CN115045411A - Shock-absorbing structure for high-rise building - Google Patents

Abstract

The invention relates to a shock absorption structure, in particular to a shock absorption structure for a high-rise building. The technical problem to be solved is as follows: the high-rise building shock absorption structure has the advantages that the shock absorption can be realized through the multi-layer shock absorption, and the shock absorption effect is better. The invention provides a shock absorption structure for a high-rise building, which comprises a base, clamping plates and a supporting plate, wherein the clamping plates are clamped on two sides of the top of the base at uniform intervals, the supporting plate is arranged between the clamping plates on the two sides, the shock absorption structure also comprises guide rails, guide blocks and the like, the two sides of the top of the base are connected with the guide rails, and the two sides of the two guide rails are connected with the guide blocks in a sliding manner. In the using process of the invention, the cushion, the inflatable cushion and the cushion are matched to play a role in buffering and damping, thereby playing multiple roles in buffering and damping, improving the damping effect of the structure and having better damping effect.

Description

Shock-absorbing structure for high-rise building

Technical Field

The invention relates to a shock absorption structure, in particular to a shock absorption structure for a high-rise building.

Background

In modern society, along with the continuous development of economy and the progress of science and technology, high-rise buildings are also visible everywhere, and high-rise buildings' area is little, can improve the utilization ratio of land, does benefit to urban afforestation, improves sanitary environment, but high-rise buildings adjacent floor all live people, and the action range is great when upper personnel walk about, just leads to floor vibrations to produce the noise easily, needs to set up corresponding shock-absorbing structure and carries out shock attenuation processing.

Through retrieval, a patent with an authorized patent publication number of CN216616704U discloses a shock absorption structure for a high-rise building, which comprises two wall bodies, wherein two sides of the inner cavities of the two wall bodies are fixedly connected with a main floor, two sides of the inner cavities of the two wall bodies are positioned above the main floor and are slidably connected with an auxiliary floor, the inner cavity of the main floor is provided with a T-shaped groove, two sides of the inner cavity of the T-shaped groove are fixedly connected with a first spring, one side of the first spring is fixedly connected with a connecting plate, and one side of the connecting plate, which is far away from the first spring, is movably connected with a connecting rod through a movable shaft. The transmission of noise is reduced, and the quality of work or life of people in floors is improved. The above patents suffer from the following disadvantages: when the damping device is used, the damping effect can be realized only by playing a role of damping through the spring, the damping effect is limited, and the requirements of people cannot be met.

Therefore, need design one kind and can cushion the shock attenuation through the multilayer shock attenuation setting, the better high-rise building shock-absorbing structure of shock attenuation effect.

Disclosure of Invention

In order to overcome the above-mentioned patent when using, only can play the effect of buffering shock attenuation through the spring, the limited shortcoming of buffering shock attenuation effect that realizes, the technical problem that will solve: the high-rise building shock absorption structure can buffer shock absorption through multi-layer shock absorption and has a better shock absorption effect.

The technical implementation scheme of the invention is as follows: a shock absorption structure for high-rise buildings comprises a base, clamping plates and a support plate, wherein the clamping plates are clamped on two sides of the top of the base at uniform intervals, the support plate is arranged between the clamping plates on the two sides, the shock absorption structure also comprises a guide rail, a guide block, an elastic part, a connecting block, a connecting rod, a support mechanism and a cushion mechanism, the guide rail is connected on two sides of the top of the base, the guide blocks are connected on two sides of two guide rails in a sliding manner, the connecting rod is connected between the two adjacent guide blocks, the elastic part for playing a buffering role is connected between the guide block and the guide rail, the connecting block is connected at the position, close to the four guide blocks, of the bottom of the support plate, the connecting rod is also connected between the two adjacent connecting blocks, at least one connecting rod is hinged between the two adjacent connecting rods, and the support mechanism for playing supporting, buffering and shock absorption roles is arranged on the base, the supporting plate is provided with a back cushion mechanism for a user to tread.

As an improvement of the scheme, the supporting mechanism comprises a first supporting seat and an inflatable cushion, two first supporting seats are connected to two sides of the top of the base, and the inflatable cushion for supporting, buffering and damping is mounted on the first supporting seats.

As the improvement of above-mentioned scheme, cushion mechanism is including cushion, clamp plate and bolt, and the embedded cushion that is used for supplying the user to trample of placing in backup pad top, and the clamp plate has all been placed to backup pad top four corners department, all has at least one to be used for the bolt fixed with cushion and clamp plate, bolt and backup pad threaded connection through threaded connection on four clamp plates.

