CN221121206U - Anti-seismic support structure - Google Patents

Abstract

The application discloses an anti-seismic support structure, which belongs to the technical field of fire safety and comprises two first upright posts fixed at the bottom of a floor slab, wherein the front side and the rear side of the two first upright posts are respectively provided with a second upright post, the two first upright posts are respectively axially provided with a transmission groove, the upper side wall and the lower side wall of the two transmission grooves are respectively provided with a transmission screw rod in a rotating way, the two transmission screw rods are respectively provided with screw nuts in a threaded fit way, the two screw nuts are respectively fixedly provided with a fixed plate, the two fixed plates are arranged on the inner sides of the two first upright posts, a first clamping plate is further arranged between the two first upright posts, the two ends of the first clamping plate are respectively fixedly connected to the two fixed plates, a second clamping plate is further arranged between the two first upright posts, the two ends of the second clamping plate are respectively fixed on the inner side walls of the two first upright posts, and the effect of reducing the use limitation of the anti-seismic support is realized by arranging springs and auxiliary rods.

Description

Anti-seismic support structure

Technical Field

The application belongs to the technical field of fire safety, and particularly relates to an anti-seismic bracket structure.

Background

The anti-seismic support is used for limiting the displacement of the auxiliary engineering element facilities, controlling the vibration of the facilities and transmitting the load to various components or devices on the bearing structure. The earthquake-resistant support can reliably protect the building engineering facilities in the earthquake and bear the earthquake action from any horizontal direction. When earthquake happens to earthquake fortification intensity in the local area, the engineering facilities after earthquake resistance reinforcement can achieve the purposes of reducing earthquake damage, reducing and preventing secondary disasters as far as possible, and further achieving the purposes of reducing casualties and property loss.

The utility model provides an antidetonation supporting structure that patent document proposed as bulletin number CN211175641U, it has set up including second fastening bolt, first cardboard, second cardboard and first antidetonation pole etc. and including, twist the locking fixed through first cardboard and the second cardboard of second fastening bolt with its upper and lower both sides to the blast pipe, through the first cardboard and the second cardboard of the upper and lower both sides of tuber pipe mutually support, realize fixed effect to the tuber pipe. According to the description of the patent document, it is found that the proposed anti-seismic bracket structure described in the document has the following problems: the second fastening bolt and the corresponding threaded hole are fixed in position in the embodiment described in the document, so that the second fastening bolt and the corresponding threaded hole can only fix the air pipes with the same specification or the same height, and the use of the anti-seismic bracket is limited greatly.

For this purpose, we propose an anti-seismic bracket structure to solve the above problems.

Disclosure of utility model

The application aims to solve the problems of large use limitation and low safety of the existing structure in the prior art, and provides an anti-seismic bracket structure.

In order to achieve the above purpose, the present application adopts the following technical scheme:

The utility model provides an antidetonation support structure, includes two first stands of fixing in the floor bottom, two first stand bottom all is connected with first antidetonation pole, two both sides all are provided with the second stand around the first stand, the second stand articulates on the floor the bottom of second stand is connected with the second antidetonation pole, the bottom of second antidetonation pole is articulated with first antidetonation pole, two transmission grooves have all been seted up to two first stands axially, two all rotate on the upper and lower both sides wall of transmission groove and be provided with drive screw, two on the drive screw equal screw-thread fit is provided with screw nut, two all fixedly on the screw nut be provided with the fixed plate, two the fixed plate sets up the inboard of two first stands, two still be provided with first cardboard between the first stand, first cardboard both ends respectively fixed connection is on two fixed plates, two still be provided with the second cardboard between the first stand, the second cardboard both ends are fixed respectively on the inside wall of two first stands.

The first clamping plate is adjusted to move up and down by rotating the transmission screw rod, and then the second clamping plate is matched, so that the anti-seismic bracket can fix air pipes with different specifications or different heights, and further the limitation of the anti-seismic bracket in use is reduced.

Preferably, the second clamping plate is further fixedly provided with a sliding box, two spring grooves are formed in the sliding box along the length direction, sliding blocks are arranged in the two spring grooves, auxiliary rods are fixed on two side walls of the two sliding blocks, springs are further arranged in the spring grooves, and two ends of each spring are fixedly connected to the side walls of the spring grooves and the sliding blocks respectively.

