CN216479593U - Building structure design antidetonation connection structure - Google Patents

Abstract

The utility model discloses a building structure design anti-seismic connecting structure and relates to the field of building structures. This building structure design antidetonation connection structure includes device roof and lift sliding control board, the bottom fixedly connected with support arm of device roof, the bottom fixedly connected with device bottom plate of support arm, the first buffer gear of top fixedly connected with of device bottom plate. This architectural structure design antidetonation connection structure is when using, and the convenience carries out quick installation fixedly to the inside pipeline of building to make the pipeline install fixedly through the antidetonation structure, when the circumstances such as emergence earthquake, the pipeline can have the ability of moving away to avoid possible earthquakes, can reduce the loss, this antidetonation connection mechanism is when installing fixedly to the pipeline in addition, easy operation is convenient, labour saving and time saving, after fixing pipeline card, the spacing effectual of support of pipeline, the ability of moving away to avoid possible earthquakes is strong.

Description

Building structure design antidetonation connection structure

Technical Field

The utility model relates to the technical field of building structures, in particular to a building structure design anti-seismic connecting structure.

Background

At present, more and more pipeline devices are used in buildings, when natural disasters such as earthquakes occur, secondary earthquakes (such as fire disasters, gas leakage and the like) in the buildings can be caused, and therefore anti-seismic connecting structures corresponding to pipelines are arranged when building structure design is carried out.

Most of the existing building structure design anti-seismic connecting structures are complex in structure, operation is inconvenient when the pipelines are connected and fixed, the installation and fixing process is complex, time and labor are wasted, and the pipeline can be not supported well in a limiting effect after the pipelines are installed and fixed, so that the anti-seismic capacity of the pipelines in the using process is insufficient.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

Aiming at the defects of the prior art, the utility model discloses an earthquake-resistant connecting structure designed for a building structure, which aims to solve the problems in the background technology.

(II) technical scheme

In order to achieve the purpose, the utility model is realized by the following technical scheme: a building structural design seismic connection, comprising:

the device comprises a device top plate, wherein the bottom of the device top plate is fixedly connected with a supporting arm, the bottom of the supporting arm is fixedly connected with a device bottom plate, the top of the device bottom plate is fixedly connected with a first buffer mechanism, the top of the first buffer mechanism is fixedly connected with a first arc-shaped clamping block, and the bottom of the supporting arm is connected with a screw rod through a bearing thread;

the lifting slide control plate is connected to the supporting arm in a sliding mode, a threaded hole is formed in the lifting slide control plate and is connected with the lead screw in a threaded mode, the bottom of the lifting slide control plate is fixedly connected with a second buffer mechanism, and the bottom of the second buffer mechanism is fixedly connected with a second arc-shaped clamping block.

Preferably, first buffer gear includes sleeve and slide bar, slide bar fixed connection is in the bottom of first arc clamp piece, sleeve fixed connection is at the top of device bottom plate, fixedly connected with buffer spring on the telescopic inner chamber diapire, buffer spring's top and slide bar are fixed to be continuous, slide bar sliding connection is in the sleeve.

Preferably, the side wall of the supporting arm is fixedly connected with a vertical block, and the vertical block is provided with a bearing corresponding to the screw rod.

Preferably, the bottom of the screw rod is fixedly connected with a rotating handle.

Preferably, the lifting sliding control plate is provided with a square sliding chute corresponding to the supporting arm.

Preferably, the device top plate is fixed on the wall body through an expansion bolt, the bottom of the device top plate is fixedly connected with two groups of limiting support rods, the two sides of the lifting sliding control plate are fixedly connected with limiting sleeves, and the limiting sleeves are movably sleeved on the limiting support rods.

The utility model discloses a building structure design anti-seismic connecting structure, which has the following beneficial effects:

1. this building structure design antidetonation connection structure, when using, it is fixed that the convenient pipeline to building inside carries out quick installation to make the pipeline install fixedly through the antidetonation structure, when the circumstances such as emergence earthquake, the pipeline can have shock absorber ability, can reduce the loss, and this antidetonation connection structure is when installing fixedly to the pipeline in addition, easy operation is convenient, and labour saving and time saving fixes the back to the pipeline fastening, and the spacing effectual of support of pipeline, shock absorber ability is strong, satisfies the user demand.

