CN212226235U

CN212226235U - Antidetonation support reinforcerment system

Info

Publication number: CN212226235U
Application number: CN202020774656.XU
Authority: CN
Inventors: 朱晓薛; 史旦达; 薛瑞英; 朱伟华; 谢文远
Original assignee: Shanghai Feisheng Intelligent Technology Co Ltd
Current assignee: Shanghai Feisheng Intelligent Technology Co Ltd
Priority date: 2020-05-11
Filing date: 2020-05-11
Publication date: 2020-12-25
Anticipated expiration: 2030-05-11

Abstract

The utility model provides an antidetonation support reinforcerment system, including hanger plate, roof, hoop cover and connecting rod, the connecting rod is provided with two, and just two connecting rods weld respectively at the both ends on hanger plate surface, the roof is connected through the top of two hoop covers with the connecting rod. The utility model discloses the spin is in the inside of preventing turning round piece and arc piece upper ball chamber, when the pipeline takes place to twist reverse the trend, the abaculus drives the circular slot of arc piece in preventing turning round the piece and has the rotation trend, and because the existence of spin, the spin resists the turning force, because the spin is in the ball chamber, can produce the rotation and skid, a component is applyed to the ball chamber lateral wall of arc piece simultaneously, the arc limit of arc piece can take place to slide with the abaculus under the component effect, and the extrusion force to the circular slot inner wall can be applyed to the other end of arc piece, skid through the spin, the turning force is absorbed in the slip of arc piece, and share the turning force through spin and circular slot inner wall, avoided the pipeline to take place to vibrate and twist reverse, pipeline installation's fastness.

Description

Antidetonation support reinforcerment system

Technical Field

The utility model relates to an antidetonation support field especially relates to an antidetonation support reinforcerment system.

Background

The anti-seismic support reinforcing system is a damping mechanism for installing a pipeline, and through an anti-seismic structure, the vibration caused by the movement of fluid in the pipeline or the coming earthquake is avoided, so that the stability and the safety of the pipeline are improved, but the existing anti-seismic support reinforcing system still has a few defects when in use.

When the earthquake comes temporarily, the pipeline is whole lighter than the building material weight, and torsional motion can take place for the pipeline under the vibration, can make the lower clamp of pipe connection receive very strong shearing force, including fatigue damage can the fracture, and then cause falling of pipeline, greatly reduced pipeline installation's fastness.

Therefore, it is necessary to provide an anti-seismic support reinforcement system to solve the above technical problems.

SUMMERY OF THE UTILITY MODEL

The utility model provides an antidetonation support reinforcerment system, when having solved the earthquake, the pipeline can take place to twist reverse under the vibration, and the clamp receives very strong shearing force breaking occur down, greatly reduced the problem of pipeline installation's fastness.

In order to solve the technical problem, the utility model provides an anti-seismic support reinforcing system, which comprises a hanging plate, two connecting rods, two hooping sleeves and two connecting rods, wherein the two connecting rods are respectively welded at two ends of the surface of the hanging plate, the top plate is connected with the top ends of the connecting rods through the two hooping sleeves, a guide groove is arranged at the central position of the surface of the hanging plate, anti-twisting blocks are arranged inside the guide groove, the anti-twisting blocks are symmetrically arranged, circular grooves are arranged on the corresponding surfaces of the two anti-twisting blocks, an embedded block is seamlessly embedded inside the circular groove, the embedded block is in a cross structure, arc blocks are embedded at four notches of the embedded block, a spherical cavity is arranged at the position of the arc block far away from the center of the embedded block, a spherical cavity is also arranged at the position of the inner wall of the circular groove corresponding to the spherical cavity on the arc block, and rolling balls are embedded inside the spherical cavity on the arc block, the welding of the position department that the inserted block top runs through the block of preventing turning round has the support column, the welding of the top of support column has lower clamp, the top of lower clamp is fixed with last clamp through the screw.

Preferably, the length value of the guide groove is greater than the sum of the lengths of the two anti-twisting blocks and the diameters of the two rolling balls, and the guide groove is fixedly connected with the two anti-twisting blocks through bolts respectively.