Through with the tuber pipe centre gripping between two auxiliary rod, make the antidetonation support carry out auxiliary clamping to the tuber pipe left and right sides, and then make things convenient for first cardboard to descend to the tuber pipe is fixed to improve work efficiency.

Preferably, the second clamping plate is arranged below the first clamping plate.

Through placing the tuber pipe on the second cardboard, can make things convenient for subsequent operation, the effect of the fixed efficiency of effect improvement tuber pipe.

Preferably, the second clamping plate, the first clamping plate and the side wall of the auxiliary rod are fixedly provided with anti-slip pads.

The anti-slip cushion can effectively prevent the air pipe from slipping on the anti-vibration bracket, thereby facilitating the fixation of the air pipe; simultaneously, can also further improve the fixed effect of antidetonation support to the tuber pipe.

Preferably, the bottom of two first stand is all rotated and is provided with the connecting rod, and two the connecting rod upper end runs through first stand diapire and with transmission lead screw fixed connection, and the bottom mounting at the connecting rod is provided with the rotary piece.

Through setting up the connecting rod and at the fixed rotating piece in bottom of connecting rod, can be more convenient apply rotatory effect to the transmission lead screw, and then improve the simple operation degree, play the effect that improves work efficiency.

Preferably, a plurality of arc-shaped protruding blocks are also and equally and fixedly arranged on the peripheral side wall of the rotary piece.

Through the setting of circular arc lug, can increase the frictional force between operator's palm and the rotatory piece, make rotatory more convenient, guarantee work efficiency.

Preferably, pushing blocks are fixedly arranged at the bottoms of the two sliding blocks.

The sliding block can be pushed more conveniently through the arrangement of the pushing block, and the auxiliary rod is further convenient for clamping the left side and the right side of the air pipe.

Preferably, the fixing plate is fixedly connected with the first clamping plate and the first upright post is fixedly connected with the second clamping plate through bolts.

Through mutual bolt fixed connection, can play the effect of convenient dismantlement.

In summary, the technical effects and advantages of the present application are: this antidetonation support structure sets up the second cardboard in first cardboard below through the cooperation of reciprocating of first cardboard, can make antidetonation support fix the tuber pipe of different specifications or co-altitude, and then reduces the limitation when antidetonation support uses. Through the effect of spring, make the antidetonation support carry out the centre gripping to the tuber pipe that is located between two auxiliary rods, and then make the antidetonation support to the tuber pipe side by side fixed to improve the security of antidetonation support. Through setting up the connecting rod and at the fixed rotating piece in the bottom of connecting rod, can conveniently exert rotatory effect to the transmission lead screw more, and then improve the simple operation degree, play the effect that improves work efficiency.

Drawings

FIG. 1 is a schematic diagram of the structure of the present application;

FIG. 2 is a schematic view of the working state of the present application;

FIG. 3 is a cross-sectional view of a first shock resistant rod of the present application;

Fig. 4 is a cross-sectional view of the sliding box of the present application.

In the figure: 1. a floor slab; 2. a first upright; 3. a first shock-resistant rod; 4. a second upright; 5. a second shock-resistant rod; 6. a transmission screw rod; 7. a screw nut; 8. a fixing plate; 9. a first clamping plate; 10. a second clamping plate; 11. a slide box; 12. a slide block; 13. an auxiliary lever; 14. a spring; 15. an anti-slip pad; 16. a connecting rod; 17. a rotary piece; 18. arc convex blocks; 19. and pushing the block.

Detailed Description

The following description of the embodiments of the present application will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present application, but not all embodiments.

In order to better understand the above technical solutions, the following detailed description will refer to the accompanying drawings and specific embodiments.

As shown in fig. 1-4, an anti-seismic support structure comprises two first upright posts 2 fixed at the bottom of a floor slab 1, wherein first anti-seismic rods 3 are connected to the bottoms of the two first upright posts 2, second upright posts 4 are arranged on the front side and the rear side of the two first upright posts 2, the second upright posts 4 are hinged to the floor slab 1, second anti-seismic rods 5 are connected to the bottoms of the second upright posts 4, and the bottoms of the second anti-seismic rods 5 are hinged to the side walls of the first anti-seismic rods 3.

Further, the transmission grooves are axially formed in the two first upright posts 2, the transmission screw rods 6 are rotatably arranged on the upper side wall and the lower side wall of the two transmission grooves, screw nuts 7 are arranged on the two transmission screw rods 6 in a threaded fit mode, fixing plates 8 are fixedly arranged on the two screw nuts 7, the two fixing plates 8 are arranged on the inner sides of the two first upright posts 2, a first clamping plate 9 is further arranged between the two first upright posts 2, and two ends of the first clamping plate 9 are detachably connected to the two fixing plates 8 respectively.