As the improvement of above-mentioned scheme, still including being used for the mechanism of aerifing for the cushion inflation, the mechanism of aerifing is including the second supporting seat, the inflator, the trachea, piston rod and push pedal, base top both sides all are connected with the second supporting seat, the inflator that is used for inflating is all installed to second supporting seat both sides, the end of giving vent to anger of inflator is connected with the trachea, the trachea communicates with close inflatable packer, the equal slidingtype in one side that the inflator of both sides is close to each other is connected with the piston rod, all be connected with the push pedal that is used for promoting the piston rod to remove between the one side that the piston rod of both sides is close to each other, the push pedal contacts with close connecting rod.

As an improvement of the scheme, the wall-mounted device further comprises a connecting plate and suckers for adsorbing the wall body, wherein the connecting plate is connected to the outer side of the clamping plate, and at least one sucker is connected to the connecting plate.

As the improvement of above-mentioned scheme, still including the slider, the clearance between two adjacent cardboard forms the spout, and the even interval in backup pad bottom both sides is connected with the slider, and the slider can slide in the spout, improves the stability of backup pad when removing.

The invention has the beneficial effects that: 1. in the using process of the invention, the cushion, the inflatable cushion and the cushion are matched to play a role in buffering and damping, thereby playing multiple roles in buffering and damping, improving the damping effect of the structure and having better damping effect.

2. The invention can inject the gas in the inflator into the inflatable cushion through the movement of the connecting rod to support the inflatable cushion, thereby improving the damping and supporting effects of the structure again.

3. According to the invention, the sucker is adsorbed on the wall body, and the supporting plate slides along the sliding groove through the sliding block when moving up and down, so that the stability of the structure in the damping process is improved, and the structure can be more stable in the operation process.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

FIG. 2 is a schematic view of a first partial body structure according to the present invention.

FIG. 3 is a schematic view of a second partial body structure according to the present invention.

Fig. 4 is a perspective view of a third embodiment of the present invention.

Fig. 5 is a schematic perspective view of the supporting mechanism of the present invention.

Fig. 6 is a schematic perspective view of the back cushion mechanism of the present invention.

Fig. 7 is a perspective view of the inflation mechanism of the present invention.

Fig. 8 is a schematic perspective view of the connection plate and the suction cup according to the present invention.

Labeled in the figure as: 1-base, 20-catch plate, 2-support plate, 30-guide rail, 3-guide block, 4-elastic element, 5-connecting block, 6-connecting rod, 7-connecting rod, 8-support mechanism, 81-first support seat, 82-inflatable cushion, 9-cushion mechanism, 91-soft cushion, 92-pressure plate, 93-bolt, 10-inflatable mechanism, 101-second support seat, 102-air cylinder, 103-air pipe, 104-piston rod, 105-push plate, 11-connecting plate, 12-suction cup, 13-slide block.

Detailed Description

The technical scheme of the invention is further explained by combining the attached drawings.

Example 1

A shock absorption structure for high-rise buildings is disclosed, as shown in figures 1-4, and comprises a base 1, clamping plates 20, a support plate 2, guide rails 30, guide blocks 3, elastic members 4, connecting blocks 5, connecting rods 6, connecting rods 7, a support mechanism 8 and a cushion mechanism 9, wherein the two clamping plates 20 are clamped at the left side and the right side of the top of the base 1 at uniform intervals, the support plate 2 is arranged between the two clamping plates 20 at the two sides, the guide rails 30 are bolted at the left side and the right side of the top of the base 1, the front side and the rear side of the two guide rails 30 are connected with the guide blocks 3 in a sliding manner, the connecting rods 7 are bolted between the two guide blocks 3 at the front side and between the two guide blocks 3 at the rear side, the elastic members 4 are connected between the guide blocks 3 and the guide rails 30, the front side and the rear side of the bottom of the support plate 2 are connected with the two connecting blocks 5, the two connecting blocks 5 are arranged in a bilateral symmetry manner, the connecting rods 7 are also bolted between the two connecting blocks 5 at the front side and between the connecting blocks 5 at the rear side, the left side and the right side of the two connecting rods 7 on the front side are both hinged with connecting rods 6, the left side and the right side of the two connecting rods 7 on the rear side are both hinged with connecting rods 6, the base 1 is provided with a supporting mechanism 8, and the supporting plate 2 is provided with a back cushion mechanism 9.