Preferably, the ball cavity is of a semicircular structure, a magnetic core is arranged inside the ball cavity, and the magnetic core is connected with the rolling ball in a magnetic adsorption mode.

Preferably, the top welding of connecting rod has down the round platform, the top welding of round platform has last round platform down, the hourglass structure is made up into with last round platform down to round platform, the inner wall of hoop has seted up down the taper groove with the corresponding department of round platform down, and the inner wall of hoop has seted up the taper groove with the corresponding department of last round platform.

Preferably, the annular has all been seted up on the inner wall of lower conical groove and last conical groove, the internally mounted of annular has annular elastic component, annular elastic component includes annular pressure spring and takes the piece, the gomphosis of annular pressure spring is in the inside of annular, take the intensive block of piece and circle in annular pressure spring, the top of taking the piece has the inclined plane, and takes the piece and seamlessly hug closely with the inclined plane of round platform and last round platform down respectively.

Preferably, the end cover is installed to the bottom of hanger plate, the welding has the free bearing on going up the both sides of clamp, it is connected with the swinging arms to rotate on the free bearing, the swing hole has been seted up on the both sides that are close to the guide way on the hanger plate respectively, the swinging arms runs through the inside of swing hole to end cover, the inside horizontal welding of end cover has the guide arm, the cover is equipped with two pole covers on the guide arm, two connect through the shock attenuation pressure spring between the pole cover, the pole cover is connected with the swinging arms is articulated.

Preferably, a wheel carrier is installed on one side, away from the damping pressure spring, of the rod sleeve, rolling wheels are installed on the upper end and the lower end of the wheel carrier relative to the guide rod, the guide rod comprises a hexagonal sleeve and a circular sleeve, the circular sleeve is welded inside the hexagonal sleeve, and the rolling wheels are in rolling connection with the upper plane and the lower plane of the hexagonal sleeve.

Compared with the prior art, the utility model provides a pair of antidetonation support reinforcerment system has following beneficial effect:

the utility model provides an antidetonation support reinforcerment system, prevent turning round the piece through setting up, the abaculus, the arc piece, spin and ball chamber, the spin is in the inside of preventing turning round piece and arc piece upper ball chamber, when the pipeline takes place to twist reverse the trend, the abaculus drives the circular slot of arc piece in preventing turning round the piece and has the trend of rotating, and because the existence of spin, the spin resists the turning force, because the spin is in the ball chamber, can produce the rotation and skid, a component is applyed to the ball chamber lateral wall of arc piece simultaneously, the arc limit of arc piece can take place to slide with the abaculus under the component effect, and the extrusion force to the circular slot inner wall can be applyed to the other end of arc piece, skid through the spin, the arc piece slides and absorbs the turning force, and share the turning force through circle inslot wall, avoided the pipeline to take place the vibration and twist.

The utility model provides an antidetonation support reinforcerment system, through setting up the hoop cover, the upper round platform, lower round platform, annular pressure spring and lapping the piece, the taper groove in the hoop cover is connected with the gomphosis of upper round platform and lower round platform, upper round platform, lower round platform and connecting rod be integrative welded structure, the hourglass structure has been constituted between the upper round platform, lower round platform, through the lateral wall production thrust of taper groove to the upper round platform, thereby prop up the connecting rod, the stability of roof and hanger plate is greatly improved, and the internally mounted of taper groove has annular pressure spring, annular pressure spring contacts with upper round platform and lower round platform through lapping the piece, when the hanger plate takes place the vibration, when the connecting rod upward movement, lower round platform extrudees annular pressure spring, when the connecting rod downward movement, upper round platform extrudes annular pressure spring, move along annular inner circle pressure spring through lower round platform and upper round platform, thereby it produces the cushion effect to strut annular, the vibration of the lower round table and the upper round table can be absorbed by 360-degree dead angles, the vibration in different directions can be effectively responded, and the shock resistance is greatly improved.

