CN215928805U

CN215928805U - Anti-seismic support for building

Info

Publication number: CN215928805U
Application number: CN202121959542.3U
Authority: CN
Inventors: 杨帅
Original assignee: Shanghai Jiubei Technology Co ltd
Current assignee: Shanghai Jiubei Technology Co ltd
Priority date: 2021-08-18
Filing date: 2021-08-18
Publication date: 2022-03-01
Anticipated expiration: 2031-08-18

Abstract

The utility model belongs to the technical field of buildings, and particularly relates to an earthquake-proof support for buildings, which comprises a mounting plate, mounting holes, a supporting mechanism and a clamping mechanism, wherein the mounting holes are respectively formed in four corners of the top surface of the mounting plate, the bottom end of the supporting mechanism is connected with the middle of the top surface of the mounting plate, the bottom of the clamping mechanism is fixedly connected with the top of the supporting mechanism, and the supporting mechanism comprises a standing plate, a fixing frame, a supporting column, a supporting plate, a transmission groove, a shifting rod, a main position pipe, an earthquake-proof spring I and a main motor. This antidetonation support for building through the improvement to installing support for the pipeline, at first can install and fix the pipeline of different diameters fast, has increased staff's installation effectiveness with regard to very big degree like this, and has reduced staff's the work dynamics, then can also the quick adjustment pipeline place the height, has increased the practicality of support with regard to very big degree like this, and finally, whole installing support still possesses dual antidetonation effect.

Description

Anti-seismic support for building

Technical Field

The utility model relates to the technical field of buildings, in particular to an earthquake-resistant support for buildings.

Background

Seismic supports are commonly used in construction. In the building engineering, need install various pipelines, the installation of pipeline adopts antidetonation support to carry out the bearing usually, and the pipeline is fixed a position through the staple bolt that has the bolt, but current piping erection needs a plurality of bolted connection, and the installation is very inconvenient, leads to the installation effectiveness lower, and simultaneously, current for the pipeline installing support antidetonation effect is relatively poor to easily cause the pipeline to damage, so with regard to very big degree reduced installing support's practicality.

SUMMERY OF THE UTILITY MODEL

The utility model provides an anti-seismic support for a building, which is based on the technical problems that the existing mounting support for pipelines is inconvenient for mounting pipelines, low in efficiency, poor in anti-seismic effect, easy to cause pipeline damage and low in practicability.

The utility model provides an earthquake-resistant support for buildings, which comprises a mounting plate, mounting holes, a supporting mechanism and a clamping mechanism, wherein the mounting holes are respectively formed in four corners of the top surface of the mounting plate, the bottom end of the supporting mechanism is connected with the middle of the top surface of the mounting plate, and the bottom of the clamping mechanism is fixedly connected with the top of the supporting mechanism.

The supporting mechanism comprises a standing plate, a retaining frame, a supporting column, a supporting plate, a transmission groove, a shifting rod, a main position pipe, a first anti-seismic spring and a main motor, the bottom end of the standing plate is fixedly connected with the top surface of the right end of the mounting plate, the right end of the retention frame is fixedly connected with the left side surface of the top end of the standing plate, the top end of the supporting column is movably inserted into the inner cavity of the fixing frame, the middle part of the bottom surface of the supporting plate is fixedly connected with the top of the supporting column, the transmission groove is arranged in the middle of the bottom surface of the support column, the top end of the transposition rod is movably inserted into the inner cavity of the transmission groove, the inner cavity of the main position pipe is movably sleeved outside the bottom end of the transposition rod, the top end and the bottom end of the first anti-seismic spring are respectively and fixedly connected with the side, close to each other, of the transposition rod and the main position pipe, the bottom of the main motor is fixedly connected with the middle part of the top surface of the mounting plate, and the top end of the main motor is fixedly connected with the bottom of the main position pipe.

