CN213745261U - Novel anti-seismic support - Google Patents

Abstract

The utility model discloses a novel antidetonation support, last staple bolt and lower staple bolt including relative setting, go up the staple bolt and form the region of centre gripping pipeline down between the staple bolt, the both ends of going up staple bolt and lower staple bolt are connected through first elastic connection spare, the bottom of staple bolt is connected with the connecting plate down, the both ends of connecting plate all articulate there is the antidetonation bracing piece, the other end of antidetonation bracing piece articulates there is the mounting bracket, the antidetonation bracing piece includes telescopic link and antidetonation pole, the lower extreme of telescopic link is articulated with the connecting plate, the upper end of telescopic link is provided with T type pole, the lower extreme lower surface of antidetonation pole is provided with and supplies the gliding slip chamber of T type pole, T type pole stretches into the slip intracavity, the surface cover of T type pole is equipped with first damping spring, the upper end of antidetonation pole articulates there is the mounting bracket. The utility model discloses simple structure, anti-seismic performance is high, and the consumed material is few, and economic nature is good, and the commonality is strong, simple to operate can effectively improve the installation effectiveness when the installation.

Description

Novel anti-seismic support

Technical Field

The utility model relates to an antidetonation technical field, specific theory relates to a novel antidetonation support.

Background

In the existing engineering construction process, pipelines are often required to be laid for conveying tap water, fire water, natural gas and the like. If these pipelines are directly fixed on the wall, when an earthquake occurs, the pipelines often fall easily, so that safety accidents are caused, and therefore, the support for fixing the pipelines needs to have better shock resistance.

The existing anti-seismic support needs to be fixed on a wall body firstly, and then a pipeline is fixed on the support, but the existing anti-seismic support has the following defects: 1. the structure is complex, the installation is troublesome, and the installation work efficiency is reduced; 2. the difficulty in fixing the pipeline and the bracket is increased due to machining errors of the bracket or unevenness of the wall surface; 3. the anti-seismic performance is not good, potential safety hazards exist, and safety accidents are easily caused.

The above disadvantages need to be improved.

Disclosure of Invention

In order to overcome the deficiencies of the prior art, the utility model provides a novel antidetonation support.

The utility model discloses technical scheme as follows:

a novel anti-seismic support comprises an upper hoop and a lower hoop which are oppositely arranged, a pipeline clamping area is formed between the upper hoop and the lower hoop, the two ends of the upper hoop and the lower hoop are connected through a first elastic connecting piece, the bottom of the lower hoop is connected with a connecting plate, the two ends of the connecting plate are hinged with anti-seismic support rods, the other ends of the anti-seismic support rods are hinged with a mounting frame,

the antidetonation bracing piece includes telescopic link and antidetonation pole, the lower extreme of telescopic link with the connecting plate is articulated, the upper end of telescopic link is provided with T type pole, the lower extreme lower surface of antidetonation pole is provided with the confession the gliding slip chamber of T type pole, T type pole stretches into in the slip chamber, the surface cover of T type pole is equipped with first damping spring, the upper end of antidetonation pole articulates there is the mounting bracket.

According to above scheme the utility model discloses, first elastic connection spare includes first bolt, first nut and second damping spring, the both ends of going up the staple bolt all are provided with the confession the first perforation that first bolt passed, the both ends of staple bolt all are provided with the confession down the second that first bolt passed is perforated, second damping spring sets up first perforation with between the second perforation, first bolt passes in proper order first perforation second damping spring reaches the second is perforated, and passes through first nut will go up the staple bolt with the staple bolt links together down.

According to the above scheme the utility model discloses, the bottom of staple bolt is provided with the buffer board down, the staple bolt passes through down the buffer board with the connecting plate is connected.

Furthermore, the buffer plate is connected with the connecting plate through a second elastic connecting piece.

Furthermore, second elastic connecting piece includes second bolt, second nut and third damping spring, the both ends of buffer board all are provided with the confession the third that the second bolt passed is perforated, the both ends of connecting plate all are provided with the confession the fourth that the second bolt passed is perforated, third damping spring sets up the third perforates with between the fourth perforation, the second bolt passes in proper order the third perforates third damping spring reaches the fourth is perforated, and passes through the second nut will the buffer board with the connecting plate links together.

