CN217422398U - Anti-seismic support - Google Patents

Abstract

The application provides an anti-seismic support, including two vertical tie rod assemblies and an at least support horizontal pole, the both ends of supporting the horizontal pole are connected with the roof through vertical tie rod assembly to respectively, the support horizontal pole is used for installing the ferrule, wherein, vertical tie rod assembly includes the pull rod body, wears to establish pull up screw rod and roof on the pull rod body are connected, and connect two regulation lock nut on the pull up screw rod are right the pull rod body carries out the centre gripping fixedly, the lower extreme threaded connection of the pull rod body has pull down screw rod, the support horizontal pole cup joints on the pull down screw rod, connect two regulation lock nut that correspond on the pull down screw rod are to corresponding the support horizontal pole carries out the centre gripping fixedly. This application simple structure, convenient to use, safety, antidetonation are effectual.

Description

Anti-seismic support

Technical Field

The utility model relates to an antidetonation support.

Background

At present in the building work progress no matter be building body or interior facility all can strengthen the antidetonation and take precautions against, hope the loss that the reduction earthquake that minimizes caused, all need lay a large amount of water pipes in the building usually, fire water pipe, natural gas pipe etc. satisfy people's daily life demand, traditional mounting means is for with these pipeline snap-on the wall body, building rock during the earthquake can cause the damage to rigid connection's pipeline, make into water, the potential safety hazard of natural gas leakage, therefore the antidetonation support appears, but current simple structure's antidetonation support antidetonation effect is not good, the effectual antidetonation support structure of antidetonation is complicated.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a simple structure, convenient to use, safety, effectual antidetonation support of antidetonation.

In order to solve the technical problem, the utility model provides a following technical scheme:

the utility model provides an anti-seismic support, includes two vertical tie rod subassemblies and an at least support horizontal pole, the both ends of supporting the horizontal pole are connected with the roof through the vertical tie rod subassembly to respectively, the support horizontal pole is used for installing the ferrule, wherein, vertical tie rod subassembly includes the pull rod body, wears to establish pull up screw rod and roof of pull rod body upper end are connected, and connect two regulation lock nut on the pull up screw rod right the pull rod body carries out the centre gripping fixedly, the lower extreme threaded connection of the pull rod body has the pull down screw rod, the support horizontal pole cup joints on the pull down screw rod, connect two regulation lock nut that correspond on the pull down screw rod are to corresponding the support horizontal pole carries out the centre gripping fixedly.

Furtherly still includes two oblique pull rod subassemblies and two linking mountings, it establishes correspondingly to link up the mounting cover on the pull-down screw rod, just link up the mounting and be located the top the support horizontal pole is pressed from both sides together and is established between two regulation lock nuts that correspond, link up the mounting through corresponding oblique pull rod subassembly is connected with the roof, and two oblique pull rod subassembly and two vertical pull rod subassembly is located the coplanar.

Further, still include four oblique pull rod subassemblies and two link up the mounting, it establishes to link up the mounting cover and correspond on the drop-down screw rod, just link up the mounting and be located the top support the horizontal pole and be pressed from both sides together and establish between two regulation lock nuts that correspond, it is through two to link up the mounting be connected with the roof to one side pull rod subassembly, with same link up two that the mounting is connected oblique pull rod subassembly symmetric distribution is in support the horizontal pole both sides.

Furthermore, the vertical diagonal draw bar assembly comprises a draw bar and a mounting seat which is connected with the roof by a pin joint at one end of the draw bar, and the other end of the draw bar is connected with a corresponding pin lug of the corresponding connecting fixing piece by a pin joint.

Furthermore, the pull rod body includes adapter sleeve and connects last C template and lower C template at adapter sleeve both ends, upward draw the screw rod to wear to establish go up on the C template, C template internal fixedly connected with fixation nut down, draw down the screw rod with fixation nut connects, the inner of upward draw the screw rod with the inner of drawing down the screw rod all is located in the adapter sleeve.