As shown in fig. 5, the supporting mechanism 8 includes a first supporting seat 81 and an inflatable cushion 82, two first supporting seats 81 are bolted to the left and right sides of the top of the base 1, the two first supporting seats 81 are symmetrically arranged in the front-back direction, and the inflatable cushion 82 is installed on each of the four first supporting seats 81.

As shown in fig. 6, the cushion mechanism 9 comprises a cushion 91, a pressing plate 92 and a bolt 93, the cushion 91 is embedded in the top of the supporting plate 2, the pressing plate 92 is placed at four corners of the top of the supporting plate 2, the four pressing plates 92 are connected with two bolts 93 through threads, and the bolts 93 are connected with the supporting plate 2 through threads.

When the damping mechanism is needed to be used in a high-rise building, the damping structure can be used, when the damping mechanism is used, the damping structure is installed in the high-rise building, when a user walks, the user can step on the cushion 91 and step on the cushion 91, the damping and damping effects are achieved, the situation that the user directly steps on the support plate 2 is avoided, if too many pedestrians or too large action amplitude of the user is caused, the support plate 2 is extruded to move downwards, the support plate 2 drives the connecting block 5 to move downwards when moving downwards, the connecting block 5 drives the connecting rod 7 on the connecting block 5 to move downwards when moving downwards, the connecting rod 7 on the connecting block 5 extrudes the connecting rod 7 on the guide block 3 to move outwards through the connecting rod 6 when moving downwards, the guide block 3 is driven to move outwards along the guide rail 30, the elastic piece 4 is compressed, and therefore when the weight on the support plate 2 is too heavy, the cushioning effect is achieved, the supporting plate 2 can be in contact with the inflatable cushion 82 when moving downwards, the supporting plate 2 is supported by the inflatable cushion 82, the cushioning and cushioning effects can also be achieved, the supporting plate 2 is prevented from moving downwards for too much distance, when pedestrians on the cushion 91 are few, the guide block 3 is reset under the effect of the elastic piece 4, the guide block 3 drives the supporting plate 2 to reset through the connecting rod 7, the connecting rod 6 and the connecting block 5 when resetting, when the cushion 91 needs to be cleaned or replaced after being used for a long time, the bolt 93 can be loosened, the pressing plate 92 is taken down, the cushion 91 is taken out, after being taken out, the cushion 91 can be cleaned or replaced, after the operation is finished, the pressing plate 92 is put back to be aligned, and the bolt 93 is tightened, therefore, the cushioning structure can be used, and the cushioning and cushioning effects can be achieved through the effects of the cushion 91, the elastic piece 4 and the inflatable cushion 82 when in use, the buffering and shock-absorbing effects are better.

Example 2

On the basis of the embodiment 1, as shown in fig. 2 and 7, the air inflation device further comprises an air inflation mechanism 10, the air inflation mechanism 10 comprises a second support seat 101, air cylinders 102, air pipes 103, piston rods 104 and push plates 105, the front side and the rear side of the top of the base 1 are connected with the second support seat 101, the air cylinders 102 are mounted on the left side and the right side of the second support seat 101, the air outlet ends of the air cylinders 102 are connected with the air pipes 103, the air pipes 103 are communicated with the adjacent inflatable cushions 82, the piston rods 104 are connected to the sides, close to each other, of the air cylinders 102 on the front side and the rear side, the push plates 105 are connected between the sides, close to each other, of the piston rods 104 on the front side and the rear side, and the push plates 105 are in contact with the adjacent connecting rods 7.

Because the push plate 105 is contacted with the connecting rod 7 on the adjacent guide block 3, the connecting rod 7 on the guide block 3 can extrude the pressing plate 92 to move together when moving, the pressing plate 92 can drive the piston rod 104 to move when moving, the piston rod 104 can inject the gas in the gas cylinder 102 into the inflatable cushion 82 through the gas pipe 103 when moving, so that the inflatable cushion 82 is inflated, the supporting performance of the inflatable cushion 82 is improved, the supporting performance and the buffering and damping performance of the structure are improved, the pressing plate 92 is not extruded any more after the connecting rod 7 on the guide block 3 is reset, at the moment, the inflatable cushion 82 is reset under the self-rebounding effect, the extruded gas reflows to be injected into the gas cylinder 102 again through the gas pipe 103 when the inflatable cushion 82 is reset, and the piston rod 104 and the pressing plate 92 are further pushed to reset.

Example 3

On the basis of the embodiment 2, as shown in fig. 1 and 8, the clamping device further comprises a connecting plate 11 and suction cups 12, the connecting plate 11 is bolted to the outer side of the clamping plate 20, and the suction cups 12 are connected to the front side and the rear side of the connecting plate 11.