Furthermore, a buffer device is arranged between the buffer plate and the connecting plate.

According to the above scheme the utility model discloses, the medial surface of going up the staple bolt is provided with first protection pad, the medial surface of staple bolt is provided with the second protection pad down.

Furthermore, the first protection pad and the second protection pad are elastic pads.

According to above-mentioned scheme the utility model discloses, be provided with a plurality of mounting holes on the mounting bracket.

According to the utility model with the above scheme, the lower end of the telescopic rod is provided with the first articulated element, the two ends of the connecting plate are both provided with the second articulated elements, and the first articulated element and the second articulated element are articulated into a whole through the first articulated bolt;

the upper end of antidetonation pole is provided with the third articulated piece, the bottom of mounting bracket is provided with the fourth articulated piece, the third articulated piece with the fourth articulated piece passes through the articulated bolt of second and articulates as an organic whole.

According to the above scheme the utility model discloses, the beneficial effects of the utility model reside in that:

1. the utility model has simple structure, high anti-seismic performance, less material consumption, good economical efficiency, strong universality and convenient installation, and can effectively improve the installation efficiency when being installed;

2. the utility model can realize the expansion function of the anti-seismic support rod through the expansion rod, so that the anti-seismic support has higher universality and is suitable for various installation environments;

3. the utility model realizes the connection of the telescopic rod and the anti-seismic rod through the T-shaped rod, the first damping spring and the sliding cavity on the anti-seismic rod, when an earthquake occurs, the building can generate larger tremble, the T-shaped rod can compress the first damping spring, and the vibration received by the pipeline is slowed down through the elasticity of the first damping spring, thereby playing a role of damping on the pipeline and prolonging the service life of the pipeline;

4. the utility model realizes the connection of the upper hoop and the lower hoop through the first bolt, the first nut and the second damping spring, when earthquake happens, the building can generate larger tremble, the upper hoop and the lower hoop can compress the second damping spring, and the vibration received by the pipeline is slowed down through the elasticity of the second damping spring, thereby playing a damping role on the pipeline and prolonging the service life of the pipeline;

5. the utility model connects the buffer board and the connecting board together through the second elastic connecting piece, so that a certain anti-seismic performance is provided between the buffer board and the connecting board, when an earthquake occurs, the building can generate a large tremble, the buffer board and the connecting board can compress the third damping spring, and the shock received by the pipeline is slowed down through the elasticity of the third damping spring, thereby playing a damping role on the pipeline and prolonging the service life of the pipeline;

6. the utility model discloses a too big and damage pipeline of clamp force can be avoided to first protection pad and second protection pad, also can prevent simultaneously that the pipeline from rocking.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present invention;

fig. 2 is a schematic structural diagram of another embodiment of the present invention.

In the figures, the reference numerals are as follows:

1. an anchor ear is arranged; 11. a first protection pad;

2. a lower hoop; 21. a second protection pad;

3. a first elastic connecting member; 31. a first bolt; 32. a first nut; 33. a second damping spring;

4. a connecting plate; 41. a second hinge member; 42. a first hinge bolt;

5. an anti-seismic support rod; 51. a telescopic rod; 52. an anti-seismic rod; 511. a T-shaped rod; 512. a first damping spring; 513. a first hinge member; 521. a sliding cavity; 522. a third hinge member;

6. a mounting frame; 61. a fourth hinge member; 62. a second hinge bolt;

7. a buffer plate;

8. a second elastic connecting piece; 81. a second bolt; 82. a second nut; 83. a third damping spring;

9. a buffer device.

Detailed Description

In order to make the technical problem, technical solution and advantageous effects to be solved by the present invention more clearly understood, the following description is given in conjunction with the accompanying drawings and embodiments to illustrate the present invention in further detail.

