CN217713925U - Antidetonation support convenient to installation - Google Patents

Abstract

The application discloses an anti-seismic support convenient to install, which comprises support components, wherein each support component comprises support rods which are symmetrically arranged at two sides of a pipeline and are obliquely arranged with the axis of the pipeline, one end of each support rod is connected with a top plate of a wall body, the other end of each support rod is fixedly connected with a horizontally arranged telescopic rod, one end of each telescopic rod, far away from each support rod, is connected with a hoop component, and the hoop component is sleeved outside the pipeline; the telescopic link overcoat is equipped with first spring, first spring rigid coupling is between vaulting pole and staple bolt subassembly. This application antidetonation support has and reduces on-the-spot installation step, and convenient operation has promoted the effect of efficiency of construction.

Description

Antidetonation support convenient to installation

Technical Field

The application relates to the technical field of pipeline antidetonation protection, in particular to antidetonation support convenient to installation.

Background

At present, in the engineering construction process, pipeline laying is often needed, and pipelines are used for conveying tap water, fire water, natural gas and the like. If the pipelines are directly fixed on the wall body, the pipelines are easy to fall off during earthquake, thereby causing safety accidents. Therefore, in order to prevent the pipeline from falling, the pipeline needs to be protected and supported by brackets with good shock resistance at intervals in addition to general fixing brackets.

In the related technology, the anti-seismic support mainly comprises screw rods vertically anchored on a wall body top plate and symmetrically arranged on two sides of a pipeline, transverse support rods positioned at the bottom of the pipeline and used for supporting the pipeline, and inclined support rods obliquely arranged with the axis of the pipeline, wherein two ends of each transverse support rod are locked on the screw rods through nuts, and two ends of each inclined support rod are respectively connected to the screw rods and the wall body top plate through anti-seismic support hinged parts.

The inventor thinks that although the anti-seismic support in the above-mentioned related art can play the antidetonation effect, but the connection of anti-seismic support articulated elements needs to use a large amount of bolted connections, and the installation is loaded down with trivial details, and the efficiency of construction is low.

SUMMERY OF THE UTILITY MODEL

In order to improve the problem that the antidetonation support bolt structure among the correlation technique is more, the installation is loaded down with trivial details, and the efficiency of construction is low, this application provides an antidetonation support convenient to installation.

The application provides an antidetonation support convenient to installation adopts following technical scheme:

an anti-seismic support convenient to install comprises support assemblies, wherein each support assembly comprises support rods which are symmetrically arranged on two sides of a pipeline and are obliquely arranged with the axis of the pipeline, one end of each support rod is connected with a top plate of a wall body, the other end of each support rod is fixedly connected with a horizontally arranged telescopic rod, one end of each telescopic rod, far away from each support rod, is connected with a hoop assembly, and the hoop assembly is sleeved outside the pipeline; the telescopic link overcoat is equipped with first spring, first spring rigid coupling is between vaulting pole and staple bolt subassembly.

By adopting the technical scheme, the telescopic rods are connected with the hoops, when the pipeline is shaken, the telescopic rods on one side retract, and the telescopic rods on the other side correspondingly extend outwards; the first spring plays a role in absorbing shock on one hand, and is used for providing reset elastic force on the other hand, so that the pipeline can reset and return after vibration deflection, and the pipeline is prevented from falling. This antidetonation supporting structure integration sets up, need not too much bolted connection, has reduced on-the-spot installation step to the efficiency of construction has been promoted.

Optionally, the hoop assembly includes an upper hoop and a lower hoop located at two sides of the pipeline, and the lower hoop is connected to the telescopic rod; go up armful ring and lower armful ring one end and articulate and connect, the other end is provided with locking portion and locks, go up armful ring and form circular centre gripping region after embracing the locking of ring down.

Through adopting above-mentioned technical scheme, when carrying out the shock-resistant support mounting to the pipeline, the armful corresponds the setting in the bottom of pipeline down, and the armful ring in the rotation simultaneously accomplishes the locking through the locking portion that corresponds the setting after the rotation, goes up the armful ring and has realized the centre gripping to the pipeline with embracing the ring down promptly, and installation convenient and fast has accelerated the construction speed.

Optionally, an arc-shaped groove is formed in the outer side face of the lower holding ring, a sliding block is connected in the arc-shaped groove in a sliding mode, and the sliding block is hinged to one end of the telescopic rod.

