CN214999861U - Spring pipeline antidetonation gallows - Google Patents
Spring pipeline antidetonation gallows Download PDFInfo
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- CN214999861U CN214999861U CN202121671195.4U CN202121671195U CN214999861U CN 214999861 U CN214999861 U CN 214999861U CN 202121671195 U CN202121671195 U CN 202121671195U CN 214999861 U CN214999861 U CN 214999861U
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Abstract
The application discloses a spring type pipeline anti-seismic hanger which comprises a main supporting structural member, an oblique supporting structural member and a pipe clamp; the main supporting structural part comprises a main supporting channel steel, a pressing plate is installed in a groove of the main supporting channel steel, a supporting plate is welded at the lower end of the main supporting channel steel, a hanging plate is arranged between the pressing plate and the supporting plate, an upper spring is installed between the hanging plate and the pressing plate, a lower spring is installed between the hanging plate and the supporting plate, a hanging rod is connected to the hanging plate, and the lower end of the hanging rod extends downwards out of the supporting plate to form a hanging pipe end; a main support fixing piece is fixedly arranged at the top of the main support channel steel; the oblique supporting structural member comprises an oblique channel steel, and a lower anti-seismic connecting piece and an upper anti-seismic connecting piece which are arranged at two ends of the oblique channel steel; the hanging end of the suspender and the lower anti-seismic connecting piece of the oblique supporting structural member are both connected to the pipe clamp. In this application, utilize upper portion spring and lower part spring, reduce external impact force, avoided the pipeline when receiving external force, produced secondary damage.
Description
Technical Field
The utility model relates to a spring pipeline antidetonation gallows.
Background
In order to ensure the safety of electromechanical equipment and pipelines in a building, an anti-seismic hanging bracket is arranged in the building to provide anti-seismic measures for the electromechanical equipment and the pipelines, so that when natural disasters such as earthquakes occur, casualties or property loss of people in the building can be reduced or avoided, and more time is provided for the safe escape of the people in the building.
Current antidetonation gallows all generally sets up side direction bracing and vertical bracing, and the pipeline provides the shock-absorbing measure of two directions, but the main tributary structure still is the rigidity pendant, and this structural design is when receiving outside vibration, and external force can be through on the main tributary structure transmits the pipeline, and when receiving great external force, the pipeline can use the main tributary structure to produce as the central point and bend, makes the pipeline cause destruction.
SUMMERY OF THE UTILITY MODEL
In order to solve the problems, the utility model provides a spring type pipeline anti-seismic hanger, which comprises a main supporting structural member, an oblique supporting structural member and a pipe clamp;
the main supporting structural part comprises a main supporting channel steel extending along the vertical direction, a pressing plate is detachably mounted in a groove of the main supporting channel steel, a supporting plate is welded at the lower end of the main supporting channel steel, a hanging plate is movably arranged between the pressing plate and the supporting plate, an upper spring is mounted between the hanging plate and the pressing plate, a lower spring is mounted between the hanging plate and the supporting plate, a hanging rod freely penetrates through center holes of the supporting plate and the lower spring from bottom to top and then is fixedly connected to the hanging plate, and the lower end of the hanging rod extends downwards out of the supporting plate to form a hanging pipe end; a main support fixing piece is fixedly arranged at the top of the main support channel steel;
the inclined supporting structural part comprises an inclined channel steel, a lower anti-seismic connecting piece arranged at the lower end of the inclined channel steel and an upper anti-seismic connecting piece arranged at the upper end of the inclined channel steel, wherein an inclined supporting fixing piece is arranged on the upper anti-seismic connecting piece;
the main support fixing part and the diagonal support fixing part are used for respectively fixedly connecting the main support structural part and the diagonal support structural part to a building;
the pipe clamp is used for clamping on a pipeline, and the hanging end of the suspender and the lower anti-seismic connecting piece of the oblique supporting structural member are detachably connected to the pipe clamp. Preferably, the bracing fixture is a second expansion bolt for attachment to a building.
In this application, set up upper portion spring and lower part spring in main tributary supporting structure spare, because hang the board and set up movably between support clamp plate and backup pad, when the pipeline received external force, can remove on the upper and lower direction to reduce external impact force, because the pipeline is by the centre gripping in the pipe clamp, avoided the pipeline when receiving external force, produce the phenomenon of beating, cause secondary damage to the pipeline.
Specifically, locating holes are formed in two side walls of the main supporting channel steel, the locating holes in the two side walls are arranged oppositely, a supporting hole is formed in each of two sides of the pressing plate in the horizontal direction, the supporting holes are threaded holes, two supporting bolts penetrate through the locating holes in the two side walls respectively and then are screwed in the supporting holes, and the pressing plate is detachably mounted in the groove of the main supporting channel steel. The design can be used for replacing the upper spring and the lower spring with different lengths and compression strengths according to different requirements so as to adapt to different requirements.
