CN112228501B

CN112228501B - Building damping device with good buffering effect

Info

Publication number: CN112228501B
Application number: CN202011221593.6A
Authority: CN
Inventors: 谢军; 阎杰; 阎平; 赵紫红
Original assignee: Hebei University of Architecture
Current assignee: Hebei University of Architecture
Priority date: 2020-11-05
Filing date: 2020-11-05
Publication date: 2023-03-10
Anticipated expiration: 2040-11-05
Also published as: CN112228501A

Abstract

The invention discloses a building damping device with a good buffering effect, and relates to the technical field of building auxiliary equipment.

Description

Building damping device with good buffering effect

Technical Field

The invention relates to the technical field of building auxiliary equipment, in particular to a building damping device with a good buffering effect.

Background

Traditional building antidetonation structure system is that the performance through the reinforced structure itself comes the defense earthquake, if increase the reinforcing bar and add girder, post, wall cross sectional dimension, like this along with the improvement of housing construction antidetonation grade, housing construction's reinforcing bar and cross sectional dimension will become the increase of geometric multiple, just can greatly increased structure construction cost, can produce serious influence to the overall arrangement of house space and the pleasing to the eye of structure moreover.

In order to improve the bearing capacity of the building, the damping device is required to be arranged to improve the buffering capacity of the building.

Disclosure of Invention

The invention aims to provide a building damping device with good damping effect to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme:

a building damping device with good buffering effect comprises a building support and a damping base, wherein a damping air cushion is arranged in the building support, a first support column is arranged on the upper surface of the damping base, a second support column is arranged above the first support column, one end, far away from the first support column, of the second support column is fixedly connected with the bottom wall of the building support, guide rods are symmetrically arranged at the left end and the right end of the second support column, one end, far away from the second support column, of each guide rod is fixedly connected with a support seat, the surface of each guide rod is provided with a telescopic spring, one end, far away from the support seat, of each telescopic spring is fixedly connected with a slide seat, the slide seats are connected with the guide rods in a sliding manner, support rods are arranged above the slide seats at the left side and the right side, one ends, far away from the slide seats, of the support rods are connected with the building support, the support rods are movably connected with the slide seats and the building support, limiting grooves are symmetrically arranged at the left side and the right side of the upper surface of the damping base, the utility model discloses a damping air cushion, including limiting groove, limiting seat, limiting groove, gyro wheel and spout, spacing seat top fixed connection sloping seat, a lateral wall surface of sloping seat slope sets up the spout, the left and right sides the slide below is passed through the connecting rod and is connected the gyro wheel, the gyro wheel is installed in the spout, gyro wheel and spout roll connection, both ends inflation hole department connects the trachea about the damping air cushion, the trachea is kept away from the one end and is connected with flexible gasbag of damping air cushion, flexible gasbag below and plunger union coupling, the left and right sides the one end fixed connection push rod that the sloping seat kept away from each other, the intraductal plunger that sets up of plunger, plunger and push rod fixed connection, the damping base below sets up a plurality of mounting panels, the mounting panel left and right sides symmetry sets up a plurality of dowel pins.

As a further scheme of the invention: a plurality of protruding portions are arranged on the upper surface of the shock absorption air cushion at equal intervals.

As a further scheme of the invention: and clamping grooves are symmetrically formed at two ends of the building support.

As a further scheme of the invention: the damping device is characterized in that support plates are symmetrically arranged on the left side and the right side below the damping base, buffer rods are symmetrically arranged between the support plates, the buffer rods are slidably connected with the support plates, the left side and the right side of the buffer rods are fixedly connected with each other through bearing plates, the damping plates are fixedly connected with the tail ends of the bottoms of the buffer rods, buffer springs are arranged on the outer sides of the buffer rods, the buffer springs are arranged between the damping plates and the support plates, the buffer springs are fixedly connected with the damping plates and the support plates, reinforcing rods are symmetrically arranged at the left end and the right end of each damping plate, and the reinforcing rods are slidably connected with one ends of the damping plates and the mounting plates.

As a still further scheme of the invention: the left side and the right side of the upper surface of the support plate are symmetrically provided with positioning rods, and one ends of the positioning rods, which are far away from the support plate, are fixedly connected with the damping base.

As a still further scheme of the invention: the positioning rod is fixedly connected with the support plate and the damping base in a welding mode.

As a still further scheme of the invention: the damping device comprises a supporting plate, a damping rod, a damping sleeve, a damping base, a damping spring, a damping seat, a clamping column and a clamping groove.