By adopting the technical scheme, when the pipeline is shaken, the fixed support is out of action, the sliding block slides in the arc-shaped groove, and after the pipeline is stopped by shaking, the sliding block is positioned at the top end of the arc-shaped groove, and the inclined support rod provides vertical component force and horizontal component force for the pipeline, so that the pipeline is prevented from falling, and the protective performance of the anti-seismic support is enhanced.

Optionally, the locking portion includes a locking shaft, an upper boss is disposed at one end of the upper embracing ring, a through hole is formed in the upper boss, the locking shaft is inserted into the through hole of the upper boss, and two ends of the locking shaft extend out of the outer side of the upper boss; a lower boss is arranged at one end of the lower holding ring, a locking block is fixedly connected at one end of the locking shaft facing the lower boss, the locking block is of a strip-shaped structure, a first locking groove which is in a strip-shaped structure and corresponds to the locking block is formed in the lower boss, a second locking groove is formed in the lower boss, and the second locking groove is communicated with the first locking groove; and one end of the locking shaft, which is far away from the lower boss, is fixedly connected with a limiting block for rotating the locking shaft.

Through adopting above-mentioned technical scheme, when last armful ring and when lower armful embracing, go up the boss butt on boss down, the latch segment corresponds and passes first locking groove, and stop in second locking groove, operating personnel is through rotatory stopper, thereby it is rotatory in second locking groove to drive the latch segment, the latch segment is rotatory back and first locking groove dislocation, can't directly break away from, thereby accomplish the quick locking to last armful ring and lower armful ring, and need not to twist soon the bolt, and convenient operation is swift, and the construction efficiency is improved.

Optionally, the length direction parallel arrangement of stopper and latch segment, the through-hole has been seted up on the stopper, go up and have seted up the blind hole on the boss correspondingly, when the through-hole of stopper and the blind hole axis coincidence of epirelief platform, downthehole correspondence wears to establish the spacer pin, the spacer pin is used for restricting the rotation of stopper.

Through adopting above-mentioned technical scheme, the stopper has restricted the latch segment and has broken away from first locking groove in rotatory back, when the stopper rotated the blind hole that the through-hole corresponds on the boss, wears to establish and inserts the spacer pin, plays the limiting displacement to the rotary motion of stopper to further strengthened the validity of locking structure.

Optionally, the staple bolt subassembly still includes inhales the shake portion, inhale shake portion including the rigid coupling last armful ring and embrace the second spring on the intra-annular side down, second spring one end rigid coupling has the briquetting, the briquetting supports presses on the outside of pipeline.

Through adopting above-mentioned technical scheme, the second spring plays buffering, inhales the shake effect, reduces the intensity that the pipeline received vibrations to improved the guard action of antidetonation support, and inhale shake the medial surface that the portion set up at last armful ring and armful ring down, need not additionally to install, at last armful ring with down when armful ring locking, the dog supports simultaneously and presses on the pipeline, plays the antidetonation effect.

Optionally, one side of the pressing block facing the pipeline is provided with a shock absorption cushion layer.

By adopting the technical scheme, the shock absorption cushion layer on the pressing block further enhances the effects of buffering and energy consumption of the shock absorption part, and reduces the shock damage possibly suffered by the pipeline.

Optionally, inhale the shake portion and be provided with a plurality of groups, and a plurality of groups inhale shake portion and be the circumference array along the axis of pipeline and distribute.

Through adopting above-mentioned technical scheme, inhale shake the distribution of portion along circumference array, play the energy consumption effect of buffering to the impact force that a plurality of directions of pipeline circumference received to strengthened the holistic anti-seismic performance of antidetonation support, effectively reduced the risk of falling of pipeline.

In summary, the present application includes at least one of the following beneficial technical effects:

1. through setting up telescopic link and first spring, when the pipeline receives the shake, through the concertina movement of telescopic link and the effect of inhaling of first spring, effectively prevented falling of pipeline, and this antidetonation supporting structure integration sets up, need not too much bolted connection, has reduced on-the-spot installation steps to the efficiency of construction has been promoted.