The utility model provides an anti-seismic support reinforcement system, through setting up free bearing, the swinging arms, the guide arm, the wheel carrier, the gyro wheel, the rod cover and the shock attenuation pressure spring, when the pipeline takes place the vibration, the vibration power transmits to last clamp, go up the clamp and rock and make the swinging arms swing on the free bearing, and the rod cover articulated with the swinging arms slides on the guide arm, make the shock attenuation pressure spring constantly stretch out and draw back, improve the shock attenuation effect, and the pipeline on the wheel carrier is located both sides about the guide arm respectively, when rocking arm rocks from top to bottom like this, can improve the stability of overall motion with the gyro wheel, and the guide arm is the hexagon cover, utilize the plane of hexagon cover to contact with the gyro wheel, improve the forced contact area, reduce the pressure, avoid the guide arm atress to concentrate, and the circular cover in the hexagon cover improves the structural strength of guide arm, and the circular cover cuts apart into six, greatly improving the anti-fatigue capability.

Drawings

FIG. 1 is a diagram illustrating the physical effects of the present invention;

FIG. 2 is a diagram of the solid effect of the anti-twisting block of the present invention;

FIG. 3 is a schematic view of the structure of the ferrule of the present invention;

FIG. 4 is a top view of the annular elastic member of the present invention;

FIG. 5 is a schematic view of the structure of the bottom cover of the present invention;

fig. 6 is a cross-sectional effect diagram of the guide rod of the present invention.

Reference numbers in the figures: 1. the device comprises a hanging plate, a 2 top plate, a 3 hoop sleeve, a 4 connecting rod, a 5 anti-twisting block, a 6 supporting column, a 7 lower hoop, a 8 upper hoop, a 9 hinge seat, a 10 swing rod, a 11 swing hole, a 12 guide groove, a 13 bottom cover, a 14 circular groove, a 15 ball cavity, a 16 embedded block, a 17 arc block, an 18 rolling ball, a 19 magnetic core, a 20 lower conical groove, a 21 upper conical groove, a 22 lower circular table, a 23 upper circular table, a 24 circular groove, a 25 annular elastic component, a 2501 annular pressure spring, a 2502 lapping block, a 26 guide rod, a 2601 hexagonal sleeve, a 2602 circular sleeve, a 27 wheel carrier, a 28 rod sleeve, a 29 damping pressure spring, a 30 roller.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the technical scheme in the utility model, all other embodiments that ordinary skilled person in the art obtained under the prerequisite of not making the creative work all belong to the scope of the utility model protection.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

Please refer to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5 and fig. 6 in combination, wherein fig. 1 is a diagram illustrating the physical effect of the present invention; FIG. 2 is a diagram of the solid effect of the anti-twisting block of the present invention; FIG. 3 is a schematic view of the structure of the ferrule of the present invention; FIG. 4 is a top view of the annular elastic member of the present invention; FIG. 5 is a schematic view of the structure of the bottom cover of the present invention; fig. 6 is a cross-sectional effect diagram of the guide rod of the present invention. An earthquake-proof support reinforcing system comprises a hanging plate 1, a top plate 2, hoops 3 and connecting rods 4, wherein two connecting rods 4 are arranged, the two connecting rods 4 are respectively welded at two ends of the surface of the hanging plate 1, the top plate 2 is connected with the top ends of the connecting rods 4 through the two hoops 3, the top plate 2 is installed on a ceiling through expansion screws, a guide groove 12 is formed in the central position of the surface of the hanging plate 1, anti-torsion blocks 5 are installed inside the guide groove 12, the two anti-torsion blocks 5 are symmetrically arranged, round grooves 14 are formed in the corresponding surfaces of the two anti-torsion blocks 5, an embedded block 16 is seamlessly embedded inside the round grooves 14, the embedded block 16 is of a cross structure, arc blocks 17 are embedded in four notches of the embedded block 16, a ball cavity 15 is formed in the center of the arc block 17 far away from the embedded block 16, the ball cavity 15 is formed in the inner wall of the round grooves 14 and corresponds to the ball cavity 15 on the arc block 17, the ball cavity 15 in the round groove 14 and the ball cavity 15 on the arc block 17 are all embedded with the rolling ball 18, the top of the embedded block 16 penetrates through the position of the anti-twisting block 5 and is welded with the support column 6, when the pipeline has a twisting trend, the embedded block 16 drives the arc block 17 to have a rotating trend in the round groove 14 in the anti-twisting block 5, due to the existence of the rolling ball 18, the rolling ball 18 resists the rotating force, due to the fact that the rolling ball 18 is positioned in the ball cavity 15, the rolling ball can generate autorotation slip, meanwhile, a component force is applied to the side wall of the ball cavity 15 of the arc block 17, the arc edge of the arc block 17 can slide with the embedded block 16 under the action of the component force, the other end of the arc block 17 can apply extrusion force to the inner wall of the round groove 14, the pressure of the embedded block 16 is absorbed by the slip of the rolling ball 18 and the sliding of the arc block 17, and the rotating force is shared by the rolling ball 18 and the inner wall of the, the top of lower clamp 7 is fixed with last clamp 8 through the screw, goes up clamp 8 and lower clamp 7 and is used for ann fixed pipeline.