When using this shock-absorbing structure, can adsorb sucking disc 12 in the wall body, through the absorptive power between sucking disc 12 and the wall body, improve the stability of this structure when using.

As shown in fig. 1-2, the support plate further comprises a sliding block 13, a sliding groove is formed in a gap between two adjacent clamping plates 20, the sliding blocks 13 are bolted to the left side and the right side of the bottom of the support plate 2 at uniform intervals, and the sliding blocks 13 can slide in the sliding groove, so that the stability of the support plate 2 during moving is improved.

When the supporting plate 2 moves up and down, the supporting plate can slide on the sliding groove through the sliding block 13, and the stability of the supporting plate 2 during moving is improved.

Finally, it should be noted that the above embodiments are only used for illustrating the technical solutions of the present invention and not for limiting the protection scope of the present invention, and although the present invention is described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications or equivalent substitutions can be made on the technical solutions of the present invention without departing from the spirit and scope of the technical solutions of the present invention.

Claims (6)

1. The utility model provides a high-rise building shock-absorbing structure, is including base (1), cardboard (20) and backup pad (2), and base (1) top both sides all evenly spaced joint has cardboard (20), is provided with backup pad (2), characterized by between cardboard (20) of both sides: the shock absorption device is characterized by further comprising guide rails (30), guide blocks (3), elastic pieces (4), connecting blocks (5), connecting rods (6), connecting rods (7), a supporting mechanism (8) and a cushion mechanism (9), wherein the guide rails (30) are connected to two sides of the top of the base (1), the guide blocks (3) are connected to two sides of the two guide rails (30) in a sliding mode, the connecting rods (7) are connected between the two guide blocks (3) which are close to each other, the elastic pieces (4) used for playing a buffering role are connected between the guide blocks (3) and the guide rails (30), the connecting blocks (5) are connected to positions, close to the four guide blocks (3), of the bottom of the supporting plate (2), the connecting rods (7) are connected between the two connecting blocks (5) which are close to each other, at least one connecting rod (6) is hinged between the two connecting rods (7) which are close to each other, the supporting mechanism (8) used for playing supporting and buffering and shock-reducing roles are arranged on the base (1), a back cushion mechanism (9) for a user to step is arranged on the supporting plate (2).

2. A high-rise building shock-absorbing structure as set forth in claim 1, wherein: the supporting mechanism (8) comprises a first supporting seat (81) and an inflatable cushion (82), two first supporting seats (81) are connected to two sides of the top of the base (1), and the inflatable cushion (82) used for supporting, buffering and damping is installed on the first supporting seats (81).

3. A high-rise building shock-absorbing structure as set forth in claim 2, wherein: cushion mechanism (9) are including cushion (91), clamp plate (92) and bolt (93), and embedded cushion (91) that are used for supplying the user to trample of placing in backup pad (2) top, and clamp plate (92) have all been placed to backup pad (2) top four corners department, all have one at least bolt (93) that are used for fixing cushion (91) and clamp plate (92) through threaded connection on four clamp plates (92), bolt (93) and backup pad (2) threaded connection.

4. A high-rise building shock-absorbing structure as set forth in claim 3, wherein: still including being used for inflating mechanism (10) for cushion (91) inflation, it is including second supporting seat (101) to inflate mechanism (10), inflator (102), trachea (103), piston rod (104) and push pedal (105), base (1) top both sides all are connected with second supporting seat (101), inflator (102) that are used for inflating are all installed to second supporting seat (101) both sides, the end of giving vent to anger of inflator (102) is connected with trachea (103), trachea (103) and close inflatable packer (82) intercommunication, one side that inflator (102) of both sides are close to each other all sliding type be connected with piston rod (104), all be connected with push pedal (105) that are used for promoting piston rod (104) to remove between one side that piston rod (104) of both sides are close to each other, push pedal (105) contact with close connecting rod (7).

5. A high-rise building shock-absorbing structure as set forth in claim 4, wherein: the wall-mounted device is characterized by further comprising a connecting plate (11) and suckers (12) for adsorbing a wall body, wherein the connecting plate (11) is connected to the outer side of the clamping plate (20), and at least one sucker (12) is connected to the connecting plate (11).

6. A high-rise building shock-absorbing structure as set forth in claim 5, wherein: still including slider (13), the clearance between two adjacent cardboard (20) forms the spout, and backup pad (2) bottom both sides are even interval connection has slider (13), and slider (13) can slide in the spout, improves the stability of backup pad (2) when removing.

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