the ceiling keel 100 is buckled at the upper part of the heat-insulating wall body, and the side wings 300 are used for buckling four corners of the heat-insulating wall body.

Of course, in use, the side wings 300 of the ceiling joist 100 and the two symmetrically arranged ground joists 200 are positioned on opposite sides and are used for being clamped with the four corners of the thermal insulation wall to form surrounding supports for the four corners of the thermal insulation wall.

Referring to fig. 2, in order to make the connection of the ceiling grid 100 to the insulation wall more firm, the body 110 of the ceiling grid 100 is provided with a reinforcing connection 400. The connection firmness and the position consistency of the top of the heat preservation wall body can be enhanced by arranging the reinforced connecting part 400, and the integrity is improved.

Referring to fig. 2, in particular, the reinforcing connection 400 includes a snap protrusion 410 provided on the body 110, the snap protrusion 410 being on the same side of the body 110 as the side wing 300. The upper surface of the thermal insulation wall body is provided with a groove, and when the thermal insulation wall body is assembled, the buckling protrusions 410 are buckled in the groove.

The following may also be set: the reinforcing connection part 400 further includes a fastening groove 420 disposed on the body 110, and the fastening groove 420 and the side wing 300 are located at opposite sides of the body 110. In contrast to the above, the top of the thermal insulation wall is provided with the protruding block, and when the thermal insulation wall is assembled, the protruding block is inserted into the buckling groove 420, so that the overall consistency is improved.

Of course, the engaging protrusion 410 and the engaging groove 420 may be provided on the body 110 at the same time.

Referring to fig. 3, in order to improve the integrity of the two ground keels 200, a fastener 500 is provided between the two ground keels 200. Through setting up fastener 500, can connect two ground keels 200 that are in heat preservation wall body both sides, improved the tightness between two earthworm bones 200.

In particular. The fastener 500 includes a connection rod 510 penetrating into the mesh 310, one end of the connection rod 510 is provided with a clamping portion 520, and the other end is connected with a nut 530 by screw. When the assembly is completed, the two ground runners 200 can be continuously tightened by tightening the nuts 530 so that a better clamping and supporting action can be formed on the insulation wall.

Referring to fig. 3, in order to enhance the overall row, a tension member 600 is provided between the ceiling grid 100 and the flanks 300 of the two symmetrically disposed floor grids 200. The fastening piece 600 can improve the connection firmness between the ceiling joist 100 and the two earthworm bones 200 and the connection tightness among the ceiling joist 100, the heat-insulating wall body and the earthworm bones 200.

Specifically, the tension member 600 includes a main lever 610, two ends of the main lever 610 are connected to an elastic member 620, and the other end of the elastic member 620 is connected to a hanging portion 630. The elastic members 620 are disposed at two ends of the main rod 610, the hanging parts 630 are disposed on the elastic members 620, when in use, the hanging parts 630 at the upper end can be hung in the mesh holes 310 of the ceiling joist 100, and the hanging parts 630 at the other end can be hung in the mesh holes 310 of the earthworm bone 200 by tension equipment

Alternatively, the elastic member 620 is a spring, and the hooking portion 630 is a hook. The type at the spring can be selected according to actual conditions, wherein the outside of heat preservation wall body is equipped with the inner panel recess, and the spring can be in the inner panel recess inside.

Example 2

Referring to fig. 4, the present embodiment is different from embodiment 1 in that the mesh holes 310 are triangular in shape and staggered up and down.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, alternatives, and improvements that fall within the spirit and scope of the utility model.

Claims

1. The utility model provides a day earthworm bone subassembly, its characterized in that, including day fossil fragments (100) and two symmetrical ground fossil fragments (200) that set up, day fossil fragments (100) include body (110), the both sides of body (110) are equipped with flank (300), every ground fossil fragments (200) include angle body (210), one side of angle body (210) is equipped with flank (300), be equipped with mesh (310) on flank (300).

2. The space-earthworm bone assembly as claimed in claim 1, wherein the space-keel (100) and the flanks (300) of two symmetrically arranged ground-keels (200) are on opposite sides.

3. The bone assembly of claim 1, wherein the body (110) of the keel (100) is provided with a reinforcing connection (400).

4. A space-saving bone assembly according to claim 3, wherein the reinforcing connection (400) comprises a snap-fit protrusion (410) provided on the body (110), the snap-fit protrusion (410) being on the same side of the body (110) as the side wings (300).

5. The bone assembly of claim 4, wherein the reinforcing connection (400) further comprises a snap groove (420) disposed on the body (110), the snap groove (420) being on a different side of the body (110) than the wing (300).

6. A space-earthworm-bone assembly as in any one of claims 1-5, wherein a fastener (500) is provided between two of said earthworm bones (200).

7. The bone assembly of claim 6, wherein the fastener (500) includes a connecting rod (510) penetrating through the mesh (310), one end of the connecting rod (510) is provided with a clamping portion (520), and the other end is screwed with a nut (530).

8. The bone assembly of claim 7, wherein tension members (600) are provided between the bone (100) and the wings (300) of the two symmetrically disposed ground keels (200).

9. The bone assembly of claim 8, wherein the tension member (600) comprises a main rod (610), wherein both ends of the main rod (610) are connected with elastic members (620), and the other ends of the elastic members (620) are connected with a hanging portion (630).

10. The bone assembly of claim 9, wherein the elastic member (620) is a spring and the hooking portion (630) is a hook.