Furthermore, gaps are arranged between the upper C-shaped plate and the connecting sleeve and between the lower C-shaped plate and the connecting sleeve.

Furthermore, the supporting cross rod is a square pipe strip, and a plurality of strip-shaped through holes which are arranged in a straight line and used for installing the pipe hoop are formed in the square pipe strip.

Furthermore, the pipe hoop further comprises a bottom rubber pad and a top rubber pad, wherein the bottom rubber pad is matched with the supporting cross rod for use, the top rubber pad is matched with the pipe hoop for use, and the cross sections of the bottom rubber pad and the top rubber pad are both in the shape of Contraband'.

According to the above technical scheme, the utility model discloses following beneficial effect has:

the pipe hoop is mounted in the air by fixing one or more supporting cross rods through the two vertical pull rod assemblies, and the length of each vertical pull rod assembly can be adjusted, so that the pipe hoop is convenient to mount and adjust the height; the bearing capacity of the pipeline centralized installation device can be improved by combining the diagonal draw bar assembly and the vertical draw bar assembly, the pipeline centralized installation device can be suitable for a scene of centralized installation of a plurality of pipelines, and is convenient and reliable to use and simple in structure; the pipeline or the line box is buffered by arranging the bottom rubber pad and the top rubber pad, so that the anti-seismic effect is good.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings required 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 embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the provided drawings without creative efforts.

Fig. 1 is a schematic view of a usage status of the present invention.

Fig. 2 is a schematic view of another usage state of the present invention.

Fig. 3 is a top view of fig. 1.

Fig. 4 is a top view of fig. 2.

Description of reference numerals: the device comprises a vertical pull rod assembly 1, a pull rod body 11, an upper pull screw 12, an adjusting locking nut 14, a supporting cross rod 2, a square pipe strip 21, a connecting fixing piece 3, a pin lug 31, a diagonal pull rod assembly 4, a pull rod 41, a mounting seat 42, a pipe hoop 5, a bottom rubber pad 6 and a top rubber pad 7.

Detailed Description

The embodiments of the invention will be described in detail below with reference to the drawings, but the invention can be implemented in many different ways as defined and covered by the claims.

Referring to fig. 1 to 4, the present application is further described, and as shown in fig. 1, 2 and 3, the anti-seismic support includes two vertical tie rod assemblies 1 and at least one supporting cross rod 2, two ends of the supporting cross rod 2 are respectively connected to a roof through the corresponding vertical tie rod assemblies 1, the supporting cross rod 2 is used for installing a pipe hoop 5, wherein the vertical tie rod assembly 1 includes a tie rod body 11, an upper tie screw 12 penetrating through an upper end of the tie rod body 11 is connected to the roof, and two adjusting locking nuts 14 connected to the upper tie screw 12 clamp and fix the tie rod body 11, a lower tie screw is threadedly connected to a lower end of the tie rod body 11, the supporting cross rod 2 is sleeved on the lower tie screw, and the corresponding two adjusting locking nuts 14 connected to the lower tie screw clamp and fix the corresponding supporting cross rod 2, when the height of the supporting cross rod 2 needs to be adjusted, the adjusting connection is adopted on the pull-down screw rod, the mode of two adjusting locking nuts 14 corresponding to the supporting cross rod 2 is adopted, or the pull-down screw rod is directly rotated to adjust the extending length of the pull-down screw rod, or the adjusting connection is adopted on the pull-up screw rod 12, two adjusting locking nuts 14 are used for adjusting one or more combinations in the extending length of the pull-up screw rod 12, the position adjusting range of the main fixed cross rod 2 can be enlarged, and the practicability of the application is higher.

Preferably, the support cross rod 2 is a square tube strip 21, and the square tube strip 21 is provided with a plurality of strip-shaped through holes which are arranged in a straight line and used for installing the pipe hoop 5.

