CN218845438U - Pipeline antidetonation support - Google Patents

Abstract

The utility model relates to a pipeline support technical field especially relates to a pipeline antidetonation support. The technical scheme comprises the following steps: two loop bars all are equipped with on two loop bars and are used for carrying out driven actuating mechanism to the loop bar, and two equal vertical connecting rods that are equipped with in loop bar below are equipped with an arc clamp splice in the middle of two connecting rods, and an arc clamp splice both sides all are equipped with and are used for carrying out the latch mechanism of dismouting to an arc clamp splice, the utility model discloses following profitable technological effect has: the first arc-shaped clamping block is convenient to detach from the two connecting rods through the clamping mechanism, so that the pipeline detachment convenience is improved, and the overhauling operation of the pipeline is convenient; the two loop bars can conveniently slide on installation through the driving mechanism, and the pipeline bracket is prevented from being damaged due to lateral tension caused by tension at two ends of the pipeline; the first arc-shaped clamping block and the second arc-shaped clamping block can be adjusted up and down according to the requirement of pipeline installation by rotating the screw rod.

Description

Pipeline antidetonation support

Technical Field

The utility model relates to a pipeline bracket technical field especially relates to a pipeline antidetonation support.

Background

When the pipeline is installed and laid on the indoor top of some buildings, the pipeline is usually supported by a pipeline support so as to protect the pipeline.

An indoor pipeline installation antidetonation supporting structure as patent number 202123069168.2 application, this indoor pipeline installation antidetonation supporting structure, through set up on last support ring and lower support ring and adjust a section of thick bamboo, utilize the connecting ring on the extension rod to carry out the centre gripping to the pipeline, through adjusting pole extrusion compression spring, adjust the dynamics of centre gripping, when the pipeline shakes, compression spring can absorb the vibrations of pipeline simultaneously, alleviates the vibration range of pipeline, plays absorbing purpose.

Although the support structure can absorb the vibration received by the pipeline to achieve the anti-vibration effect, when the pipeline needs to be disassembled and overhauled, the bolts on the upper support ring and the lower support ring need to be disassembled through tools, so that the overhauling work of the pipeline becomes more complicated, and the complexity degree of the work is increased; and when the both ends of pipeline received the pulling force, because of there is certain frictional force between pipeline lateral wall and the go-between, lead to the pipeline support to receive lateral pulling force, cause the damage to pipeline support easily.

SUMMERY OF THE UTILITY MODEL

The utility model aims at the problem that exists among the background art, a pipeline antidetonation support that provides makes it be convenient for lift the pipeline off from the pipeline support, improves its convenience of dismantling the work.

The technical scheme of the utility model: a pipeline seismic support, comprising: two loop bars, two all be equipped with on the loop bar and be used for carrying out the actuating mechanism that drives to the loop bar, two the equal vertical connecting rod that is equipped with in loop bar below, two be equipped with an arc clamp splice in the middle of the connecting rod, an arc clamp splice both sides all are equipped with the latch mechanism that is used for carrying out the dismouting to an arc clamp splice.

Preferably, an arc clamp splice top is equipped with No. two arc clamp splices, no. two arc clamp splice both ends respectively with two connecting rod lateral wall fixed connection, two the connecting rod lateral wall is located an arc clamp splice both ends relative position and all sets up flutedly, an arc clamp splice both ends respectively with corresponding recess sliding connection, latch mechanism includes the driving groove, the driving groove is seted up in the recess inside wall, sliding connection has trapezoidal fixture block in the driving groove, trapezoidal fixture block one end fixedly connected with compression spring, the compression spring other end and driving groove inside wall fixed connection, be equipped with the pull rod in the compression spring, pull rod one end is in trapezoidal fixture block one side fixed connection, the pull rod other end runs through the connecting rod lateral wall and stretches to connecting rod one side, an arc clamp splice lateral wall is located trapezoidal fixture block relative position and has seted up the draw-in groove, the trapezoidal fixture block other end is connected with the draw-in groove joint, be the annular in an arc clamp splice and No. two arc clamp splice and be equipped with a plurality of buffer blocks, a plurality of buffer spring both ends that the buffer block was kept away from each other ends each other and all are connected with buffer spring, a plurality of arc clamp splice or a plurality of arc clamp splice one side is connected with a plurality of arc clamp splice and a buffer block and a plurality of extension each other side the extension of arc clamp splice.

