CN217272424U - Novel pipeline antidetonation support - Google Patents

Abstract

The utility model discloses a novel pipeline antidetonation support relates to support technical field, comprising a base plate, first damping device is installed to the upper end bilateral symmetry of bottom plate, the mounting panel is installed to first damping device's upper end, the mid-mounting of bottom plate has the third clamp, be equipped with first chucking mechanism directly over the third clamp, the lower extreme at the mounting panel is installed to first chucking mechanism, second chucking mechanism is installed to the upper end bilateral symmetry of bottom plate. Has the advantages that: through the design of the first damping device, when vibration or oscillation occurs, the T-shaped rod can slide up and down in the mounting cylinder, and meanwhile, the first spring is stretched or compressed, so that the bottom plate can be buffered, and the shock-resistant effect is further achieved on the pipeline; through the setting of first chucking mechanism, not only can press from both sides tightly the pipeline, but also can play the antidetonation effect of pipeline.

Description

Novel pipeline antidetonation support

Technical Field

The utility model relates to the technical field of supports, especially, relate to a novel pipeline antidetonation support.

Background

In the current engineering construction work progress, often need carry out the pipe laying for carry running water, fire control water and natural gas etc. if these pipeline snap-on wall body or ceiling, when taking place vibrations or shock, often take place to fall easily, thereby cause the incident, consequently be used for the fixed support of pipeline to need to have better shock resistance, the most antidetonation effect of current pipeline support is poor, the use of giving people has brought certain trouble.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a novel pipeline antidetonation support just in order to solve above-mentioned problem.

The utility model discloses a following technical scheme realizes above-mentioned purpose:

the utility model provides a novel pipeline antidetonation support, includes the bottom plate, its characterized in that: first damping device is installed to the upper end bilateral symmetry of bottom plate, the mounting panel is installed to first damping device's upper end, the mid-mounting of bottom plate has the third clamp, be equipped with first chucking mechanism directly over the third clamp, the lower extreme at the mounting panel is installed to first chucking mechanism, the second chucking mechanism is installed to the upper end bilateral symmetry of bottom plate.

Preferably, first damping device includes an installation section of thick bamboo, T type pole, lower mount pad, goes up mount pad and first spring, the lower extreme at the mounting panel is installed to the upper end of going up the mount pad, the lower extreme of going up the mount pad rotates and is connected with the installation section of thick bamboo, sliding connection has T type pole in the installation section of thick bamboo, the lower extreme of T type pole rotates and is connected with down the mount pad, the mount pad is installed on the bottom plate down, first spring has been cup jointed on the T type pole, the upper end fixed mounting of first spring is in the upper end of T type pole, the lower extreme fixed mounting of first spring is at the inside lower extreme of an installation section of thick bamboo.

Preferably, first chucking mechanism includes fixed column, shrinkage pool, second spring, spliced pole and first clamp, fixed column fixed connection is at the lower extreme of mounting panel, the shrinkage pool has been seted up to the lower extreme of fixed column, fixed mounting has the second spring in the shrinkage pool, the lower extreme fixedly connected with spliced pole of second spring, the first clamp of lower extreme fixedly connected with of spliced pole.

Preferably, the second clamping mechanisms are located on two sides of the third hoop and located between the two first damping devices.

Preferably, second chucking mechanism includes telescopic link, threaded rod, baffle, slip post, third spring and second clamp, telescopic link fixed connection is in the upper end of bottom plate, the extension end fixed connection of telescopic link is at the lower extreme of mounting panel, the lower extreme of telescopic link sets up threaded hole, threaded hole threaded connection has the threaded rod, the through-hole has been seted up to the lower extreme symmetry of telescopic link, the through-hole is located the both sides of screw hole, sliding connection has the slip post in the through-hole, the slip post is close to the one end fixedly connected with second clamp of third clamp, the other end fixedly connected with baffle of slip post, the third spring has been cup jointed on the slip post, the one end and the baffle fixed connection of third spring, the other end fixed connection of third spring is on the telescopic link.