Meanwhile, a second clamping plate 10 is further arranged between the two first upright posts 2, wherein the second clamping plate 10 is arranged below the first clamping plate 9, and an air pipe can be placed on the second clamping plate 10, so that subsequent operation is facilitated, and two ends of the second clamping plate 10 are detachably connected to the inner side walls of the two first upright posts 2 respectively.

Furthermore, a sliding box 11 is fixedly arranged on the second clamping plate 10, two spring grooves are formed in the sliding box 11 along the length direction, sliding blocks 12 are arranged in the two spring grooves, auxiliary rods 13 are respectively fixed on two side walls of the two sliding blocks 12, springs 14 are further arranged in the spring grooves, and two ends of each spring 14 are fixedly connected to the side walls of the spring grooves and the sliding blocks 12 respectively.

It should be noted that: by arranging the transmission screw rod 6 in the first upright post 2, further, by applying a clockwise rotation effect to the transmission screw rod 6, under the cooperation of the transmission screw rod 6 and the screw rod nut 7, the screw rod nut 7 moves upwards, so that the fixing plates 8 are driven to move upwards, and further, under the simultaneous action of the two fixing plates 8, the first clamping plate 9 fixed between the two fixing plates 8 also moves upwards; conversely, a counterclockwise rotation effect is applied to the driving screw 6, and under the cooperation of the driving screw 6 and the screw nut 7, the screw nut 7 moves downward, thereby driving the fixing plates 8 to move downward, and further under the simultaneous action of the two fixing plates 8, the first clamping plate 9 fixed between the two fixing plates 8 also moves downward.

The second clamping plate 10 which is arranged below the first clamping plate 9 in a vertically moving mode is matched with the first clamping plate 9, so that the anti-seismic bracket can fix air pipes with different specifications or different heights, and the limitation of the anti-seismic bracket in use is reduced.

Further, two springs 14 are disposed in the middle of the spring slot, and the springs 14 are in tension during operation. The two sliding blocks 12 slide to two sides through the stretching spring 14, the two auxiliary rods 13 are driven to slide to two sides, the spring 14 is in a stretching state at the moment, elastic potential energy is stored, the air pipe is placed between the two auxiliary rods 13, the spring 14 is loosened, the spring 14 contracts to release the elastic potential energy, the air pipe between the two auxiliary rods 13 is clamped, the air pipe is clamped between the two auxiliary rods 13 through the arrangement, the anti-vibration support is used for carrying out auxiliary clamping on the left side and the right side of the air pipe, and the first clamping plate 9 is conveniently lowered to limit the air pipe, so that the working efficiency is improved.

As shown in fig. 3 and 4, the upper side wall of the second clamping plate 10, the lower side wall of the first clamping plate 9 and the inner side wall of the auxiliary rod 13 are fixedly provided with anti-slip pads 15.

The anti-slip pad 15 can effectively prevent the air pipe from slipping on the anti-vibration bracket, so that the air pipe can be conveniently fixed; simultaneously, can also further improve the fixed effect of antidetonation support to the tuber pipe.

As shown in fig. 3 and 4, the bottoms of the two first upright posts 2 are respectively provided with a connecting rod 16 in a rotating manner, the upper ends of the two connecting rods 16 penetrate through the bottom wall of the first upright post 2 and are fixedly connected with the transmission screw rod 6, the bottom ends of the connecting rods 16 penetrate through the bottom of the first upright post 2 and are fixedly provided with rotating sheets 17, and a plurality of circular arc convex blocks 18 are also uniformly and fixedly arranged on the peripheral side wall of the rotating sheets 17. Further, push blocks 19 are fixedly arranged at the bottoms of the two sliding blocks 12.

It should be noted that: by arranging the connecting rod 16 and fixing the rotating piece 17 at the bottom of the connecting rod 16, the rotating effect can be applied to the driving screw rod 6 more conveniently, so that the operation convenience is improved, and the effect of improving the working efficiency is achieved; the arrangement of the arc convex blocks 18 can increase the friction force between the palm of an operator and the rotary piece 17, so that the rotation is more convenient, and the working efficiency is ensured. The sliding block 12 can be pushed more conveniently by the pushing block 19, and the auxiliary rod 13 can further clamp the air pipe in a left-right auxiliary mode conveniently.