Compared with the prior art, the invention has the beneficial effects that: the utility model provides a building damping device that buffering effect is good, when the building support shakes from top to bottom, expanding spring turns into the elastic force with external force, realize preliminary shock attenuation, when the left and right sides slide was kept away from each other, the slide passes through the gyro wheel and promotes the below slope seat and keep away from each other, the slope seat passes through the push rod and promotes the plunger at the intraductal horizontal migration of plunger, the plunger is with the air transportation to the shock attenuation air cushion in plunger pipe and the flexible gasbag, aerify the shock attenuation air cushion, make the shock attenuation air cushion have better support nature, improve the shock attenuation effect and the supporting effect of shock attenuation air cushion, realize the noise reduction function, effectively prolong building body's life.

Drawings

Fig. 1 is a schematic structural view of a building damping device with a good buffering effect.

Fig. 2 is a schematic structural diagram of a support plate in a building damping device with a good buffering effect.

Fig. 3 is a schematic structural view of a shock-absorbing air cushion in a shock-absorbing device for a building with a good buffering effect.

In the figure: 1-a building support; 2-air pipe; 3-a telescopic air bag; 4-a boss; 5-damping air cushion; 6-a strut; 7-a telescopic spring; 8-support; 9-support column two; 10-a guide rod; 11-a roller; 12-support column one; 13-a push rod; 14-a plunger; 15-plunger tube; 16-a limiting groove; 17-a limiting seat; 18-a positioning rod; 19-a support plate; 20-a shock-absorbing rod; 21-card slot; 22-a reinforcing rod; 23-a damping spring; 24-a shock mount; 25-a tilting mount; 26-a chute; 27-a slide; 28-clamp column; 29-a damping sleeve; 30-bearing plates; 31-a buffer rod; 32-a buffer spring; 33-a damping plate; 34-a shock-absorbing seat; 35-locating pin.

Detailed Description

The technical solution of the present invention will be described in further detail with reference to specific embodiments.

Example 1

Referring to fig. 1-3, a building damping device with good buffering effect comprises a building support 1 and a damping base 24, wherein a damping air cushion 5 is arranged in the building support 1, a first support column 12 is arranged on the upper surface of the damping base 24, a second support column 9 is arranged above the first support column 12, one end of the second support column 9, which is far away from the first support column 12, is fixedly connected with the bottom wall of the building support 1, guide rods 10 are symmetrically arranged at the left end and the right end of the second support column 9, one end of the guide rod 10, which is far away from the second support column 9, is fixedly connected with a support 8, an extension spring 7 is arranged on the surface of the guide rod 10, one end of the extension spring 7, which is far away from the support 8, is fixedly connected with a slide carriage 27, the slide carriage 27 is slidably connected with the guide rod 10, a support rod 6 is arranged above the slide carriage 27 at the left side and the right side, one end of the support rod 6, which is far away from the slide carriage 27, is connected with the building support frame 1, the support rod 6 is movably connected with the slide seat 27 and the building support 1, when the building support 1 vibrates up and down, the building support 1 pushes the slide seat 27 to move left and right on the surface level of the guide rod 10 through the support rod 6, the slide seat 27 pushes the extension spring 7 to stretch and contract, the extension spring 7 converts external acting force into elastic force to realize preliminary shock absorption, the left and right sides of the upper surface of the shock absorption base 24 are symmetrically provided with limit grooves 16, limit seats 17 are arranged in the limit grooves 16, the limit seats 17 are in sliding connection with the limit grooves 16, an inclined seat 25 is fixedly connected above the limit seats 17, a side wall surface of the inclined seat 25 is provided with a sliding groove 26, the left and right sides of the slide seat 27 are connected with the roller 11 through a connecting rod, the roller 11 is installed in the sliding groove 26, the roller 11 is in rolling connection with the sliding groove 26, and the air pipes 2 are connected with the inflation holes at the left and right ends of the shock absorption air cushion 5, the one end that shock attenuation air cushion 5 was kept away from to trachea 2 is connected with flexible gasbag 3, flexible gasbag 3 below is connected with plunger pipe 15, the left and right sides one end fixed connection push rod 13 that the roating seat 25 kept away from each other, set up plunger 14 in the plunger pipe 15, plunger 14 and push rod 13 fixed connection, when left and right sides slide 27 kept away from each other, the left and right sides slide 27 promotes below roating seat 25 through gyro wheel 11 and keeps away from each other, roating seat 25 promotes plunger 14 through push rod 13 and moves at plunger pipe 15 water conservancy diversion, plunger 14 carries the air in plunger pipe 15 and the flexible gasbag 3 to shock attenuation air cushion 5 in, aerifys shock attenuation air cushion 5, makes shock attenuation air cushion 5 have better support nature, improves shock attenuation effect and the supporting effect of shock attenuation air cushion 5.