2. Through setting up the armful ring, embrace ring and locking portion down, go up the armful ring and embrace the ring down and embrace the pipeline and embrace the centre gripping back tightly, stopper in the rotatory locking portion makes latch segment and first locking groove dislocation, accomplishes the quick locking of last armful ring and lower armful ring, and the locking process need not to twist soon the bolt, and convenient operation is swift, has further improved the efficiency of construction.

3. Inhale shake portion through setting up, inhale the second spring in shake portion and play buffering, inhale the shake effect, reduce the intensity that the pipeline received vibrations to improved the guard action of antidetonation support, and inhale shake portion and set up at last embracing ring and the medial surface of embracing the ring down, need not additionally to install, at last embracing ring with embrace the ring locking down time, the dog supports simultaneously and presses on the pipeline, convenient operation is practical.

Drawings

FIG. 1 is a schematic structural view of an anti-seismic support in an embodiment of the present application;

FIG. 2 is a front view of the structure of the seismic brace in an embodiment of the present application;

fig. 3 is an operation diagram of the locking portion in the embodiment of the present application.

Description of the reference numerals: 1. a support assembly; 11. a stay bar; 111. mounting a plate; 12. a telescopic rod; 13. a first spring; 2. the hoop component; 21. a lower embracing ring; 211. an arc-shaped slot; 212. a lower boss; 2121. a first locking groove; 2122. a second locking groove; 22. a slider; 23. a first pin shaft; 24. an upper embracing ring; 241. an upper boss; 25. a second pin shaft; 26. a locking portion; 261. a locking shaft; 262. a locking block; 263. a limiting block; 264. a spacing pin; 27. a shock absorbing section; 271. a second spring; 272. pressing into blocks; 273. a shock absorbing cushion layer; 3. a pipeline; 4. wall body roof.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

The embodiment of the application discloses antidetonation support convenient to installation, refer to FIG. 1, including strutting subassembly 1 and staple bolt subassembly 2, strut subassembly 1 and install in 3 both sides of pipeline, the cover of staple bolt subassembly 2 is established on pipeline 3, strut subassembly 1 and be connected with staple bolt subassembly 2 and wall body roof 4 respectively, play the guard action to pipeline 3.

Referring to fig. 1 and 2, the support assembly 1 includes brace rods 11, the brace rods 11 are symmetrically disposed on two sides of the pipeline 3, the length direction of the brace rods 11 is obliquely arranged with the axis direction of the pipeline 3, a horizontal mounting plate 111 is disposed at one end of the brace rods 11, and the mounting plate 111 is connected and fastened with a wall bottom plate through an anchor bolt. The other end rigid coupling of vaulting pole 11 has telescopic link 12, and the setting of telescopic link 12 level, telescopic link 12 keep away from the one end of vaulting pole 11 and connect on staple bolt subassembly 2. The telescopic rod 12 is sleeved with a first spring 13, one end of the first spring 13 is fixedly connected to the support rod 11, and the other end of the first spring 13 is also fixedly connected to the hoop component 2.

Referring to fig. 2 and 3, the hoop assembly 2 includes a lower hoop 21, the lower hoop 21 is of a semicircular structure, an inner concave arc-shaped groove 211 is formed in the outer side wall of the lower hoop 21, the cross section of the arc-shaped groove 211 is of a T shape, a sliding block 22 which is adapted to the arc-shaped groove 211 is slidably connected in the arc-shaped groove 211, one end of the sliding block 22 extends out of the arc-shaped groove 211, a groove is formed in one end of the sliding block which extends out of the arc-shaped groove 211, one end of the telescopic rod 12, which is far away from the stay bar 11, is correspondingly embedded into the groove of the sliding block 22, through holes are formed in the two ends of the telescopic rod and a first pin shaft 23 penetrates through the through holes to form hinge joint; the first spring 13 is fixed on the end face of the slide block 22 correspondingly.

Referring to fig. 2, one end of the lower surrounding ring 21 is hinged to an upper surrounding ring 24, the lower surrounding ring 21 is provided with a receding groove, one end of the upper surrounding ring 24 is provided with a protruding block, the protruding block of the upper surrounding ring 24 is correspondingly embedded into the receding groove of the lower surrounding ring 21 for installation, the upper surrounding ring and the lower surrounding ring are both provided with through holes, a second pin shaft 25 is penetrated to form the hinge joint, and the upper surrounding ring 24 can rotate relative to the lower surrounding ring 21 along the axis of the second pin shaft 25. The upper embracing ring 24 is a semicircular structure which is arranged corresponding to the lower embracing ring 21, a circular clamping area is formed after the upper embracing ring and the lower embracing ring are rotationally matched, the pipeline 3 is positioned in the circular clamping area, and the upper embracing ring 24 and the lower embracing ring 21 are arranged on the outer side of the pipeline 3 in an encircling manner.