Preferably, the clamping mechanism comprises outer clamping seats, transmission rails, inner clamping seats, position stabilizing pipes, position stabilizing frames, main position blocks, main position holes, positioning bearings, main position rods, second anti-seismic springs, a mounting frame and an auxiliary motor, the bottoms of the two outer clamping seats are fixedly connected with the top surfaces of the two ends of the supporting plate, the bottoms of the two transmission rails are fixedly connected with the two sides of the middle part of the top surface of the supporting plate, the bottom ends of the two inner clamping seats are movably clamped with the top ends of the two transmission rails, the bottoms of the two position stabilizing pipes are fixedly connected with the middle parts of the front end and the rear end of the supporting plate, the bottom ends of the two position stabilizing frames are movably inserted into inner cavities at the top ends of the two position stabilizing pipes, the tops of the front surface and the back surface of the main position blocks are fixedly connected with one ends of the two position stabilizing frames, the main position holes are formed in the middle part of the top surface of the main position blocks, the positioning bearings are embedded in the middle part of the top surface of the supporting plate, the bottom of main potential pole is pegged graft with the inner chamber of main potential hole and location bearing respectively, two the both ends of antidetonation spring two are close to the place ahead and the rear of one side each other with two interior chucks respectively, two the bottom of mounting bracket and the one end fixed connection that two steady rest kept away from each other, the bottom fixed connection on top and two mounting bracket tops of vice motor, and the top fixed connection of the bottom of vice motor and main potential pole.

Preferably, the surface of the top end of the transposition rod is in threaded connection with the inner wall of the transmission groove, a rectangular block is arranged at the bottom end of the transposition rod, and the surface of the rectangular block is in sliding connection with the inner wall of the main position pipe.

Preferably, the surface of the top end of the main position rod is in threaded connection with the inner wall of the main position hole.

Preferably, the mutually adjacent surfaces of the two inner clamping seats are provided with bumps.

Preferably, the main motor and the auxiliary motor are both KCAB57 in model.

The beneficial effects of the utility model are as follows:

1. through the supporting mechanism who sets up, at first control main motor corotation, main motor corotation just can drive main position spare and main position pipe corotation simultaneously, main position pipe corotation just can drive transposition pole corotation, transposition pole corotation just can drive support column and backup pad rebound simultaneously, backup pad rebound just can drive fixture rebound, fixture rebound just can drive the pipeline rebound, just so can be fast to pipeline adjustment to suitable height, simultaneously, also to a great extent has reduced staff's labor intensity.

2. Through the improvement to the installing support for the pipeline, at first can install and fix the pipeline of different diameters fast, so with regard to very big degree increased staff's installation effectiveness, and reduced staff's the work dynamics, then can also the quick adjustment pipeline place the height, so with regard to very big degree increased the practicality of support, finally, whole installing support still possesses dual antidetonation effect to the life of whole support has been improved.

Drawings

Fig. 1 is a schematic view of an earthquake-resistant support for construction according to the present invention;

fig. 2 is a front view of an earthquake-resistant support for construction according to the present invention;

fig. 3 is a bottom view of an earthquake-resistant support for construction according to the present invention;

fig. 4 is a front sectional view of an earthquake-resistant support for construction according to the present invention;

fig. 5 is a left side view of fig. 4 of an earthquake-resistant support for construction according to the present invention;

fig. 6 is an enlarged view of a portion a of fig. 5 of an earthquake-resistant support for construction according to the present invention.

In the figure: 1. mounting a plate; 2. mounting holes; 3. a support mechanism; 301. standing the plate; 302. a retention frame; 303. a support pillar; 304. a support plate; 305. a transmission groove; 306. a transposition rod; 307. a main position pipe; 308. a first anti-seismic spring; 309. a main motor; 4. a clamping mechanism; 401. an outer card holder; 402. a drive rail; 403. an inner card holder; 404. a position stabilizing pipe; 405. a position stabilizing frame; 406. a master bit block; 407. a master hole; 408. positioning the bearing; 409. a home position lever; 410. a second anti-vibration spring; 411. a mounting frame; 412. and a secondary motor.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Referring to fig. 1-6, an earthquake-resistant support for buildings comprises a mounting plate 1, mounting holes 2, supporting mechanisms 3 and clamping mechanisms 4, wherein the mounting holes 2 are respectively formed in four corners of the top surface of the mounting plate 1, the bottom ends of the supporting mechanisms 3 are respectively connected with the middle of the top surface of the mounting plate 1, and the bottoms of the clamping mechanisms 4 are fixedly connected with the tops of the supporting mechanisms 3.