Further, in order to increase the friction force on the surface of the shock-absorbing air cushion 5, in this embodiment, a plurality of protrusions 4 are equidistantly arranged on the upper surface of the shock-absorbing air cushion 5.

Further, in order to fix the shock absorbing air cushion 5 in the building support 1, in this embodiment, two ends of the building support 1 are symmetrically provided with clamping grooves.

Further, in order to improve the shock absorption effect, in this embodiment, support plates 19 are symmetrically arranged on the left side and the right side below the shock absorption base 24, buffer rods 31 are symmetrically arranged between the support plates 19, the buffer rods 31 are slidably connected with the support plates 19, the left side and the right side are fixedly connected with the upper side of the buffer rods 31 through receiving plates 30, shock absorption plates 33 are fixedly connected to the bottom ends of the buffer rods 31, buffer springs 32 are arranged on the outer sides of the buffer rods 31, the buffer springs 32 are arranged between the shock absorption plates 33 and the support plates 19, the buffer springs 32 are fixedly connected with the shock absorption plates 33 and the support plates 19, reinforcing rods 22 are symmetrically arranged on the left side and the right side of the shock absorption plates 33, and one ends, far away from the shock absorption plates 33, of the reinforcing rods 22 are slidably connected with mounting plates.

Furthermore, in order to fix the support plate 19, in the embodiment, the left side and the right side of the upper surface of the support plate 19 are symmetrically provided with the positioning rods 18, and one end of each positioning rod 18, which is far away from the support plate 19, is fixedly connected with the shock absorption base 24.

Furthermore, in order to improve the stability of the connection between the support plate 19 and the damper base 24, in this embodiment, the positioning rod 18 is fixedly connected with the support plate 19 and the damper base 24 by welding,

further, in order to improve the buffering effect, in this embodiment, the left and right sides of the support plate 19 are symmetrically provided with shock-absorbing rods 20, the shock-absorbing rods 20 are slidably connected with the support plate 19, the left and right sides of the upper side of the support plate 19 are symmetrically provided with shock-absorbing sleeves 29, the shock-absorbing sleeves 29 are fixedly connected with shock-absorbing bases 24, shock-absorbing springs 23 are arranged in the shock-absorbing sleeves 29, shock-absorbing seats 34 are fixedly connected with shock-absorbing sleeves 29, the tail end of the top of each shock-absorbing rod 20 extends to be fixedly connected with the shock-absorbing seats 34, clamping grooves 21 are formed in the reinforcing rod 22, clamping columns 28 are arranged at the tail ends of the bottoms of the shock-absorbing rods 20, the clamping columns 28 are installed in the clamping grooves 21, and the clamping columns 28 are rotatably connected with the clamping grooves 21.

Example 2

Referring to fig. 1-2, on the basis of embodiment 1, in order to fix the device, a plurality of mounting plates are disposed below the damping base 24, and a plurality of positioning pins 35 are symmetrically disposed on the left and right sides of the mounting plates.

The working principle of the invention is as follows: the utility model provides a building damping device that buffering effect is good, when vibrations about building support 1, building support 1 passes through branch 6 and promotes the slide 27 and removes about guide arm 10 surface level, slide 27 promotes extension spring 7 and stretches and contract, extension spring 7 turns into the elastic force with external force, realizes preliminary shock attenuation, and when left and right sides slide 27 kept away from each other, the left and right sides slide 27 promotes below sloping seat 25 through gyro wheel 11 and keeps away from each other, sloping seat 25 promotes plunger 14 through push rod 13 and moves at plunger pipe 15 water conservancy, plunger 14 carries the air in plunger pipe 15 and the flexible gasbag 3 to shock attenuation air cushion 5 in, aerifys shock attenuation air cushion 5, makes shock attenuation air cushion 5 have better support nature.

While the preferred embodiments of the present invention have been described in detail, the present invention is not limited to the above embodiments, and various changes can be made without departing from the spirit of the present invention within the knowledge of those skilled in the art.