Referring to fig. 2 and 3, an upper boss 241 is disposed at an end of the upper embracing ring 24 away from the second pin shaft 25, a lower boss 212 is disposed at an end of the lower embracing ring 21 away from the second pin shaft 25, and when the upper embracing ring 24 and the lower embracing ring 21 are fitted and clasped, the upper boss 241 is pressed against one side of the lower boss 212. Go up boss 241 one side and be provided with locking portion 26, locking portion 26 includes locking axle 261, and locking axle 261 wears to establish on last boss 241, and the both ends of locking axle 261 all stretch out to last boss 241 both sides. The locking shaft 261 is fixedly connected with a locking block 262 at one end facing the lower boss 212, the locking block 262 is a strip-shaped structure, the lower boss 212 is provided with a first locking groove 2121 corresponding to the locking block 262, and the first locking groove 2121 is also a strip-shaped groove structure. The lower boss 212 is further provided with a second locking groove 2122, the second locking groove 2122 communicates with one side of the first locking groove 2121, and the second locking groove 2122 is a circular groove. After the locking block 262 passes through the first locking groove 2121 and reaches the second locking groove 2122, the locking block 262 is rotated by 90 degrees and is misaligned with the first locking groove 2121 and cannot slide out of the first locking groove 2121, so that the locking of the upper boss 241 and the lower boss 212 is completed.

The end of the locking shaft 261 far away from the lower boss 212 is fixedly connected with a limiting block 263, the limiting block 263 is a strip-shaped structure, and the length directions of the limiting block 263 and the locking block 262 are parallel to each other. The operator can rotate the limiting block 263 to complete the limiting adjustment of the locking block 262 in the second locking groove 2122. The through-hole has been seted up on stopper 263, and the blind hole has been seted up to the corresponding position of last boss 241, and after stopper 263 passed through the rotatory 90 degrees of locking shaft 261 drive latch segment 262, the through-hole on the stopper 263 and the blind hole axis coincidence of last boss 241, operating personnel correspond the patchhole with spacer pin 264 to it is spacing to form the rotation of stopper 263.

Referring to fig. 2, the hoop component 2 further includes a shock absorbing portion 27, the shock absorbing portion 27 includes a second spring 271, one end of the second spring 271 is fixedly connected to the inner side surface of the upper hoop 24 or the lower hoop 21, the other end of the second spring 271 is fixedly connected to a pressing block 272, one side of the pressing block 272, which is far away from the second spring 271, is pressed against the pipeline 3, a shock absorbing cushion 273 is disposed on the pressing block 272 and the pipeline 3, and the shock absorbing cushion 273 is made of materials with shock absorbing function, such as nitrile butadiene rubber or ethylene propylene diene monomer. In this embodiment, the shock absorbing portion 27 is provided with a plurality of groups distributed in a circumferential array along the axis of the pipeline 3, so as to absorb shock energy in a plurality of directions and enhance shock resistance.

The implementation principle of the embodiment of the application is as follows: after the pipeline 3 is supported by the fixing support, the anti-seismic support is installed, an operator places the lower embracing ring 21 at a proper position, the upper embracing ring 24 rotates to be matched and clasped, the locking block 262 reaches the second locking groove 2122 through the first locking groove 2121, the locking block 262 and the first locking groove 2121 are dislocated by rotating the limiting block 263, and then the limiting pin 264 is correspondingly inserted into the hole matched with the limiting rod and the upper boss 241 to complete locking. Because one end of the telescopic rod 12 is hinged with the sliding block 22 and the other end is fixedly connected with the stay bar 11, extra locking and installation are not needed, and finally the stay bar 11 and the top plate 4 of the wall body are connected and fastened through anchor bolts to complete the installation of the anti-seismic support; excessive bolt connection is not needed in the installation process, the field installation steps are reduced, and the construction efficiency is improved.