It will be understood that when an element is referred to as being "secured to" or "disposed on" or "mounted on" another element, it can be directly or indirectly on the other element. When an element is referred to as being "connected to" another element, it can be directly or indirectly connected to the other element. The terms "upper", "lower", "bottom", "inner", and the like indicate orientations or positions based on the orientations or positions shown in the drawings, and are only for convenience of description and not to be construed as limiting the technical solution. The terms "first", "second", "third" and "fourth" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implying any number of technical features. "plurality" means two or more unless specifically limited otherwise.

Please refer to fig. 1, an embodiment of the present invention provides a novel anti-seismic support, which includes an upper hoop 1 and a lower hoop 2, which are relatively arranged, wherein an area for forming a clamping pipeline (not shown in the figure, the same below) is formed between the upper hoop 1 and the lower hoop 2, two ends of the upper hoop 1 and the lower hoop 2 are connected through a first elastic connector 3, the bottom of the lower hoop 2 is connected with a connecting plate 4, two ends of the connecting plate 4 are all hinged with an anti-seismic support rod 5, and the other end of the anti-seismic support rod 5 is hinged with an installation frame 6. Staple bolt 1 links together with staple bolt 2 down through first elastic connector 3, makes and has certain anti-seismic performance between staple bolt 1 and the staple bolt 2 down, and when the earthquake takes place, great tremor can take place for the building, and first damping spring's elasticity can slow down the vibrations that the pipeline received to play absorbing effect to the pipeline, prolonged the life of pipeline.

Referring to fig. 1, the anti-seismic support rod 5 includes an extension rod 51 and an anti-seismic rod 52, a lower end of the extension rod 51 is hinged to the connection plate 4, a T-shaped rod 511 is disposed at an upper end of the extension rod 51, a sliding cavity 521 for the T-shaped rod 511 to slide is disposed on a lower surface of a lower end of the anti-seismic rod 52, the T-shaped rod 511 extends into the sliding cavity 521, a first damping spring 512 is sleeved on an outer surface of the T-shaped rod 511, and an installation frame 6 is hinged to an upper end of the anti-seismic rod 52. The telescopic function of the anti-seismic support rod 5 can be realized through the telescopic rod 51, so that the universality of the anti-seismic support is higher, and the anti-seismic support is suitable for various installation environments; the telescopic rod 51 is connected with the anti-seismic rod 52 through the T-shaped rod 511, the first damping spring 512 and the sliding cavity 521 on the anti-seismic rod 52, when an earthquake occurs, the building can generate large vibration, the T-shaped rod 511 can compress the first damping spring 512, the vibration of the pipeline is relieved through the elasticity of the first damping spring 512, and therefore the effect of damping the pipeline is achieved, and the service life of the pipeline is prolonged.

Referring to fig. 1, in one embodiment, the first elastic connecting member 3 includes a first bolt 31, a first nut 32 and a second damping spring 33, wherein two ends of the upper hoop 1 are respectively provided with a first through hole (not shown, the same applies below) for the first bolt 31 to pass through, two ends of the lower hoop 2 are respectively provided with a second through hole (not shown, the same applies below) for the first bolt 31 to pass through, the second damping spring 33 is disposed between the first through hole and the second through hole, the first bolt 31 passes through the first through hole, the second damping spring 33 and the second through hole in sequence, and the upper hoop 1 and the lower hoop 2 are connected together through the first nut 32. When taking place the earthquake, great tremor can take place for the building, goes up staple bolt 1 and lower staple bolt 2 and can compress second damping spring 33, slows down the vibrations that the pipeline received through second damping spring 33's elasticity to play absorbing effect, prolonged the life of pipeline to the pipeline.