Claims

1. The utility model provides a building damping device that buffering effect is good, includes building support (1) and vibration damping mount (24), its characterized in that, set up shock attenuation air cushion (5) in building support (1), vibration damping mount (24) upper surface sets up support column (12), support column (12) top sets up support column two (9), support column two (9) keep away from the one end and building support (1) diapire fixed connection of support column (12), both ends symmetry sets up guide arm (10) about support column two (9), the one end fixed connection support (8) of support column two (9) are kept away from in guide arm (10), guide arm (10) surface sets up expanding spring (7), the one end fixed connection slide (27) of support (8) are kept away from in expanding spring (7), slide (27) and guide arm (10) sliding connection, the left and right sides slide (27) top sets up branch (6), the one end that branch (6) kept away from support (27) is connected with building support (1), branch (6) and the equal swing joint of slide (27) and building support (1), damping mount (24) symmetry set up spacing groove (16), the limiting seat (17) is connected with a limiting groove (16) in a sliding manner, an inclined seat (25) is fixedly connected to the upper portion of the limiting seat (17), a sliding groove (26) is formed in the surface of one inclined side wall of the inclined seat (25), rollers (11) are connected to the lower portions of sliding seats (27) on the left side and the right side through connecting rods, the rollers (11) are installed in the sliding groove (26), the rollers (11) are connected with the sliding groove (26) in a rolling manner, air pipes (2) are connected to inflation holes at the left end and the right end of the damping air cushion (5), one ends, far away from the damping air cushion (5), of the air pipes (2) are connected with a telescopic air bag (3), the lower portions of the telescopic air bag (3) are connected with a plunger pipe (15), one ends, far away from the inclined seats (25), on the left side and the right side are fixedly connected with a push rod (13), a plunger (14) is arranged in the plunger pipe (15), a plurality of mounting plates are arranged below the damping base (24), and a plurality of positioning mounting plates (35) are symmetrically arranged on the left side and the left side;

a plurality of convex parts (4) are arranged on the upper surface of the shock absorption air cushion (5) at equal intervals; the building support (1) pushes the sliding seats (27) to move through the supporting rods (6), when the sliding seats (27) on the two sides are far away from each other, the sliding seats (27) on the two sides push the inclined seats (25) to be far away from each other through the rollers (11), the inclined seats (25) push the plungers (14) to horizontally move in the plunger pipes (15) through the push rods (13), and the plungers (14) convey air in the plunger pipes (15) and the telescopic air bags (3) into the shock absorption air cushions (5) to inflate the shock absorption air cushions (5).

2. The building damping device with good buffering effect according to claim 1, characterized in that clamping grooves are symmetrically arranged at two ends of the building support (1).

3. The building damping device with the good damping effect according to claim 1, characterized in that support plates (19) are symmetrically arranged on the left side and the right side below the damping base (24), damping rods (31) are symmetrically arranged between the support plates (19), the damping rods (31) are slidably connected with the support plates (19), the damping rods (31) on the left side and the right side are fixedly connected with each other through a receiving plate (30), the damping plates (33) are fixedly connected with the bottom ends of the damping rods (31), the damping springs (32) are arranged on the outer sides of the damping rods (31), the damping springs (32) are arranged between the damping plates (33) and the support plates (19), the damping springs (32) are fixedly connected with the damping plates (33) and the support plates (19), reinforcing rods (22) are symmetrically arranged on the left ends and the right ends of the damping plates (33), and one ends of the reinforcing rods (22) far away from the damping plates (33) are slidably connected with a mounting plate.

4. The building shock absorption device with the good buffering effect as claimed in claim 3, wherein the left and right sides of the upper surface of the support plate (19) are symmetrically provided with the positioning rods (18), and one end of each positioning rod (18) far away from the support plate (19) is fixedly connected with the shock absorption base (24).

5. The building shock absorption device with the good buffering effect as claimed in claim 4, wherein the positioning rod (18) is fixedly connected with the support plate (19) and the shock absorption base (24) through welding.

6. The building shock absorption device with the good buffering effect as claimed in claim 3, wherein the support plate (19) is symmetrically provided with shock absorption rods (20) on the left and right sides, the shock absorption rods (20) are slidably connected with the support plate (19), the shock absorption sleeves (29) are symmetrically provided on the left and right sides above the support plate (19), the shock absorption sleeves (29) are fixedly connected with shock absorption bases (24), shock absorption springs (23) are arranged in the shock absorption sleeves (29), shock absorption seats (34) are fixedly connected below the shock absorption springs (23), the shock absorption seats (34) are slidably connected with the shock absorption sleeves (29), the tail ends of the tops of the shock absorption rods (20) extend to be fixedly connected with the shock absorption seats (34), clamping grooves (21) are arranged in the reinforcing rods (22), the tail ends of the bottoms of the shock absorption rods (20) are provided with clamping columns (28), the clamping columns (28) are installed in the clamping grooves (21), and the clamping columns (28) are rotatably connected with the clamping grooves (21).