Preferably, the anti-skid pads are fixedly connected to the side, close to each other, of each of the plurality of buffer blocks.

Preferably, two be located No. two arc clamp splice top levels in the middle of the connecting rod and be equipped with the gag lever post, the gag lever post both ends respectively with two connecting rod lateral wall fixed connection, gag lever post surface middle-end rotates and is connected with the screw rod, two the gag lever post middle-position is equipped with the dead lever above the gag lever post level, the dead lever both ends respectively with two loop bar lateral wall fixed connection, the dead lever is run through on the screw rod top and dead lever lateral wall threaded connection.

Preferably, the bottom surfaces of the two loop bars are provided with sliding holes, and the top ends of the two connecting rods extend into the corresponding sliding holes to be in sliding connection with the inner side walls of the sliding holes.

Preferably, two the loop bar top is equipped with the mounting panel, actuating mechanism includes the spout, the spout set up with in the mounting panel bottom surface, the loop bar top all with the spout sliding connection that corresponds, horizontal fixedly connected with slide bar in the spout, the slide bar runs through corresponding loop bar and loop bar sliding connection, it is equipped with No. two compression spring all to lie in the loop bar both ends on the slide bar cover, no. two compression spring one end and spout inside wall fixed connection, no. two compression spring other ends and loop bar lateral wall fixed connection.

Compared with the prior art, the utility model discloses following profitable technological effect has: the first arc-shaped clamping block is convenient to detach from the two connecting rods through the clamping mechanism, so that the pipeline detachment convenience is improved, and the overhauling operation of the pipeline is convenient; the two loop bars can conveniently slide on installation through the driving mechanism, and the pipeline bracket is prevented from being damaged due to lateral tension caused by tension at two ends of the pipeline; the first arc-shaped clamping block and the second arc-shaped clamping block can be adjusted up and down according to the requirement of pipeline installation by rotating the screw rod.

Drawings

FIG. 1 is a front sectional schematic view of an embodiment of the present invention;

fig. 2 is a schematic view of a trapezoidal fixture block connection structure according to an embodiment of the present invention;

fig. 3 is a schematic view of a slide bar connection structure according to an embodiment of the present invention.

Reference numerals: 1. a loop bar; 2. a drive mechanism; 3. a connecting rod; 4. a first arc-shaped clamping block; 5. a clamping mechanism; 6. a second arc-shaped clamping block; 7. a buffer block; 8. a buffer spring; 9. an extension rod; 10. a drive slot; 11. a trapezoidal fixture block; 12. a card slot; 13. a compression spring; 14. a pull rod; 15. a non-slip mat; 16. a limiting rod; 17. fixing the rod; 18. a screw; 19. a slide hole; 20. mounting a plate; 21. a chute; 22. a slide bar; 23. and a second compression spring.

Detailed Description

The technical solution of the present invention will be further explained with reference to the accompanying drawings and specific embodiments.

Example one

As shown in fig. 1-3, the utility model provides a pipeline antidetonation support, include: two loop bars 1 all are equipped with on two loop bars 1 and are used for carrying out driven actuating mechanism 2 to loop bar 1, and two 1 below of loop bar are all vertical to be equipped with connecting rod 3, and an arc clamp splice 4 is located in the middle of two connecting rods 3, and an arc clamp splice 4 both sides all are equipped with and are used for carrying out the clamping mechanism 5 of dismouting to an arc clamp splice 4.