According to the actual use condition, support horizontal pole 2 can set up to many, support horizontal pole 2 can follow vertical plane dislocation set when many, realize pipeline, the installation of line box multilayer, can be applicable to narrower passageway and use.

In order to improve the use reliability of this application, this application still includes two oblique pull rod subassemblies 4 and two link up mounting 3, link up 3 covers of mounting and establish corresponding on the drop-down screw, just link up mounting 3 and be located the top support horizontal pole 2 is pressed from both sides together and is established between two regulation lock nut 14 that correspond, link up mounting 3 through corresponding oblique pull rod subassembly 4 is connected with the roof, and two oblique pull rod subassembly 4 and two vertical pull rod subassembly 1 is located the coplanar. Work as 1 unexpected harm of vertical pull rod subassembly and when breaking away from with the roof accident, two oblique pull rod subassembly 4 also can make support horizontal pole 2 and keep continuing to play the effect of support to pipeline and line box in the position that corresponds, reduce and appear support the risk probability that horizontal pole 2 accident falls, just oblique pull rod subassembly 4 and the cooperation of linking up 3 uses and can also improve the bearing capacity of this application, is convenient for satisfy great weight pipeline and uses.

In order to reduce and appear can also guarantee when supporting the unexpected risk probability that falls of horizontal pole 2 the support horizontal pole 2 position is stable, this application still includes four oblique pull rod subassembly 4 and two linking mounting 3, link up 3 covers of mounting and establish corresponding on the pull-down screw rod, just link up mounting 3 and be located the top support horizontal pole 2 is pressed from both sides together and is established between two regulation lock nut 14 that correspond, it is present through two to link up mounting 3 oblique pull rod subassembly 4 is connected with the roof, and is same link up two that mounting 3 is connected oblique pull rod subassembly 4 symmetric distribution is in support horizontal pole 2 both sides. Four oblique pull rod subassembly 4 and two link up the cooperation of mounting 3 and use, work as two vertical pull rod subassembly 1 breaks away from simultaneously also can guarantee support 2 stable unchangeable in position of horizontal pole, make the reliability of this application higher.

This application is specific, vertical diagonal member subassembly 4 includes pull rod 41 and rotation pin joint pull rod 41 is served and is connected with the mount pad 42 that the roof is connected, the pull rod 41 other end with correspond the round pin ear 31 rotation pin joint that links up the correspondence of mounting 3 is connected. The mounting seat 42 can be reliably attached to the roof and then mounted, so that the mounting is reliable and the structure is simple.

In order to make the pull rod body 11 facilitates the processing, the pull rod body 11 is including adopting the adapter sleeve that square tube made and connecting the last C template and the lower C template at adapter sleeve both ends, upward pull screw 12 wears to establish go up on the C template, C template internal fixation is connected with fixation nut down, down pull screw with fixation nut connects, upward pull screw 12 the inner with down pull screw's the inner all is located in the adapter sleeve. And the vertical pull rod assembly 1 is attractive in appearance on the premise of satisfying the adjusting function, so that the engineering attractiveness is better.

Gaps are arranged between the upper C-shaped plate and the connecting sleeve and between the lower C-shaped plate and the connecting sleeve. Go up the C template with clearance width between the adapter sleeve is greater than adjust lock nut 14's thickness, is convenient for adjust lock nut 14 and observation the inner actual position of pull-up screw 12 avoids the adjustment excessively, down the C template with clearance width between the adapter sleeve is greater than fixation nut's thickness, is convenient for observe the inner actual position of pull-down screw avoids the adjustment excessively.

In order to improve the shock resistance of this application, this application still includes rubber gasket 6 and top rubber gasket 7 in the end, rubber gasket 6 in the end with support horizontal pole 2 cooperation and use, top rubber gasket 7 with pipe hoop 5 cooperation is used, just rubber gasket 6 in the end with the cross section of top rubber gasket 7 all is "Contraband" shape, avoids rubber gasket 6 in the end with the separation appears in the random removal of top rubber gasket 7 to simple to operate. Bottom rubber pad 6 with top rubber pad 7 set up and be used for avoiding pipeline or line box and this application for rigid connection, utilize bottom rubber pad 6 with top rubber pad 7 absorbs partly vibrations, makes this application have certain antidetonation effect.