Preferably, a sponge cushion is fixedly arranged on the inner side of the third clamp.

Has the advantages that: through the design of the first damping device, when vibration or oscillation occurs, the T-shaped rod can slide up and down in the mounting cylinder, and meanwhile, the first spring is stretched or compressed to buffer the bottom plate, so that the shock-resistant effect is achieved on the pipeline; through the ingenious design of the second clamping mechanism, the connecting effect on the bottom plate and the mounting plate can be achieved, the second clamp can clamp the pipeline by screwing the threaded rod clockwise, when the pipeline needs to be disassembled, the threaded rod is screwed anticlockwise to move outwards, and meanwhile, under the action of the elastic force of the third spring, the second clamp does not automatically clamp the pipeline any more, so that the pipeline is convenient to install and disassemble; through the setting of first chucking mechanism, not only can press from both sides tightly the pipeline, but also can play the antidetonation effect of pipeline.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, 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 exercise.

Fig. 1 is a schematic view of a novel pipeline anti-seismic support according to the present invention, partially in cross section;

fig. 2 is a front view of the novel anti-seismic pipeline bracket according to the present invention;

fig. 3 is a partial enlarged view of a position a of the novel pipeline anti-seismic bracket according to the present invention;

fig. 4 is a right side view of the telescopic rod of the novel anti-seismic pipeline bracket.

The reference numerals are explained below:

1. a base plate; 2. a first damping device; 201. mounting the cylinder; 202. a T-shaped rod; 203. a lower mounting seat; 204. an upper mounting seat; 205. a first spring; 3. mounting a plate; 4. a first chucking mechanism; 401. fixing a column; 402. concave holes; 403. a second spring; 404. connecting columns; 405. a first clamp; 5. a second clamping mechanism; 501. a telescopic rod; 502. a threaded rod; 503. a baffle plate; 504. a sliding post; 505. a third spring; 506. a second clamp; 507. a through hole; 508. a threaded hole; 6. a third clamp; 7. a spongy cushion.

Detailed Description

The technical scheme of the invention is further explained by combining the attached drawings as follows:

as shown in fig. 1-4, a novel pipeline antidetonation support, including bottom plate 1, its characterized in that: the upper end bilateral symmetry of bottom plate 1 installs first damping device 2, first damping device 2 can be when taking place the earthquake, make bottom plate 1 have a buffering, and then play antidetonation effect to the pipeline, mounting panel 3 is installed to the upper end of first damping device 2, mounting panel 3 is used for making this pipeline antidetonation support fix on wall body or ceiling, the mid-mounting of bottom plate 1 has third chucking hoop 6, be equipped with first chucking mechanism 4 directly over third chucking hoop 6, first chucking mechanism 4 not only can with third chucking hoop 6 carry out the pre-clamping to the pipeline, but also can play the effect of buffering to the pipeline, first chucking mechanism 4 is installed at the lower extreme of mounting panel 3, the upper end bilateral symmetry of bottom plate 1 installs second chucking mechanism 5, second chucking mechanism 5 can press from both sides the pipeline tightly firmly, first damping device 2 includes an installation section of thick bamboo 201, T type pole 202, lower mount pad 203, An upper mounting seat 204 and a first spring 205, wherein the upper end of the upper mounting seat 204 is mounted at the lower end of the mounting plate 3, the lower end of the upper mounting seat 204 is rotatably connected with a mounting cylinder 201, the mounting cylinder 201 is used for enabling the T-shaped rod 202 to slide up and down in the mounting cylinder 201, the T-shaped rod 202 is slidably connected with the T-shaped rod 201, the lower end of the T-shaped rod 202 is rotatably connected with a lower mounting seat 203, the lower mounting seat 203 is mounted on the bottom plate 1, the first spring 205 is sleeved on the T-shaped rod 202, the upper end of the first spring 205 is fixedly mounted at the upper end of the T-shaped rod 202, the lower end of the first spring 205 is fixedly mounted at the lower end in the mounting cylinder 201, the first spring 205 is matched with the T-shaped rod 202, when an earthquake occurs, the T-shaped rod 202 can slide up and down in the mounting cylinder 201, the bottom plate 1 can be buffered, further the pipeline can play a role of shock resistance, the first clamping mechanism 4 comprises a fixed column 401, a concave hole 402, a second spring 403, a second spring 205, A connecting column 404 and a first clamp 405, the fixing column 401 is fixedly connected to the lower end of the mounting plate 3, a concave hole 402 is formed in the lower end of the fixing column 401, a second spring 403 is fixedly installed in the concave hole 402, the lower end of the second spring 403 is fixedly connected with the connecting column 404, the lower end of the connecting column 404 is fixedly connected with the first clamp 405, the first clamp 405 is matched with a third clamp 6, a pipeline can be pre-clamped, simultaneously, when an earthquake occurs, along with up-and-down movement of the first damping device 2 and the telescopic rod 501, the first clamp 405 also moves up and down, and further, the pipeline can achieve better anti-seismic effect, in the up-and-down movement process of the first clamp 405, the first clamp 405 can pre-clamp the pipeline all the time under the action of the second spring 403, the second clamping mechanisms 5 are located on two sides of the third clamp 6 and between the two first damping devices 2, the second clamping mechanism 5 comprises the telescopic rod 501, a first clamping mechanism 2, a second clamping mechanism 405, a second clamping mechanism 2, a third clamping mechanism, a second clamping mechanism, a third clamping mechanism and a fourth clamping mechanism, a fourth clamping, The telescopic rod 501 is fixedly connected to the upper end of the bottom plate 1, the extension end of the telescopic rod 501 is fixedly connected to the lower end of the mounting plate 3, the lower end of the telescopic rod 501 is provided with a threaded hole 508, the threaded hole 508 is in threaded connection with the threaded rod 502, the threaded rod 502 is used for moving the second clamp 506, the lower end of the telescopic rod 501 is symmetrically provided with through holes 507, the through holes 507 are positioned on two sides of the threaded hole 508, the sliding column 504 is in sliding connection with the through holes 507, one end of the sliding column 504 close to the third clamp 6 is fixedly connected with the second clamp 506, the other end of the sliding column 504 is fixedly connected with the baffle 503, the sliding column 504 is sleeved with the third spring 505, one end of the third spring 505 is fixedly connected with the baffle 503, the other end of the third spring 505 is fixedly connected to the telescopic rod 501, the third clamp 6, sponge pads 7 are fixedly arranged on the inner sides of the first clamp 405 and the second clamp 506, the pipeline clamping device is convenient for protecting the pipeline and preventing the pipeline from generating scratches when the pipeline is clamped.

The working principle is as follows: when the installation plate needs to be used, the installation plate 3 is fixedly installed on a ceiling, the first clamp 405 is moved upwards, then a pipeline is placed on the third clamp 6, after the installation is finished, the first clamp 405 is loosened, the first clamp 405 automatically moves downwards under the action of the elastic force of the second spring 403, then the first clamp is matched with the third clamp 6 to pre-clamp the pipeline, then the threaded rod 502 is screwed clockwise, the threaded rod 502 enables the second clamp 506 to clamp the pipeline, the pipeline is clamped more firmly, when the disassembly and replacement are needed, the threaded rod 502 is screwed, the threaded rod 502 moves outwards, at the moment, under the action of the third spring 505, the second clamp 506 can not clamp the pipeline any more, at the moment, a worker moves the first clamp 405 upwards to disassemble and replace the pipeline quickly, when an earthquake or a shock occurs, the T-shaped rod 202 in the first damping device 2 can move upwards and downwards in the installation barrel 201 under the action of the first spring 205, and then can make the pipeline cushion, telescopic link 501 also stretches out and draws back or extend as required simultaneously to ingenious design through first chucking mechanism 4 can make pipeline antidetonation effect.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It should be understood by those skilled in the art that the present invention is not limited to the above embodiments, and the above embodiments and descriptions are only illustrative of the principles of the present invention, and that various changes and modifications may be made without departing from the spirit and scope of the present invention, and all such changes and modifications fall within the scope of the present invention as claimed.