Further, the length value of the guide groove 12 is greater than the sum of the lengths of the two anti-torsion blocks 5 and the diameter values of the two rolling balls 18, the guide groove 12 is fixedly connected with the two anti-torsion blocks 5 through bolts respectively, the two anti-torsion blocks 5 can be placed in the guide groove 12 for conveniently installing the anti-torsion blocks 5, the bolt hole corresponding positions are found through the good anti-torsion blocks 5, and the anti-torsion blocks are fixed through the bolts.

Further, the ball cavity 15 is of a semicircular structure, the magnetic core 19 is installed inside the ball cavity 15, the magnetic core 19 is connected with the rolling ball 18 in a magnetic adsorption mode, the rolling ball 18 is fixed when the magnetic core 19 is installed conveniently, and the magnetic core 19 is fixed with the rolling ball 18 in the ball cavity 15 in a magnetic adsorption mode.

Further, a lower circular truncated cone 22 is welded at the top end of the connecting rod 4, an upper circular truncated cone 23 is welded at the top end of the lower circular truncated cone 22, the lower circular truncated cone 22 and the upper circular truncated cone 23 are combined into an hourglass structure, a lower conical groove 20 is formed in the position, corresponding to the lower circular truncated cone 22, of the inner wall of the hoop 3, an upper conical groove 21 is formed in the position, corresponding to the upper circular truncated cone 23, of the inner wall of the hoop 3, in order to enable the top plate 2 fixed with the ceiling to be firmly connected with the hanging plate 1, the upper circular truncated cone 23 on the connecting rod 4 is in contact with the upper conical groove 21, the lower circular truncated cone 22 is in contact with the lower conical groove 20, the connecting rod 4 is fixed by utilizing the extrusion of the upper circular truncated cone 23 on the upper conical groove 21, and the upper conical groove.

Further, the inner walls of the lower conical groove 20 and the upper conical groove 21 are both provided with an annular groove 24, an annular elastic component 25 is installed inside the annular groove 24, the annular elastic component 25 comprises an annular pressure spring 2501 and a lapping block 2502, the annular pressure spring 2501 is embedded inside the annular groove 24, the lapping block 2502 is tightly clamped on the inner ring of the annular pressure spring 2501, the top end of the lapping block 2502 is provided with an inclined surface, the lapping block 2502 is respectively and seamlessly attached to the inclined surfaces of the lower round platform 22 and the upper round platform 23, in order to improve the anti-seismic effect of the hanger plate 1, the annular pressure spring 2501 is contacted with the upper round platform 23 and the lower round platform 22 through the lapping block 2502, when the hanger plate 1 vibrates, when the connecting rod 4 moves upwards, the lower round platform 22 presses the annular pressure spring 2501, when the connecting rod 4 moves downwards, the upper round platform 23 presses the annular pressure spring 2501, and moves along the inner ring of the annular pressure spring 2501 through the lower round platform 22 and the, due to the circular structure of the annular pressure spring 2501, the vibration of the lower circular truncated cone 22 and the upper circular truncated cone 23 can be absorbed by 360-degree dead angles, the vibration in different directions can be effectively responded, and the shock resistance is greatly improved.