2. This building structure design antidetonation connection structure, the spacing bracing piece that sets up and spacing sheathed tube cooperation realize on the one hand that to provide the side direction support to the lift sliding control board, and on the other hand for the lift sliding control board is driving the second arc and is pressing from both sides tight piece and press from both sides the tight fixed back with the pipeline, guarantees to press from both sides tight fixed stability, makes the holding power to the pipeline stronger, and the support is whole more stable.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a front view of the present invention;

FIG. 3 is a structural view of the lift slide control plate of the present invention;

fig. 4 is a structural view of the screw of the present invention.

In the figure: 1. a device top plate; 2. a support arm; 3. a device chassis; 4. a first buffer mechanism; 401. a sleeve; 402. a buffer spring; 403. a slide bar; 5. a first arcuate clamping block; 6. a lifting sliding control plate; 601. a square chute; 602. a threaded hole; 7. a second buffer mechanism; 8. a second arc-shaped clamping block; 9. a vertical block; 10. a screw rod; 11. rotating the handle; 12. a limiting support rod; 13. and (5) limiting a sleeve.

Detailed Description

The embodiment of the utility model discloses a building structure design anti-seismic connecting structure, as shown in figures 1-4, comprising:

the device comprises a device top plate 1, wherein the bottom of the device top plate 1 is fixedly connected with a supporting arm 2, the bottom of the supporting arm 2 is fixedly connected with a device bottom plate 3, the top of the device bottom plate 3 is fixedly connected with a first buffer mechanism 4, the top of the first buffer mechanism 4 is fixedly connected with a first arc-shaped clamping block 5, and the bottom of the supporting arm 2 is connected with a screw rod 10 through a bearing thread;

the lifting slide control plate 6 is connected to the support arm 2 in a sliding mode, a threaded hole 602 is formed in the lifting slide control plate 6, the threaded hole 602 is connected with the lead screw 10 in a threaded mode, the bottom of the lifting slide control plate 6 is fixedly connected with a second buffer mechanism 7, and the bottom of the second buffer mechanism 7 is fixedly connected with a second arc-shaped clamping block 8.

According to the attached fig. 1 and 2, the first buffer mechanism 4 comprises a sleeve 401 and a sliding rod 403, the sliding rod 403 is fixedly connected to the bottom of the first arc-shaped clamping block 5, the sleeve 401 is fixedly connected to the top of the device bottom plate 3, a buffer spring 402 is fixedly connected to the bottom wall of the inner cavity of the sleeve 401, the top of the buffer spring 402 is fixedly connected to the sliding rod 403, the sliding rod 403 is slidably connected to the sleeve 401, the first buffer mechanism 4 and the second buffer mechanism 7 are identical in structure, the first buffer mechanism 4 is simple in structure, stable in operation and not easy to damage, and the buffering effect on a pipeline is good.

According to the attached drawings 1 and 4, the side wall of the supporting arm 2 is fixedly connected with a vertical block 9, a bearing corresponding to the screw rod 10 is arranged on the vertical block 9, and the vertical block 9 can support and limit the screw rod 10, so that the stress stability of the screw rod 10 is ensured.

According to the attached drawing 1, the bottom of the screw rod 10 is fixedly connected with a rotating handle 11, and the rotating handle 11 is arranged to facilitate a user to rotate the screw rod 10, so that the height of the lifting sliding control plate 6 can be adjusted.

According to the drawings of fig. 1 and 3, the lifting sliding control board 6 is provided with a square chute 601 corresponding to the support arm 2, and the square chute 601 realizes that the lifting sliding control board 6 is sleeved on the support arm 2 and slides to be limited.

According to fig. 1, device roof 1 passes through expansion bolts to be fixed on the wall body, the two sets of spacing bracing pieces of bottom fixedly connected with 12 of device roof 1, the both sides fixedly connected with spacing sleeve pipe 13 of lift slip control panel 6, spacing sleeve pipe 13 activity cup joints on spacing bracing piece 12, spacing bracing piece 12 and the spacing sleeve pipe 13's of setting cooperation realizes on the one hand that to provide the side direction support to lift slip control panel 6, on the other hand, make lift slip control panel 6 drive the second arc and press from both sides tight piece 8 and press from both sides the pipeline and press from both sides tight fixed back, guarantee to press from both sides tight fixed stability, make the holding power to the pipeline stronger, the support is whole more stable.