The pipe clamp comprises a first clamping piece and a second clamping piece which are oppositely arranged, wherein two ends of the first clamping piece are respectively formed into first locking ends, two ends of the second clamping piece are respectively formed into second locking ends, and the two first locking ends of the first clamping piece are respectively detachably connected with one second locking end of the second clamping piece; the outer side of the first clamping piece is welded with a first suspension arm extending upwards, the outer side of the second clamping piece is welded with a second suspension arm extending upwards, and two ends of the top clamping piece are respectively connected to the first suspension arm and the second suspension arm through a connecting bolt;
the hanging end of the suspender is fixed on the top clamping piece by adopting a nut, and the lower anti-seismic connecting piece is connected to the connecting bolt. The design can ensure that the pipeline is stably kept in the pipe clamp, when the pipeline is impacted by external force, the pipeline cannot be separated from the pipe clamp, and the pipeline buffers external impact force by virtue of the main supporting structural member and the inclined supporting structural member.
Further, after installation is completed, both the upper spring and the lower spring are in a compressed state. This design can make the pipeline when receiving external force and assault, and the homoenergetic is realized buffering in upwards and two directions down, reduces the impact force to the pipeline.
Specifically, the main-stay fixture includes a threaded rod welded to the top of the main-stay channel, a first expansion bolt for attachment to the building, and an internally threaded sleeve threaded onto the threaded rod and the first expansion bolt. By adopting the structure, the main supporting structural part can be conveniently connected to a building, and the height of the spring type pipeline anti-seismic hanger in the vertical direction can be adjusted.
Drawings
Fig. 1 is a schematic structural diagram of an embodiment of the present invention.
FIG. 2 is a schematic view of the structure of the upper seismic connector.
Detailed Description
Referring to fig. 1, a spring type anti-seismic hanger for pipes includes a main support structure 10, an inclined support structure 20, and a pipe clamp 30.
The main supporting structure 10 includes a main supporting channel 11 extending in a vertical direction, and a pressing plate 14 is detachably mounted in a groove 111 of the main supporting channel. In this embodiment, the two side walls of the main supporting channel 11 are provided with positioning holes 141, the positioning holes 141 on the two side walls are disposed oppositely, two sides of the pressing plate 14 in the horizontal direction are both provided with a supporting hole, the supporting hole is a threaded hole, and two supporting bolts 142 respectively pass through the positioning holes on the two side walls and then are screwed into a supporting hole, so as to detachably mount the pressing plate 14 in the groove of the main supporting channel 11.
A supporting plate 16 is welded at the lower end of the main supporting channel steel, a hanging plate 15 is movably arranged between a pressing plate 14 and the supporting plate 16, an upper spring 12 is arranged between the hanging plate 15 and the pressing plate 14, a lower spring 13 is arranged between the hanging plate 15 and the supporting plate 16, a hanging rod 17 freely penetrates through center holes of the supporting plate 16 and the lower spring 13 from bottom to top and then is fixedly connected to the hanging plate 15, and the lower end of the hanging rod 17 extends out of the supporting plate 16 downwards to form a hanging pipe end. After the installation is finished, the upper spring and the lower spring are both in a compressed state, and the hanging plate is located in the middle between the pressing plate and the supporting plate.
And a main support fixing piece is fixedly arranged at the top of the main support channel steel 11. The main stay fixture includes a threaded rod 18 welded to the top of the main stay channel 11, a first expansion bolt 191 for connection to the building 100, and an internally threaded sleeve 19 threaded over the threaded rod 18 and the first expansion bolt 191. I.e., the main support fixture, is used to fixedly attach the main support structure to the building.
The inclined support structure comprises an inclined channel steel 21, a lower anti-seismic connector 22 arranged at the lower end of the inclined channel steel 21 and an upper anti-seismic connector 23 arranged at the upper end of the inclined channel steel, and an inclined support fixing piece 24 is installed on the upper anti-seismic connector. In this embodiment, the brace fixing member 24 is a second expansion bolt for connecting to the building 100. I.e. the diagonal brace fixing members are used to fixedly attach the diagonal brace structural members to the building.
The pipe clamp 30 includes a first clamping piece 311 and a second clamping piece 312 which are oppositely disposed, two ends of the first clamping piece are respectively formed into a first locking end 3111, one of the two first locking ends 3111 faces upward, and the other first locking end faces downward. Two ends of the second clip piece are respectively formed into a second locking end 3121, one of the two second locking ends 3121 faces upward, and the other second locking end faces downward. The two first locking ends are detachably connected to one second locking end via a locking bolt 315, respectively. The first and second jaws clamp onto the pipe 200.