Referring to fig. 2, in one embodiment, a buffer plate 7 is disposed at the bottom of the lower anchor ear 2, the lower anchor ear 2 is connected to the connecting plate 4 through the buffer plate 7, and the buffer plate is connected to the connecting plate 4 through a second elastic connecting member 8. The second elastic connecting member 8 includes a second bolt 81, a second nut 82 and a third damping spring 83, both ends of the buffer plate 7 are provided with third through holes (not shown in the drawings, the same below) for the second bolt 81 to pass through, both ends of the connecting plate 4 are provided with fourth through holes (not shown in the drawings, the same below) for the second bolt 81 to pass through, the third damping spring 83 is arranged between the third through holes and the fourth through holes, the second bolt 81 passes through the third through holes, the third damping spring 83 and the fourth through holes in sequence, and the buffer plate 7 is connected with the connecting plate 4 through the second nut 82. Link together buffer board 7 and connecting plate 4 through second elastic connection spare 8, make and have certain anti-seismic performance between buffer board 7 and the connecting plate 4, when taking place the earthquake, great trembling can take place for the building, and buffer board 7 and connecting plate 4 can compress third damping spring 83, and the vibrations that the pipeline received are slowed down to elasticity through third damping spring 83 to play absorbing effect to the pipeline, prolonged the life of pipeline.

Referring to fig. 2, optionally, a buffer device 9 is further disposed between the buffer plate 7 and the connection plate 4, and the shock to the pipeline during an earthquake can be further alleviated by the buffer device 9. The damping device 9 may be a plurality of damping springs (not shown, the same applies below) for damping the vibration of the pipeline during earthquake.

Referring to fig. 1, in one embodiment, a first protection pad 11 is disposed on an inner side of the upper hoop 1, and a second protection pad 21 is disposed on an inner side of the lower hoop 2, so that the first protection pad 11 and the second protection pad 21 can prevent the pipeline from being damaged due to an excessive clamping force, and can also prevent the pipeline from shaking. Preferably, the first protection pad 11 and the second protection pad 21 are elastic pads.

In one embodiment, the mounting frame 6 is provided with a plurality of mounting holes (not shown, the same applies below), and the anti-seismic support is mounted on the wall through the mounting holes of the mounting frame 6.

Referring to fig. 1, in one embodiment, a first hinge 513 is disposed at a lower end of the telescopic rod 51, second hinges 41 are disposed at two ends of the connecting plate 4, the first hinge 513 and the second hinge 41 are hinged into a whole by a first hinge bolt 42, and a connection angle between the anti-seismic support rod 5 and the connecting plate 4 can be adjusted by the first hinge 513, the second hinge 41 and the first hinge bolt 42, so that the anti-seismic support has higher versatility to adapt to various installation environments;

the upper end of antidetonation pole 52 is provided with third articulated piece 522, and the bottom of mounting bracket 6 is provided with fourth articulated piece 61, and third articulated piece 522 and fourth articulated piece 61 articulate through second articulated bolt 62 and become an organic whole, through the adjustable angle of being connected between shaking bracing piece and the mounting bracket 6 of third articulated piece 522, fourth articulated piece 61 and second articulated bolt 62 for the commonality of antidetonation support is higher, with the various installation environment of adaptation.

The beneficial effects of the utility model reside in that:

1. the utility model has simple structure, high anti-seismic performance, less material consumption, good economical efficiency, strong universality and convenient installation, and can effectively improve the installation efficiency when being installed;

2. the utility model can realize the extension function of the anti-seismic support rod 5 through the extension rod 51, so that the anti-seismic support has higher universality and is suitable for various installation environments;

3. the utility model realizes the connection of the telescopic rod 51 and the anti-seismic rod 52 through the T-shaped rod 511, the first damping spring 512 and the sliding cavity 521 on the anti-seismic rod 52, when an earthquake occurs, the building can generate large trembling, the T-shaped rod 511 can compress the first damping spring 512, and the vibration received by the pipeline is slowed down through the elasticity of the first damping spring 512, so that the pipeline is damped, and the service life of the pipeline is prolonged;

4. the utility model realizes the connection of the upper hoop 1 and the lower hoop 2 through the first bolt 31, the first nut 32 and the second damping spring 33, when earthquake happens, the building can generate larger tremble, the upper hoop 1 and the lower hoop 2 can compress the second damping spring 33, and the elasticity of the second damping spring 33 can reduce the vibration received by the pipeline, thereby playing a role of damping on the pipeline and prolonging the service life of the pipeline;

5. the utility model discloses a second elastic connecting piece 8 links together buffer board 7 and connecting plate 4, makes to have certain anti-seismic performance between buffer board 7 and the connecting plate 4, and when the earthquake takes place, the building can take place great tremble, and buffer board 7 and connecting plate 4 can compress third damping spring 83, slows down the vibrations that the pipeline received through the elasticity of third damping spring 83 to the pipeline has played the absorbing effect, has prolonged the life of pipeline;

6. the utility model discloses a too big and damage pipeline of clamp force can be avoided to first protection pad 11 and second protection pad 21, also can prevent simultaneously that the pipeline from rocking.

