CN219508881U - Anti-collision device for anti-collision joint of building - Google Patents

Abstract

The utility model discloses a house building anti-collision device, which comprises a buffer mechanism positioned between a first wall body and a second wall body, wherein the buffer mechanism comprises a first buffer block, a second buffer block, a first connecting steel rod, a second connecting steel rod and a plurality of springs, and one end of the first buffer block is fixed on the first wall body; the first buffer block is provided with a first translation hole; one end of the second buffer block is fixed on the second wall body, and the second buffer block and the first buffer block are distributed in parallel; the second buffer block is provided with a second translation hole; the first connecting steel rod penetrates through the first translation hole and is fixedly connected with one end, close to the first wall, of the second buffer block; the second connecting steel rods penetrate through the second translation holes, are distributed in parallel with the first connecting steel rods, and are fixedly connected with one end, close to the second wall, of the first buffer block; the springs are respectively fixed between the first connecting steel rod and the second connecting steel rod. The utility model has simple structure and convenient construction, and can reduce the construction cost.

Description

Anti-collision device for anti-collision joint of building

Technical Field

The utility model relates to the technical field of building shockproof, in particular to a shockproof joint anti-collision device for a building.

Background

The anti-vibration seam is used to divide the house into a plurality of independent parts with simple shape and uniform structural rigidity when the house is designed in the earthquake area in order to prevent the house from being damaged by earthquake. Gaps are preset to mitigate or prevent collisions of adjacent structural units caused by seismic action. However, in some cases, even if the anti-collision joints are designed, collision between walls can occur, and anti-collision devices with the anti-collision joints are adopted in most areas.

In the prior art, the buffering is realized by arranging the components such as a piston, a push rod, an adjusting wheel, a control rod, a movable plate, a spring, a push rod, a push block, a squeeze plate, a limiting plate, a buffering air bag and the like, however, the shock-proof joint anti-collision device has a plurality of structural components, is complex in structure and complex in construction, and greatly increases the construction cost.

Therefore, the problem to be solved by the person skilled in the art is to provide a house building anti-collision device with simple structure.

Disclosure of Invention

In view of the above, the utility model provides a house building anti-collision device with a shock-proof joint, which has the advantages of simple structure, convenient construction and capability of reducing construction cost.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

the utility model provides a house building seam anticollision device that takes precautions against earthquakes, includes first wall body, second wall body and is located first wall body with buffer gear between the second wall body, buffer gear includes:

one end of the first buffer block is fixed on the first wall body; the first buffer block is provided with first translation holes which are transversely distributed;

one end of the second buffer block is fixed on the second wall body, and the second buffer block and the first buffer block are distributed in parallel; the second buffer block is provided with second translation holes which are transversely distributed, and the second translation holes and the first translation holes are positioned on the same horizontal line;

the first connecting steel rod penetrates through the first translation hole and is fixedly connected with one end, close to the first wall, of the second buffer block;

the second connecting steel rods penetrate through the second translation holes, are distributed in parallel with the first connecting steel rods, and are fixedly connected with one end, close to the second wall, of the first buffer block;

the springs are symmetrically fixed between the first connecting steel rod and the second connecting steel rod respectively.

By adopting the scheme, the utility model has the beneficial effects that:

when first wall body and second wall body rock, first buffer block and second buffer block are corresponding take place to remove to drive first connection steel pole at first translation downthehole translation, the second is connected the steel pole and is translated in the second translation downthehole translation, and be provided with a plurality of springs between first connection steel pole and second connection steel pole, the spring receives tractive force or is compressive force, has played the cushioning effect promptly, thereby has reduced structural component, and convenient for construction can reduce construction cost.