A first boom 313 extending upwards is welded on the outer side of the first clamping piece 311, a second boom 314 extending upwards is welded on the outer side of the second clamping piece 312, the top clamping piece 32 is in a U shape with an opening facing downwards, and two ends of the top clamping piece are respectively connected to the first boom and the second boom through a connecting bolt 33.
The hanging end of the suspender is fixed on the top clamping piece by adopting a nut, and the lower anti-seismic connecting piece is connected to the connecting bolt.
The lower anti-seismic connecting piece 22 and the upper anti-seismic connecting piece 23 have the same structure, are the prior art, and are briefly described as follows: referring to fig. 2, the upper anti-seismic connector 23 includes a first connector 41 and a second connector 42, one end of the first connector 41 is connected to the bottom plate of the inclined channel 21 through a first bolt 43, the other end of the first connector 41 is rotatably hinged to one end of the second connector 42 through a hinge shaft 44, a connecting plate 45 is disposed at the other end of the second connector, and the second connecting bolt is connected to the connecting plate 45.
Claims (6)
1. A spring type pipeline anti-seismic hanger is characterized by comprising a main supporting structural member, an oblique supporting structural member and a pipe clamp;
the main supporting structural part comprises a main supporting channel steel extending along the vertical direction, a pressing plate is detachably mounted in a groove of the main supporting channel steel, a supporting plate is welded at the lower end of the main supporting channel steel, a hanging plate is movably arranged between the pressing plate and the supporting plate, an upper spring is mounted between the hanging plate and the pressing plate, a lower spring is mounted between the hanging plate and the supporting plate, a hanging rod freely penetrates through center holes of the supporting plate and the lower spring from bottom to top and then is fixedly connected to the hanging plate, and the lower end of the hanging rod extends downwards out of the supporting plate to form a hanging pipe end; a main support fixing piece is fixedly arranged at the top of the main support channel steel;
the inclined supporting structural part comprises an inclined channel steel, a lower anti-seismic connecting piece arranged at the lower end of the inclined channel steel and an upper anti-seismic connecting piece arranged at the upper end of the inclined channel steel, wherein an inclined supporting fixing piece is arranged on the upper anti-seismic connecting piece;
the main support fixing part and the diagonal support fixing part are used for respectively fixedly connecting the main support structural part and the diagonal support structural part to a building;
the pipe clamp is used for clamping on a pipeline, and the hanging end of the suspender and the lower anti-seismic connecting piece of the oblique supporting structural member are detachably connected to the pipe clamp.
2. The spring type pipe seismic hanger of claim 1,
the locating holes are formed in two side walls of the main supporting channel steel, the locating holes in the two side walls are arranged oppositely, a supporting hole is formed in each of two sides of the horizontal direction of the supporting pressing plate, the supporting holes are threaded holes, two supporting bolts penetrate through the locating holes in the two side walls respectively and then are screwed in the supporting holes, and the supporting pressing plate is detachably mounted in the groove of the main supporting channel steel.
3. The spring type pipe seismic hanger of claim 1,
the pipe clamp comprises a first clamping piece and a second clamping piece which are oppositely arranged, wherein two ends of the first clamping piece are respectively formed into first locking ends, two ends of the second clamping piece are respectively formed into second locking ends, and the two first locking ends of the first clamping piece are respectively detachably connected with one second locking end of the second clamping piece; the outer side of the first clamping piece is welded with a first suspension arm extending upwards, the outer side of the second clamping piece is welded with a second suspension arm extending upwards, and two ends of the top clamping piece are respectively connected to the first suspension arm and the second suspension arm through a connecting bolt;
the hanging end of the suspender is fixed on the top clamping piece by adopting a nut, and the lower anti-seismic connecting piece is connected to the connecting bolt.
4. The spring type pipe seismic hanger of claim 1,
after installation is complete, both the upper and lower springs are in a compressed state.
5. The spring type pipe seismic hanger of claim 1,
the main-stay fixture includes a threaded rod welded to the top of the main-stay channel, a first expansion bolt for attachment to the building, and an internally threaded sleeve threaded onto the threaded rod and the first expansion bolt.
6. The spring type pipe seismic hanger of claim 1,
the brace fixing member is a second expansion bolt for connecting to the building.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202121671195.4U CN214999861U (en) | 2021-07-22 | 2021-07-22 | Spring pipeline antidetonation gallows |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202121671195.4U CN214999861U (en) | 2021-07-22 | 2021-07-22 | Spring pipeline antidetonation gallows |
Publications (1)
Publication Number | Publication Date |
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CN214999861U true CN214999861U (en) | 2021-12-03 |
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Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN202121671195.4U Active CN214999861U (en) | 2021-07-22 | 2021-07-22 | Spring pipeline antidetonation gallows |
Country Status (1)
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CN (1) | CN214999861U (en) |
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2021
- 2021-07-22 CN CN202121671195.4U patent/CN214999861U/en active Active
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