It will be understood that modifications and variations can be made by persons skilled in the art in light of the above teachings and all such modifications and variations are considered to be within the scope of the invention as defined by the following claims.

The above exemplary description of the present invention is made in conjunction with the accompanying drawings, and it is obvious that the present invention is not limited by the above manner, and various improvements made by the method concept and technical solution of the present invention or by directly applying the concept and technical solution of the present invention to other occasions without improvement are all within the protection scope of the present invention.

Claims (10)

1. A novel anti-seismic support is characterized by comprising an upper hoop and a lower hoop which are oppositely arranged, wherein a pipeline clamping area is formed between the upper hoop and the lower hoop, the two ends of the upper hoop and the lower hoop are connected through a first elastic connecting piece, the bottom of the lower hoop is connected with a connecting plate, the two ends of the connecting plate are both hinged with anti-seismic support rods, the other ends of the anti-seismic support rods are hinged with a mounting frame,

the antidetonation bracing piece includes telescopic link and antidetonation pole, the lower extreme of telescopic link with the connecting plate is articulated, the upper end of telescopic link is provided with T type pole, the lower extreme lower surface of antidetonation pole is provided with the confession the gliding slip chamber of T type pole, T type pole stretches into in the slip chamber, the surface cover of T type pole is equipped with first damping spring, the upper end of antidetonation pole articulates there is the mounting bracket.

2. A novel anti-seismic support according to claim 1, characterized in that said first elastic connector comprises a first bolt, a first nut and a second damping spring, both ends of said upper hoop are provided with a first through hole for said first bolt to pass through, both ends of said lower hoop are provided with a second through hole for said first bolt to pass through, said second damping spring is disposed between said first through hole and said second through hole, said first bolt passes through said first through hole, said second damping spring and said second through hole in turn, and said upper hoop and said lower hoop are connected together by said first nut.

3. A novel earthquake-proof support according to claim 1, characterized in that the bottom of the lower hoop is provided with a buffer plate, and the lower hoop is connected with the connecting plate through the buffer plate.

4. A novel anti-seismic support according to claim 3, wherein said buffer plate is connected to said connection plate by a second elastic connection.

5. A novel anti-seismic support according to claim 4, wherein the second elastic connecting piece comprises a second bolt, a second nut and a third damping spring, third through holes for the second bolt to pass through are formed at both ends of the buffer plate, fourth through holes for the second bolt to pass through are formed at both ends of the connecting plate, the third damping spring is arranged between the third through holes and the fourth through holes, the second bolt passes through the third through holes, the third damping spring and the fourth through holes in sequence, and the buffer plate and the connecting plate are connected together through the second nut.

6. A novel seismic brace according to claim 3, wherein a cushioning device is provided between the cushioning plate and the connecting plate.

7. A novel anti-seismic support according to claim 1, characterized in that the inner side of said upper hoop is provided with a first protective pad and the inner side of said lower hoop is provided with a second protective pad.

8. A novel seismic brace according to claim 7, wherein the first and second protective pads are both resilient pads.

9. A novel seismic brace according to claim 1, wherein a plurality of mounting holes are provided in the mounting bracket.

10. A novel anti-seismic support according to claim 1, wherein a first hinge is arranged at the lower end of the telescopic rod, a second hinge is arranged at each of the two ends of the connecting plate, and the first hinge and the second hinge are hinged into a whole through a first hinge bolt;

the upper end of antidetonation pole is provided with the third articulated piece, the bottom of mounting bracket is provided with the fourth articulated piece, the third articulated piece with the fourth articulated piece passes through the articulated bolt of second and articulates as an organic whole.

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