Further, the first bumper includes a first connecting steel block and a first connecting steel plate, the first translation Kong Kaishe being on the first connecting steel block; the first connecting steel block is connected with the first connecting steel plate with one end vertically distributed as a whole; two ends of the first connecting steel plate are mounted on the side wall of the first wall body through high-strength bolts;

the second buffer block comprises a second connecting steel block and a second connecting steel plate, and the second translation Kong Kaishe is on the second connecting steel block; the second connecting steel block is connected with the second connecting steel plate with one end vertically distributed as a whole; the second connecting steel blocks and the first connecting steel blocks are distributed in parallel; and two ends of the second connecting steel plate are mounted on the side wall of the second wall body through high-strength bolts.

Further, the first connecting steel rod comprises a first rod body and two first limiting blocks, and the first rod body is connected with the two first limiting blocks at two ends of the first rod body into a whole; the size of the first limiting block is larger than that of the first translation hole;

the second connecting steel rod comprises a second rod body and two second limiting blocks, and the second rod body is connected with the two second limiting blocks at two ends of the second rod body into a whole; the size of the second limiting block is larger than that of the second translation hole.

The beneficial effect that adopts the further technical scheme to produce is, prevents when taking place to rock, and first body of rod breaks away from in the first translation hole and the second body of rod breaks away from in the second translation hole.

Further, the number of the springs is four, the springs are symmetrically distributed in pairs, two springs are located between the first rod body and the second rod body on the outer side of the first connecting steel block, and the other two springs are located between the first rod body and the second rod body on the outer side of the second connecting steel block.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings that are required to be used in the embodiments or the description of the prior art will be briefly described below, and it is obvious that the drawings in the following description are only embodiments of the present utility model, and that other drawings can be obtained according to the provided drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of the whole structure of a building anti-collision device for a building anti-collision seam;

FIG. 2 is a top view of a building anti-collision device provided by the utility model;

FIG. 3 is a schematic diagram of a first buffer block according to the present utility model;

fig. 4 is a schematic structural view of a first connecting steel rod according to the present utility model.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled 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.

As shown in fig. 1-4, the embodiment of the utility model discloses a building anti-collision device, which comprises a first wall body 1, a second wall body 2 and a buffer mechanism positioned between the first wall body 1 and the second wall body 2, wherein the buffer mechanism comprises a first buffer block 3, a second buffer block 4, a first connecting steel rod 5, a second connecting steel rod 6 and a plurality of springs 7, and one end of the first buffer block 3 is fixed on the first wall body 1; the first buffer block 3 is provided with first translation holes 31 which are transversely distributed; one end of the second buffer block 4 is fixed on the second wall body 2, and the second buffer block 4 and the first buffer block 3 are distributed in parallel; the second buffer block 4 is provided with second translation holes 41 which are transversely distributed, and the second translation holes 41 and the first translation holes 31 are positioned on the same horizontal line; the first connecting steel rod 5 penetrates through the first translation hole 31 and is fixedly connected with one end, close to the first wall body 1, of the second buffer block 4; the second connecting steel rods 6 penetrate through the second translation holes 41, are distributed in parallel with the first connecting steel rods 5, and are fixedly connected with one end of the first buffer block 3, which is close to the second wall body 2; the springs 7 are symmetrically fixed between the first connecting steel rod 5 and the second connecting steel rod 6, respectively. According to the utility model, when the first wall body 1 and the second wall body 2 shake, the first buffer block 3 and the second buffer block 4 correspondingly move, so that the first connecting steel rod 5 is driven to translate in the first translation hole 31, the second connecting steel rod 6 translates in the second translation hole 41, and a plurality of springs 7 are arranged between the first connecting steel rod 5 and the second connecting steel rod 6, and the springs 7 are subjected to traction force or compression force, so that the buffer effect is realized, thereby reducing structural components, facilitating construction and reducing construction cost.

Specifically, the first buffer block 3 includes a first connection steel block 32 and a first connection steel plate 33, and the first translation hole 31 is formed on the first connection steel block 32; the first connecting steel block 32 is integrally connected with a first connecting steel plate 33 having one end vertically distributed; two ends of the first connection steel plate 33 are mounted on the side wall of the first wall body 1 through high-strength bolts;

the second buffer block 4 comprises a second connecting steel block and a second connecting steel plate, and a second translation hole 41 is formed in the second connecting steel block; the second connecting steel block is connected with a second connecting steel plate with one end vertically distributed into a whole; the second connecting steel blocks are distributed in parallel with the first connecting steel blocks; two ends of the second connecting steel plate are mounted on the side wall of the second wall body 2 through high-strength bolts.