Claims (6)

1. The utility model provides a novel pipeline antidetonation support, includes bottom plate (1), its characterized in that: first damping device (2) are installed to the upper end bilateral symmetry of bottom plate (1), mounting panel (3) are installed to the upper end of first damping device (2), the mid-mounting of bottom plate (1) has third clamp (6), be equipped with first chucking mechanism (4) directly over third clamp (6), the lower extreme in mounting panel (3) is installed in first chucking mechanism (4), second chucking mechanism (5) are installed to the upper end bilateral symmetry of bottom plate (1).

2. A novel anti-seismic support for pipes according to claim 1, characterized in that: first damping device (2) are including installation section of thick bamboo (201), T type pole (202), lower mount pad (203), go up mount pad (204) and first spring (205), the lower extreme in mounting panel (3) is installed to the upper end of going up mount pad (204), the lower extreme of going up mount pad (204) is rotated and is connected with installation section of thick bamboo (201), sliding connection has T type pole (202) in installation section of thick bamboo (201), the lower extreme of T type pole (202) is rotated and is connected with down mount pad (203), install on bottom plate (1) mount pad (203) down, first spring (205) have been cup jointed on T type pole (202), the upper end fixed mounting of first spring (205) is in the upper end of T type pole (202), the lower extreme fixed mounting of first spring (205) is at the inside lower extreme of installation section of thick bamboo (201).

3. A novel anti-seismic support for pipes according to claim 1, characterized in that: first chucking mechanism (4) are including fixed column (401), shrinkage pool (402), second spring (403), spliced pole (404) and first clamp (405), fixed column (401) fixed connection is at the lower extreme of mounting panel (3), shrinkage pool (402) have been seted up to the lower extreme of fixed column (401), fixed mounting has second spring (403) in shrinkage pool (402), the lower extreme fixedly connected with spliced pole (404) of second spring (403), the first clamp (405) of lower extreme fixedly connected with of spliced pole (404).

4. A novel anti-seismic pipeline support according to claim 1, characterized in that: and the second clamping mechanisms (5) are positioned on two sides of the third hoop (6) and between the first damping devices (2).

5. A novel anti-seismic pipeline bracket according to claim 4, characterized in that: the second clamping mechanism (5) comprises a telescopic rod (501), a threaded rod (502), a baffle (503), a sliding column (504), a third spring (505) and a second clamp (506), the telescopic rod (501) is fixedly connected to the upper end of the bottom plate (1), the extending end of the telescopic rod (501) is fixedly connected to the lower end of the mounting plate (3), a threaded hole (508) is formed in the lower end of the telescopic rod (501), the threaded hole (508) is in threaded connection with the threaded rod (502), through holes (507) are symmetrically formed in the lower end of the telescopic rod (501), the through holes (507) are located in two sides of the threaded hole (508), the sliding column (504) is in sliding connection with the through holes (507), one end of the sliding column (504) close to the third clamp (6) is fixedly connected with the second clamp (506), and the other end of the sliding column (504) is fixedly connected with the baffle (503), a third spring (505) is sleeved on the sliding column (504), one end of the third spring (505) is fixedly connected with the baffle (503), and the other end of the third spring (505) is fixedly connected to the telescopic rod (501).

6. A novel anti-seismic support for pipes according to claim 1, characterized in that: and a spongy cushion (7) is fixedly arranged on the inner side of the third hoop (6).

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