Further, the end cover 13 is installed to the bottom of hanger plate 1, it has free bearing 9 to weld on the both sides of going up clamp 8, it is connected with swinging arms 10 to rotate on the free bearing 9, swing hole 11 has been seted up respectively on the hanger plate 1 on the both sides that are close to guide way 12, swinging arms 10 runs through swinging holes 11 to the inside of end cover 13, the inside horizontal welding of end cover 13 has guide arm 26, the cover is equipped with two pole covers 28 on the guide arm 26, connect through the shock attenuation pressure spring 29 between two pole covers 28, pole cover 28 is connected with swinging arms 10 is articulated, in order to improve the shock resistance of last clamp 8 and lower clamp 7, pass through vibrating force transmission last clamp 8, it rocks to make swinging arms 10 on the free bearing 9 swing to go up clamp 8, and the pole cover 28 articulated with swinging arms 10 slides on guide arm 26, make the continuous pressure spring of shock attenuation 29 flexible, greatly improve the shock attenuation effect.

Further, a wheel carrier 27 is installed on one side of the rod sleeve 28 far away from the damping compression spring 29, rollers 30 are installed on the wheel carrier 27 and are respectively installed on the upper end and the lower end of the guide rod 26, the guide rod 26 comprises a hexagonal sleeve 2601 and a circular sleeve 2602, the circular sleeve 2602 is welded inside the hexagonal sleeve 2601, the rollers 30 are in rolling connection with the upper plane and the lower plane of the hexagonal sleeve 2601, in order to improve the force exerted on the guide rod 26 when the guide rod 26 resists the swinging of the swinging rod 10, the stability of the whole movement is improved by sliding the upper and the lower rollers 30 on the guide rod 26, when the swinging rod 10 swings upwards, the lower roller 30 is kept stable by rolling, when the swinging rod 10 swings downwards, the upper roller 30 is kept stable by rolling, meanwhile, the guide rod 26 is the hexagonal sleeve 2601, the plane of the hexagonal sleeve 2601 is in contact with the rollers 30, the stressed contact area is improved, the pressure is reduced, the stress concentration of the guide rod 26 is, and the inner wall of the hexagonal sleeve 2601 is divided into six triangular structures by the circular sleeve 2602, so that the stability of the structure is improved, and the anti-fatigue capability is greatly improved.

The utility model provides a pair of antidetonation support reinforcerment system's theory of operation as follows:

firstly, a pipeline is arranged between an upper hoop 8 and a lower hoop 6, when the pipeline vibrates, an annular pressure spring 2501 is contacted with an upper round table 23 and a lower round table 22 through a lapping block 2502, when the hanger plate 1 vibrates, when a connecting rod 4 moves upwards, the lower round table 22 extrudes the annular pressure spring 2501, when the connecting rod 4 moves downwards, the upper round table 23 extrudes the annular pressure spring 2501, the annular pressure spring 2501 moves along the inner ring of the annular pressure spring 2501 through the lower round table 22 and the upper round table 23, so that the annular pressure spring 2501 is expanded to generate buffer force, the circular structure of the annular pressure spring 2501 can absorb the vibration of the lower round table 22 and the upper round table 23 without dead angles in 360 degrees, the vibration in different directions can be effectively responded, the shock resistance is greatly improved, the pipeline is transmitted to the upper hoop 8 through the vibration force, the upper hoop 8 shakes to enable a swinging rod 10 on a hinged seat 9 to swing, and a rod sleeve 28 hinged with the swinging rod 10, greatly improving the damping effect, when the swing rod 10 swings upwards, the roller 30 at the lower part maintains stability through rolling, when the swing rod 10 swings downwards, the roller 30 at the upper part maintains stability through rolling, when the pipeline has a twisting trend, the embedded block 16 drives the circular groove 14 of the arc block 17 in the anti-twisting block 5 to have a rotating trend, due to the existence of the rolling ball 18, the rolling ball 18 resists the rotating force, because the rolling ball 18 is positioned in the ball cavity 15, self-rotation slipping can be generated, meanwhile, a component force is applied to the side wall of the ball cavity 15 of the arc block 17, the arc edge of the arc block 17 can slide with the embedded block 16 under the action of the component force, the other end of the arc block 17 can apply extrusion force to the inner wall of the circular groove 14, the rotating force is absorbed by the pressure of the embedded block 16 through the slipping of the rolling ball 18 and the sliding of the arc block 17, and the rotating force is shared by the rolling ball 18 and the inner wall of the circular, the entire workflow is ended.