Specifically, the first connecting steel rod 5 includes a first rod body 51 and two first limiting blocks 52, and the first rod body 51 is connected with the two first limiting blocks 52 at two ends of the first rod body into a whole; the size of the first limiting block 52 is larger than that of the first translation hole 31;

the second connecting steel rod 6 comprises a second rod body and two second limiting blocks, and the second rod body is connected with the two second limiting blocks at two ends of the second rod body into a whole; the second stopper has a size larger than the size of the second translation hole 41.

Specifically, the number of the springs 7 is four, and the springs 7 are symmetrically distributed in pairs, wherein two springs 7 are located between the first rod body 51 and the second rod body outside the first connecting steel block 32, and the other two springs 7 are located between the first rod body 51 and the second rod body outside the second connecting steel block.

In the present specification, each embodiment is described in a progressive manner, and each embodiment is mainly described in a different point from other embodiments, and identical and similar parts between the embodiments are all enough to refer to each other. For the device disclosed in the embodiment, since it corresponds to the method disclosed in the embodiment, the description is relatively simple, and the relevant points refer to the description of the method section.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present utility model. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the utility model. Thus, the present utility model is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (4)

1. The utility model provides a house building crack anticollision device that takes precautions against earthquakes, includes first wall body, second wall body and is located first wall body with buffer gear between the second wall body, its characterized in that, buffer gear includes:

one end of the first buffer block is fixed on the first wall body; the first buffer block is provided with first translation holes which are transversely distributed;

one end of the second buffer block is fixed on the second wall body, and the second buffer block and the first buffer block are distributed in parallel; the second buffer block is provided with second translation holes which are transversely distributed, and the second translation holes and the first translation holes are positioned on the same horizontal line;

the first connecting steel rod penetrates through the first translation hole and is fixedly connected with one end, close to the first wall, of the second buffer block;

the second connecting steel rods penetrate through the second translation holes, are distributed in parallel with the first connecting steel rods, and are fixedly connected with one end, close to the second wall, of the first buffer block;

the springs are symmetrically fixed between the first connecting steel rod and the second connecting steel rod respectively.

2. The building anti-vibration slit collision device of claim 1, wherein the first bumper block comprises a first connecting steel block and a first connecting steel plate, the first translation Kong Kaishe being on the first connecting steel block; the first connecting steel block is connected with the first connecting steel plate with one end vertically distributed as a whole; two ends of the first connecting steel plate are mounted on the side wall of the first wall body through high-strength bolts;

the second buffer block comprises a second connecting steel block and a second connecting steel plate, and the second translation Kong Kaishe is on the second connecting steel block; the second connecting steel block is connected with the second connecting steel plate with one end vertically distributed as a whole; the second connecting steel blocks and the first connecting steel blocks are distributed in parallel; and two ends of the second connecting steel plate are mounted on the side wall of the second wall body through high-strength bolts.

3. The anti-collision device for the building construction anti-collision seam according to claim 2, wherein the first connecting steel rod comprises a first rod body and two first limiting blocks, and the first rod body is connected with the two first limiting blocks at two ends of the first rod body into a whole; the size of the first limiting block is larger than that of the first translation hole;

the second connecting steel rod comprises a second rod body and two second limiting blocks, and the second rod body is connected with the two second limiting blocks at two ends of the second rod body into a whole; the size of the second limiting block is larger than that of the second translation hole.

4. A housing construction vibration-proof joint collision-preventing apparatus according to claim 3, wherein the number of the springs is four, and the springs are symmetrically distributed in pairs, wherein two of the springs are located between the first rod body and the second rod body outside the first connecting steel block, and the other two of the springs are located between the first rod body and the second rod body outside the second connecting steel block.