The above is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and various modifications and changes will occur to those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (8)

1. An anti-seismic support is characterized by comprising two vertical pull rod assemblies (1) and at least one supporting cross rod (2), two ends of the supporting cross rod (2) are respectively connected with a roof through opposite vertical pull rod assemblies (1), the supporting cross rod (2) is used for installing pipe hoops (5), wherein the vertical pull rod assembly (1) comprises a pull rod body (11), an upper pull screw rod (12) which is arranged at the upper end of the pull rod body (11) in a penetrating way is connected with a roof, and two adjusting locking nuts (14) connected to the pull-up screw (12) clamp and fix the pull rod body (11), the lower end of the pull rod body (11) is in threaded connection with a pull-down screw rod, the supporting cross rod (2) is sleeved on the pull-down screw rod, and two corresponding adjusting and locking nuts (14) connected to the pull-down screw rod clamp and fix the corresponding supporting cross rod (2).

2. An anti-seismic support according to claim 1, further comprising two diagonal draw bar assemblies (4) and two linking fixtures (3), wherein the linking fixtures (3) are sleeved on the corresponding pull-down screws, the linking fixtures (3) and the supporting cross bars (2) at the tops are clamped between the corresponding two adjusting locking nuts (14), the linking fixtures (3) are connected with the roof through the corresponding diagonal draw bar assemblies (4), and the two diagonal draw bar assemblies (4) and the two vertical draw bar assemblies (1) are located on the same plane.

3. An anti-seismic support according to claim 1, further comprising four diagonal draw bar assemblies (4) and two linking fixtures (3), wherein the linking fixtures (3) are sleeved on the corresponding pull-down screws, the linking fixtures (3) and the supporting cross bar (2) at the top are clamped between the two corresponding adjusting locking nuts (14), the linking fixtures (3) are connected with the roof through the two diagonal draw bar assemblies (4), and the two diagonal draw bar assemblies (4) connected with the same linking fixtures (3) are symmetrically distributed on two sides of the supporting cross bar (2).

4. An earthquake-resistant support according to claim 2 or 3, characterized in that said diagonal draw bar assembly (4) comprises a draw bar (41) and a mounting base (42) pinned to one end of said draw bar (41) and connected to the roof, the other end of said draw bar (41) being pinned to a corresponding pin ear (31) of the corresponding engagement fixture (3).

5. An earthquake-resistant support according to any one of claims 1 to 3, wherein the pull rod body (11) comprises a connecting sleeve, and an upper C-shaped plate and a lower C-shaped plate which are connected to two ends of the connecting sleeve, the upper pull screw (12) penetrates through the upper C-shaped plate, a fixing nut is fixedly connected in the lower C-shaped plate, the lower pull screw is connected with the fixing nut, and the inner end of the upper pull screw (12) and the inner end of the lower pull screw are both located in the connecting sleeve.

6. An earthquake-resistant support according to claim 5, wherein there is a gap between the upper C-shaped plate and the connection sleeve and between the lower C-shaped plate and the connection sleeve.

7. An earthquake-resistant support according to any one of claims 1 to 3, characterized in that the supporting cross-bar (2) is a square tubular bar (21), and the square tubular bar (21) has a plurality of strip-shaped through holes arranged in a straight line for the installation of the pipe clamps (5).

8. An anti-seismic support according to claim 7, further comprising a bottom rubber pad (6) and a top rubber pad (7), wherein the bottom rubber pad (6) is used in cooperation with the support rail (2), the top rubber pad (7) is used in cooperation with the pipe hoop (5), and the cross sections of the bottom rubber pad (6) and the top rubber pad (7) are both "Contraband".

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