No. two arc clamp splice 6 are located arc clamp splice 4 top, no. two arc clamp splice 6 both ends respectively with two connecting rod 3 lateral wall fixed connection, two connecting rod 3 lateral walls are located 4 both ends relative positions of arc clamp splice and all set up flutedly, 4 both ends of arc clamp splice respectively with corresponding recess sliding connection, latch mechanism 5 includes driving groove 10, driving groove 10 is seted up in the recess inside wall, trapezoidal fixture block 11 sliding connection is in driving groove 10, a compression spring 13 one end and trapezoidal fixture block 11 one end fixed connection, a compression spring 13 other end and driving groove 10 inside wall fixed connection, pull rod 14 is located compression spring 13, pull rod 14 one end is in trapezoidal fixture block 11 one side fixed connection, the pull rod 14 other end runs through connecting rod 3 lateral wall and stretches to connecting rod 3 one side, no. 4 lateral wall of arc clamp splice is located trapezoidal fixture block 11 relative position, the trapezoidal fixture block 11 other end is connected with arc clamp splice 12, be annular clamp splice in No. 4 and No. two arc clamp splice 6 and be equipped with a plurality of buffer splice 7, the buffer splice 7 one side that one side of arc clamp splice 7 and two fixed clamp splice are all connected with a plurality of arc clamp splice and No. 4 or a plurality of arc clamp splice, no. 4 other ends are connected with a plurality of buffer clamp splice and a plurality of arc clamp splice 9, no. 4 extension are all connected with a plurality of arc clamp splice corresponding buffer clamp splice 9 or a plurality of arc clamp splice, no. 8, no. 4 extension of arc clamp splice is connected with a plurality of arc clamp splice in the buffer clamp splice in the other end of arc clamp splice in the extension of arc clamp splice and all connected with a plurality of arc clamp splice in the arc clamp splice 9.

The anti-skid pads 15 are respectively fixedly connected to one sides of the buffer blocks 7 close to each other.

The 16 levels of gag lever post are located No. two arc clamp splice 6 tops in the middle of two connecting rods 3, two connecting rod 3 lateral walls respectively with 16 both ends fixed connection of gag lever post, 18 rotations of screw rod are connected in 16 surperficial middle-ends of gag lever post, dead lever 17 levels are located two loop bar 1 middlings and are located gag lever post 16 tops, 17 both ends of dead lever respectively with two loop bar 1 lateral wall fixed connection, 18 tops of screw rod run through dead lever 17 and dead lever 17 lateral wall threaded connection.

Two slide holes 19 are respectively arranged on the bottom surfaces of the two loop bars 1, and the top ends of the two connecting rods 3 extend into the corresponding slide holes 19 to be slidably connected with the inner side walls of the slide holes 19.

The working principle based on the first embodiment is as follows: when the height of an arc clamp splice 4 and an arc clamp splice 6 is required to be adjusted, the screw rod 18 is rotated, two connecting rods 3 are enabled to slide in the sliding hole 19, the height of the arc clamp splice 4 and the arc clamp splice 6 is adjusted, the sliding hole 19 is in sliding connection with the connecting rods 3, the stability of the connecting rods 3 moving up and down is convenient to improve, the vibration of the pipeline is convenient to buffer through the elasticity of the buffer spring 8, the anti-seismic performance of the pipeline is improved, when the pipeline is required to be disassembled and overhauled, the two pull rods 14 are pulled to drive the trapezoidal fixture block 11 to be extracted from the clamping groove 12, the arc clamp splice 4 can slide out of the two connecting rods 3 due to the gravity, the disassembly convenience is improved, and the pipeline is convenient to overhaul and operate.

Example two

As shown in fig. 1 and fig. 3, on the basis of embodiment one, the utility model provides a pipeline antidetonation support, mounting panel 20 is located two loop bar 1 tops, actuating mechanism 2 includes spout 21, spout 21 set up with in the mounting panel 20 bottom surface, loop bar 1 top all with the spout 21 sliding connection that corresponds, slide bar 22 horizontal fixed connection is in spout 21, slide bar 22 runs through corresponding loop bar 1 and loop bar 1 sliding connection, it is equipped with No. two compression spring 23 all to lie in loop bar 1 both ends on slide bar 22, no. two compression spring 23 one end and spout 21 inside wall fixed connection, no. two compression spring 23 other ends and loop bar 1 lateral wall fixed connection.

The working principle based on the second embodiment is as follows: when the two ends of the pipeline are subjected to tension, the tension is transmitted to the connecting rod 3 and the loop bar 1 through the friction force of the anti-slip pad 15, the loop bar 1 slides on the sliding rod 22 to offset the lateral tension applied to the sliding rod, and when the connecting rod 3 and the loop bar 1 are not subjected to the tension, the loop bar 1 can return to the initial position through the elastic force of the second compression spring 23.

The above embodiments are merely some preferred embodiments of the present invention, and those skilled in the art can make various alternative modifications and combinations to the above embodiments based on the technical solution of the present invention and the related teachings of the above embodiments.