The supporting mechanism 3 comprises a station plate 301, a retention frame 302, a supporting column 303, a supporting plate 304, a transmission groove 305, a transposition rod 306, a main position pipe 307, a shock-resistant spring I308 and a main motor 309, wherein the bottom end of the station plate 301 is fixedly connected with the top surface of the right end of the mounting plate 1, the right end of the retention frame 302 is fixedly connected with the left side surface of the top end of the station plate 301, the top end of the supporting column 303 is movably inserted into the inner cavity of the retention frame 302, the middle part of the bottom surface of the supporting plate 304 is fixedly connected with the top part of the supporting column 303, the transmission groove 305 is arranged in the middle part of the bottom surface of the supporting column 303, the top end of the transposition rod 306 is movably inserted into the inner cavity of the transmission groove 305, the surface of the top end of the transposition rod 306 is in threaded connection with the inner wall of the transmission groove 305, the bottom end of the transposition rod 306 is provided with a rectangular block, the surface of the rectangular block is slidably connected with the inner wall of the main position pipe 307, the inner cavity of the main position pipe 307 is movably sleeved outside the bottom end of the shock-resistant transposition rod 306, the top end and the bottom end of the transposition rod 308 are fixedly connected with the surface of the transposition rod 306 and the main position pipe 307 which are close to each other, the bottom of the main motor 309 is fixedly connected with the middle of the top surface of the mounting plate 1, and the top end of the main motor 309 is fixedly connected with the bottom of the main position pipe 307.

The clamping mechanism 4 comprises an outer clamping seat 401, a transmission rail 402, an inner clamping seat 403, a position stabilizing pipe 404, position stabilizing frames 405, a main position block 406, a main position hole 407, a positioning bearing 408, a main position rod 409, a second anti-shock spring 410, a mounting rack 411 and an auxiliary motor 412, wherein the bottoms of the two outer clamping seats 401 are fixedly connected with the top surfaces of the two ends of the support plate 304, the bottoms of the two transmission rails 402 are fixedly connected with the two sides of the middle part of the top surface of the support plate 304, the bottom ends of the two inner clamping seats 403 are movably clamped with the top ends of the two transmission rails 402, the mutually close sides of the two inner clamping seats 403 are respectively provided with a convex block, the bottoms of the two position stabilizing pipes 404 are fixedly connected with the middle parts of the front ends and the back ends of the support plate 304, the bottom ends of the two position stabilizing frames 405 are movably inserted into the inner cavities at the top ends of the two position stabilizing pipes 404, the top parts of the front surface and the back surface of the main position block 406 are fixedly connected with the mutually close ends of the two position stabilizing frames 405, the main position hole 407 is arranged in the middle part of the top surface of the main position block 406, the locating bearing 408 is inlaid in the middle of the top surface of the supporting plate 304, the bottom end of the main position rod 409 is respectively inserted into the inner cavities of the main position hole 407 and the locating bearing 408, the surface of the top end of the main position rod 409 is in threaded connection with the inner wall of the main position hole 407, two ends of two anti-seismic springs 410 are respectively close to the front and the rear of one surface of each of the two inner clamping seats 403, the bottom ends of the two mounting frames 411 are fixedly connected with one ends of the two stabilizing frames 405, the top of the auxiliary motor 412 is fixedly connected with the bottom surfaces of the top ends of the two mounting frames 411, the bottom end of the auxiliary motor 412 is fixedly connected with the top end of the main position rod 409, and the models of the main motor 309 and the auxiliary motor 412 are KCAB 57.

When the device is used, firstly, two pipelines are respectively inserted between the outer clamping seat 401 and the inner clamping seat 403, then the auxiliary motor 412 is controlled to rotate forwards, the auxiliary motor 412 rotates forwards to drive the main position rod 409 to rotate forwards, the main position rod 409 rotates forwards to drive the main position block 406 to move downwards, the main position block 406 moves downwards to extrude the two inner clamping seats 403, then the two inner clamping seats 403 move towards opposite directions, when the outer clamping seats 401 and the inner clamping seats 403 on the two sides are fully contacted with the outer walls of the two pipelines, the installation and the fixation of the pipelines are rapidly completed, then the main motor 309 is controlled to rotate forwards, the main position pipe 307 is driven to rotate forwards by the main position pipe 307, the position changing rod 306 is driven to rotate forwards, the support column 303 and the support plate 304 are driven to move upwards simultaneously by the position changing rod 306, and the support plate 304 moves upwards to drive the clamping mechanism 4 to move upwards, fixture 4 moves up and just can drive the pipeline rebound, just so can adjust the pipeline to suitable height fast, thereby make things convenient for the pipeline can normal use, at last through the antidetonation spring 308 and the antidetonation spring two 410 that set up, the antidetonation spring 308 can carry out the shock attenuation simultaneously to support column 303 and pipeline, just so one step earlier the antidetonation of pipeline has been accomplished, and the antidetonation spring two 410 can carry out the shock attenuation to the interior cassette 403 of both sides, the antidetonation that just so goes on the pipeline with the secondary, thereby to a great extent has increased the life of whole antidetonation support.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and equivalent alternatives or modifications according to the technical solution of the present invention and the inventive concept thereof should be covered by the scope of the present invention.