After the anti-vibration bracket is installed, the first spring 13 and the second spring 271 absorb and buffer the vibration transmitted to the pipeline 3. When the vibration energy is too large, the original fixing bracket of the pipeline 3 is damaged, the sliding block 22 slides in the arc-shaped groove 211, and the supporting rod 11 supports and protects the pipeline 3 through the telescopic rod 12, so that the pipeline 3 is prevented from falling.

The specific embodiments are only for explaining the present application and are not limiting to the present application, and those skilled in the art can make modifications to the embodiments without inventive contribution as required after reading the present specification, but all the embodiments are protected by patent law within the scope of the claims of the present application.

Claims (8)

1. The utility model provides an antidetonation support convenient to installation which characterized in that: the supporting device comprises supporting components (1), wherein the supporting components (1) comprise supporting rods (11) which are symmetrically arranged on two sides of a pipeline (3) and are obliquely arranged with the axis of the pipeline (3), one end of each supporting rod (11) is connected with a wall top plate (4), the other end of each supporting rod (11) is fixedly connected with a horizontally arranged telescopic rod (12), one end, far away from the corresponding supporting rod (11), of each telescopic rod (12) is connected with a hoop component (2), and the hoop component (2) is sleeved outside the pipeline (3); the telescopic link (12) overcoat is equipped with first spring (13), first spring (13) rigid coupling is between vaulting pole (11) and staple bolt subassembly (2).

2. An easy-to-install seismic support according to claim 1, wherein: the hoop component (2) comprises an upper hoop (24) and a lower hoop (21) which are positioned at two sides of the pipeline (3), and the lower hoop (21) is connected with the telescopic rod (12); go up armful ring (24) and embrace ring (21) one end articulated connection down, the other end is provided with locking portion (26) and locks, go up and embrace ring (24) and embrace ring (21) down and form circular centre gripping region after locking.

3. An earthquake-resistant support facilitating installation according to claim 2, wherein: an arc-shaped groove (211) is formed in the outer side face of the lower holding ring, a sliding block (22) is connected in the arc-shaped groove (211) in a sliding mode, and the sliding block (22) is hinged to one end of the telescopic rod (12).

4. An easy-to-install seismic support according to claim 2, wherein: the locking part (26) comprises a locking shaft (261), one end of the upper hoop (24) is provided with an upper boss (241), a through hole is formed in the upper boss (241), the locking shaft (261) penetrates through the through hole of the upper boss (241), and two ends of the locking shaft extend out of the outer side of the upper boss (241); one end of the lower holding ring (21) is provided with a lower boss (212), one end of the locking shaft (261) facing the lower boss (212) is fixedly connected with a locking block (262), the locking block (262) is of a strip-shaped structure, a first locking groove (2121) which is of a strip-shaped structure and corresponds to the locking block (262) is formed in the lower boss (212), a second locking groove (2122) is further formed in the lower boss (212), and the second locking groove (2122) is communicated with the first locking groove (2121); and one end of the locking shaft (261) far away from the lower boss (212) is fixedly connected with a limiting block (263) used for rotating the locking shaft (261).

5. An earthquake-resistant support facilitating installation according to claim 4, wherein: the length direction parallel arrangement of stopper (263) and latch segment (262), the through-hole has been seted up on stopper (263), go up and correspond on boss (241) and seted up the blind hole, when the through-hole of stopper (263) and the blind hole axis coincidence of last boss (241), spacing pin (264) are worn to establish to downthehole correspondence, spacing pin (264) are used for restricting the rotation of stopper (263).

6. An earthquake-resistant support facilitating installation according to claim 1, wherein: staple bolt subassembly (2) still include and inhale shake portion (27), inhale shake portion (27) including the rigid coupling last embrace ring (24) or embrace second spring (271) on ring (21) medial surface down, second spring (271) one end rigid coupling has briquetting (272), briquetting (272) support and press on the outside of pipeline (3).

7. An easy-to-install seismic support according to claim 6, wherein: and one side of the pressing block (272) facing the pipeline (3) is provided with a shock absorption cushion layer (273).

8. An easy-to-install seismic support according to claim 6, wherein: the shock absorption parts (27) are provided with a plurality of groups, and the shock absorption parts (27) are distributed in a circumferential array along the axis of the pipeline (3).

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