As shown in fig. 1-3, the fixing plate 8 and the first clamping plate 9 and the first upright post 2 and the second clamping plate 10 are fixedly connected through bolts. The two parts are fixedly connected through bolts, so that the effect of convenient disassembly can be achieved.

Working principle: the two auxiliary rods 13 are pulled to two sides through the push block 19, the spring 14 is in a stretching state at this moment, elastic potential energy is stored, the air pipe is placed between the two auxiliary rods 13, the push block 19 is loosened, the spring 14 contracts to release the elastic potential energy, thereby left and right side auxiliary clamping is carried out on the air pipe between the two auxiliary rods 13, a counter-clockwise rotation effect is exerted on the transmission screw rod 6 through the counter-clockwise rotation rotating piece 17, the screw rod nut 7 moves downwards under the cooperation of the transmission screw rod 6 and the screw rod nut 7, thereby driving the fixing plate 8 to move downwards, and further under the simultaneous action of the two fixing plates 8, the first clamping plate 9 fixed between the two fixing plates 8 also moves downwards, and the second clamping plate 10 arranged below the first clamping plate 9 is matched, so that the air pipe can be fixed up and down.

The foregoing is only a preferred embodiment of the present utility model, but the scope of the present utility model is not limited thereto, and any person skilled in the art, who is within the scope of the present utility model, should make equivalent substitutions or modifications according to the technical scheme of the present utility model and the inventive concept thereof, and should be covered by the scope of the present utility model.

Claims (8)

1. The utility model provides an antidetonation support structure, is including fixing two first stand (2) in floor (1) bottom, two first stand (2) bottom all is connected with first antidetonation pole (3), two both sides all are provided with second stand (4) around first stand (2), second stand (4) articulate on floor (1) the bottom of second stand (4) is connected with second antidetonation pole (5), the bottom of second antidetonation pole (5) articulates with first antidetonation pole (3), its characterized in that: the transmission groove has all been seted up to two first stand (2) axially, two all rotate on both sides wall about the transmission groove and be provided with transmission lead screw (6), two equal screw-thread fit is provided with screw-nut (7) on transmission lead screw (6), two all fixedly provided with fixed plate (8) on screw-nut (7), two fixed plate (8) set up in the inboard of two first stand (2), two still be provided with first cardboard (9) between first stand (2), first cardboard (9) both ends are fixed connection respectively on two fixed plate (8), two still be provided with second cardboard (10) between first stand (2), second cardboard (10) both ends are fixed respectively on the inside wall of two first stand (2).

2. An anti-seismic support structure according to claim 1, wherein: the second clamping plate (10) is further fixedly provided with a sliding box (11), two spring grooves are formed in the sliding box (11) along the length direction, sliding blocks (12) are arranged in the two spring grooves, auxiliary rods (13) are fixed on two side walls of the sliding blocks (12), springs (14) are further arranged in the spring grooves, and two ends of each spring (14) are fixedly connected to the side walls of the spring grooves and the sliding blocks (12) respectively.

3. An anti-seismic support structure according to claim 1, wherein: the second clamping plate (10) is arranged below the first clamping plate (9).

4. An anti-seismic support structure according to claim 2, wherein: and anti-slip pads (15) are fixedly arranged on the side walls of the second clamping plate (10), the first clamping plate (9) and the auxiliary rod (13).

5. An anti-seismic support structure according to claim 1, wherein: the bottoms of the two first upright posts (2) are both rotatably provided with connecting rods (16), the upper ends of the two connecting rods (16) penetrate through the bottom wall of the first upright posts (2) and are fixedly connected with the transmission screw rods (6), and rotary pieces (17) are fixedly arranged at the bottom ends of the connecting rods (16).

6. An anti-seismic support structure according to claim 5, wherein: a plurality of arc-shaped protruding blocks (18) are fixedly arranged on the peripheral side wall of the rotary piece (17) in an equal manner.

7. An anti-seismic support structure according to claim 2, wherein: push blocks (19) are fixedly arranged at the bottoms of the two sliding blocks (12).

8. An anti-seismic support structure according to claim 1, wherein: the fixing plate (8) is fixedly connected with the first clamping plate (9) and the first upright post (2) is fixedly connected with the second clamping plate (10) through bolts.