The working principle is as follows: the device is when using, and the convenience is fixed to the quick installation of the inside pipeline of building to make the pipeline install fixedly through shock-resistant structure, when the circumstances such as emergence earthquake, the pipeline can have shock absorber ability, can reduce the loss, and this antidetonation coupling mechanism is when installing fixedly to the pipeline in addition, easy operation is convenient, labour saving and time saving, after fixing the pipeline card, the spacing effectual of support of pipeline, shock absorber ability is strong, satisfies the user demand.

When installing fixedly, at first use expansion bolts with device roof 1 fixed connection on the wall body, then when carrying out putting up of pipeline, place the pipeline on first arc presss from both sides tight piece 5, the tight piece 5 of first arc clamp is laminated with the bottom of pipeline, rotatory handle 11 of rotating this moment can drive the tight piece 8 downstream of second arc clamp to finally realize pressing from both sides tight fixedly to the pipeline, realize spacing the support to the pipeline when making the pipeline put up.

Can realize the shock attenuation to the pipeline through first buffer gear 4 and the second buffer gear 7 that set up, first buffer gear 4 is the same with second buffer gear 7's structure, and its inside all is equipped with buffer spring 402, and when taking place vibrations, buffer spring 402 receives the compression to the realization absorbs the impact of vibrations.

When rotatory rotation handle 11, it rotates to rotate handle 11 and drive lead screw 10, lead screw 10 drives lift slide control board 6 downstream, lift slide control board 6 drives second buffer gear 7 downstream, second buffer gear 7 drives the tight piece 8 downstream of second arc clamp, when the tight piece 8 of second arc clamp offsets with the pipeline, finally can drive first buffer gear 4 and the shrink of second buffer gear 7, its inside buffer spring 402 all receives the compression, thereby it is fixed effectual to make the tight piece 8 of first arc clamp and the tight piece 8 of second arc clamp to the chucking of pipeline, and simultaneously, when receiving vibrations, certain buffering and the ability in clearance have again.

The foregoing shows and describes the general principles and broad features of the present invention and advantages thereof. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the utility model as claimed. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (6)

1. A building structural design earthquake-resistant connection structure, comprising:

the device comprises a device top plate (1), wherein the bottom of the device top plate (1) is fixedly connected with a supporting arm (2), the bottom of the supporting arm (2) is fixedly connected with a device bottom plate (3), the top of the device bottom plate (3) is fixedly connected with a first buffer mechanism (4), the top of the first buffer mechanism (4) is fixedly connected with a first arc-shaped clamping block (5), and the bottom of the supporting arm (2) is connected with a screw rod (10) through a bearing thread;

lifting slide control board (6), lifting slide control board (6) sliding connection is on support arm (2), set up threaded hole (602) on lifting slide control board (6), threaded hole (602) and lead screw (10) threaded connection, the bottom fixedly connected with second buffer gear (7) of lifting slide control board (6), the bottom fixedly connected with second arc of second buffer gear (7) presss from both sides tight piece (8).

2. A building structure designed earthquake-resistant connection structure according to claim 1, characterized in that: first buffer gear (4) include sleeve (401) and slide bar (403), slide bar (403) fixed connection is in the bottom of first arc clamp piece (5), sleeve (401) fixed connection is at the top of device bottom plate (3), fixedly connected with buffer spring (402) on the inner chamber diapire of sleeve (401), the top and slide bar (403) of buffer spring (402) are fixed continuous, slide bar (403) sliding connection is in sleeve (401).

3. A building structure designed earthquake-resistant connection structure according to claim 1, characterized in that: the side wall of the supporting arm (2) is fixedly connected with a vertical block (9), and a bearing corresponding to the screw rod (10) is arranged on the vertical block (9).

4. A building structure designed earthquake-resistant connection structure according to claim 3, characterized in that: the bottom of the screw rod (10) is fixedly connected with a rotating handle (11).

5. A building structure designed earthquake-resistant connection structure according to claim 1, characterized in that: the lifting sliding control plate (6) is provided with a square sliding groove (601) corresponding to the supporting arm (2).

6. A building structure designed earthquake-resistant connection structure according to claim 1, characterized in that: the device is characterized in that the device top plate (1) is fixed on a wall body through expansion bolts, the bottom of the device top plate (1) is fixedly connected with two sets of limiting support rods (12), two sides of the lifting sliding control plate (6) are fixedly connected with limiting sleeves (13), and the limiting sleeves (13) are movably sleeved on the limiting support rods (12).

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