Claims (6)

1. A pipeline seismic support, comprising: two loop bars (1), its characterized in that: two all be equipped with on loop bar (1) and be used for carrying out actuating mechanism (2) driven to loop bar (1), two the equal vertical connecting rod (3) that are equipped with in loop bar (1) below, two be equipped with arc clamp splice (4) in the middle of connecting rod (3), arc clamp splice (4) both sides all are equipped with and are used for carrying out joint mechanism (5) of dismouting to arc clamp splice (4).

2. A pipeline antidetonation support according to claim 1, characterized in that, be equipped with No. two arc clamp splice (6) above arc clamp splice (4), no. two arc clamp splice (6) both ends respectively with two connecting rod (3) lateral wall fixed connection, two the relative position of connecting rod (3) lateral wall in an arc clamp splice (4) both ends all sets up flutedly, an arc clamp splice (4) both ends respectively with corresponding recess sliding connection, latch mechanism (5) includes drive groove (10), drive groove (10) set up in the recess inside wall, sliding connection has trapezoidal fixture block (11) in drive groove (10), trapezoidal fixture block (11) one end fixed connection has compression spring (13), a compression spring (13) other end and drive groove (10) inside wall fixed connection, be equipped with pull rod (14) in a compression spring (13), pull rod (14) one end is in trapezoidal fixture block (11) one side fixed connection, pull rod (14) other end runs through connecting rod (3) lateral wall and stretches to connecting rod (3) one side, arc clamp splice (4) is equipped with a plurality of buffer clamp splice (11) and buffer clamp splice (12), no. 12) relative position is set up in trapezoidal fixture block (11) and buffer clamp splice (11), (11) and buffer clamp splice (12) are equipped with one end (11) 7) It is a plurality of the equal fixedly connected with buffer spring (8) in one side both ends that buffer block (7) kept away from each other, it is a plurality of buffer spring (8) other end all with an arc clamp splice (4) or No. two arc clamp splices (6) inside wall fixed connection that correspond, it is a plurality of one side that buffer block (7) kept away from each other is located fixedly connected with extension rod (9) in the middle of two buffer spring (8), and is a plurality of extension rod (9) other end all runs through an arc clamp splice (4) or No. two arc clamp splice (6) lateral walls and an arc clamp splice (4) or No. two arc clamp splice (6) lateral wall sliding connection that correspond.

3. An anti-seismic support for pipelines according to claim 2, characterized in that the side of each of said plurality of buffers (7) adjacent to each other is fixedly connected with a non-slip mat (15).

4. The pipeline anti-seismic support according to claim 2, characterized in that a limiting rod (16) is horizontally arranged above the second arc-shaped clamping block (6) in the middle of the two connecting rods (3), two ends of the limiting rod (16) are respectively and fixedly connected with the side walls of the two connecting rods (3), a screw rod (18) is rotatably connected to the middle end of the surface of the limiting rod (16), a fixing rod (17) is horizontally arranged above the limiting rod (16) in the middle of the two loop bars (1), two ends of the fixing rod (17) are respectively and fixedly connected with the side walls of the two loop bars (1), and the top end of the screw rod (18) penetrates through the fixing rod (17) and is in threaded connection with the side wall of the fixing rod (17).

5. A pipeline anti-seismic support according to claim 1, characterized in that the bottom surfaces of the two loop bars (1) are provided with slide holes (19), and the top ends of the two connecting rods (3) extend into the corresponding slide holes (19) to be slidably connected with the inner side walls of the slide holes (19).

6. The pipeline anti-seismic support according to claim 1, characterized in that a mounting plate (20) is arranged above two loop bars (1), the driving mechanism (2) comprises a sliding groove (21), the sliding groove (21) is formed in the bottom surface of the mounting plate (20), the top ends of the loop bars (1) are respectively connected with the corresponding sliding groove (21) in a sliding manner, a sliding rod (22) is horizontally and fixedly connected in the sliding groove (21), the sliding rod (22) penetrates through the corresponding loop bar (1) and the loop bar (1) in a sliding manner, two compression springs (23) are respectively sleeved at two ends of each loop bar (1) on the sliding rod (22), one end of each compression spring (23) is fixedly connected with the inner side wall of the corresponding sliding groove (21), and the other end of each compression spring (23) is fixedly connected with the side wall of the corresponding loop bar (1).

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