Claims

1. The utility model provides an antidetonation support for building, includes mounting panel (1), mounting hole (2), supporting mechanism (3) and fixture (4), its characterized in that: the mounting holes (2) are respectively formed in four corners of the top surface of the mounting plate (1), the bottom end of the supporting mechanism (3) is connected with the middle of the top surface of the mounting plate (1), and the bottom of the clamping mechanism (4) is fixedly connected with the top of the supporting mechanism (3);

the supporting mechanism (3) comprises a standing plate (301), a retention frame (302), a supporting column (303), a supporting plate (304), a transmission groove (305), a transposition rod (306), a main position pipe (307), a first anti-seismic spring (308) and a main motor (309), the bottom end of the standing plate (301) is fixedly connected with the top surface of the right end of the mounting plate (1), the right end of the retention frame (302) is fixedly connected with the left side surface of the top end of the standing plate (301), the top end of the supporting column (303) is movably inserted into an inner cavity of the retention frame (302), the middle part of the bottom surface of the supporting plate (304) is fixedly connected with the top of the supporting column (303), the transmission groove (305) is arranged in the middle part of the bottom surface of the supporting column (303), the top end of the transposition rod (306) is movably inserted into the inner cavity of the transmission groove (305), and the inner cavity of the main position pipe (307) is movably sleeved outside the bottom end of the transposition rod (306), the top end and the bottom end of the anti-seismic spring I (308) are fixedly connected with one surfaces, close to each other, of the transposition rod (306) and the main position pipe (307) respectively, the bottom of the main motor (309) is fixedly connected with the middle of the top surface of the mounting plate (1), and the top end of the main motor (309) is fixedly connected with the bottom of the main position pipe (307).

2. An earthquake-resistant support for construction according to claim 1, wherein: the clamping mechanism (4) comprises outer clamping seats (401), transmission rails (402), inner clamping seats (403), position stabilizing pipes (404), position stabilizing frames (405), main position blocks (406), main position holes (407), positioning bearings (408), main position rods (409), anti-seismic springs II (410), mounting frames (411) and auxiliary motors (412), the bottoms of the two outer clamping seats (401) are fixedly connected with the top surfaces of the two ends of the supporting plate (304), the bottoms of the two transmission rails (402) are fixedly connected with the two sides of the middle part of the top surface of the supporting plate (304), the bottom ends of the two inner clamping seats (403) are movably clamped with the top ends of the two transmission rails (402), the bottoms of the two position stabilizing pipes (404) are fixedly connected with the middle parts of the top surfaces of the front end and the rear end of the supporting plate (304), the bottom ends of the two position stabilizing frames (405) are movably inserted into the inner cavities at the top ends of the two position stabilizing pipes (404), the top at the front and the back of the main position block (406) and one end fixed connection that two steady rests (405) are close to each other, the middle part of main position block (406) top surface is seted up in main position hole (407), the middle part in backup pad (304) top surface is inlayed in location bearing (408), the bottom of main position pole (409) is pegged graft with the inner chamber of main position hole (407) and location bearing (408) respectively, two the both ends of antidetonation spring two (410) are close to the place ahead and the rear of one side with two interior cassette (403) respectively, two the bottom of mounting bracket (411) and the one end fixed connection that two steady rests (405) are kept away from each other, the top of vice motor (412) and the bottom surface fixed connection on two mounting bracket (411) tops, and the bottom of vice motor (412) and the top fixed connection of main position pole (409).

3. An earthquake-resistant support for construction according to claim 1, wherein: the surface of the top end of the transposition rod (306) is in threaded connection with the inner wall of the transmission groove (305), the bottom end of the transposition rod (306) is provided with a rectangular block, and the surface of the rectangular block is in sliding connection with the inner wall of the main position pipe (307).

4. An earthquake-resistant support for construction according to claim 2, wherein: the surface of the top end of the main position rod (409) is in threaded connection with the inner wall of the main position hole (407).

5. An earthquake-resistant support for construction according to claim 2, wherein: the surfaces, close to each other, of the two inner clamping seats (403) are provided with convex blocks.

6. An earthquake-resistant support for construction according to claim 2, wherein: the main motor (309) and the auxiliary motor (412) are both KCAB57 in model.