The above only is the embodiment of the present invention, not limiting the scope of the present invention, all the equivalent structures or equivalent processes of the present invention are used in the specification and the attached drawings, or directly or indirectly applied to other related technical fields, and the same principle is included in the protection scope of the present invention.

Claims

1. The utility model provides an antidetonation support reinforcerment system, includes hanger plate (1), roof (2), cuff (3) and connecting rod (4), its characterized in that: connecting rod (4) are provided with two, and just two connecting rod (4) weld respectively at the both ends on hanger plate (1) surface, roof (2) are connected with the top of connecting rod (4) through two hoops (3), central point on hanger plate (1) surface puts the department and has seted up guide way (12), the internally mounted of guide way (12) has anti-twist block (5), anti-twist block (5) are provided with two, and two anti-twist block (5) symmetry sets up, two circular slot (14) have been seted up on the corresponding face of anti-twist block (5), the inside seamless of circular slot (14) is inlayed and is had abaculus (16), abaculus (16) are the cruciform structure, and four notch department gomphosis of abaculus (16) have arc piece (17), central department that abaculus (16) were kept away from to arc piece (17) has seted up ball chamber (15), ball chamber (15) have also been seted up with ball chamber (15) corresponding position department on arc piece (17) on the inner wall of circular slot (14) The utility model discloses a round groove (14), the equal gomphosis in inside of ball chamber (15) on ball chamber (15) and arc piece (17) has spin (18), the welding of the position department that the inserted block (16) top runs through anti-twist block (5) has support column (6), the welding of the top of support column (6) has lower clamp (7), the top of lower clamp (7) is through the fix with screw and is gone up clamp (8).

2. An earthquake-resistant support reinforcement system according to claim 1, characterized in that the length of the guide groove (12) is greater than the sum of the lengths of the two anti-twist blocks (5) and the diameter of the two rolling balls (18), and the guide groove (12) is fixedly connected with the two anti-twist blocks (5) respectively through bolts.

3. An earthquake-resistant support reinforcement system according to claim 1, characterized in that the ball cavity (15) is of a semicircular structure, and a magnetic core (19) is arranged inside the ball cavity (15), and the magnetic core (19) is connected with the rolling ball (18) in a magnetic adsorption manner.

4. The earthquake-resistant support reinforcement system according to claim 1, wherein the top end of the connecting rod (4) is welded with a lower circular truncated cone (22), the top end of the lower circular truncated cone (22) is welded with an upper circular truncated cone (23), the lower circular truncated cone (22) and the upper circular truncated cone (23) are combined into an hourglass structure, a lower conical groove (20) is formed in the corresponding position of the inner wall of the hoop sleeve (3) and the lower circular truncated cone (22), and an upper conical groove (21) is formed in the corresponding position of the inner wall of the hoop sleeve (3) and the upper circular truncated cone (23).

5. The seismic support reinforcement system according to claim 4, wherein the inner walls of the lower conical groove (20) and the upper conical groove (21) are provided with annular grooves (24), the annular grooves (24) are internally provided with annular elastic components (25), each annular elastic component (25) comprises an annular pressure spring (2501) and a block (2502), the annular pressure spring (2501) is embedded in the annular grooves (24), the blocks (2502) are densely clamped on the inner ring of the annular pressure spring (2501), the top end of the block (2502) is provided with an inclined surface, and the block (2502) is seamlessly attached to the inclined surfaces of the lower circular truncated cone (22) and the upper circular truncated cone (23) respectively.

6. An earthquake-resistant support reinforcement system according to claim 1, characterized in that a bottom cover (13) is installed at the bottom end of the hanger plate (1), hinged supports (9) are welded on the two sides of the upper hoop (8), swing rods (10) are rotatably connected to the hinged supports (9), swing holes (11) are respectively formed in the two sides of the hanger plate (1) close to the guide grooves (12), the swing rods (10) penetrate through the swing holes (11) and the bottom cover (13), guide rods (26) are horizontally welded in the bottom cover (13), two rod sleeves (28) are sleeved on the guide rods (26) and connected with each other through damping compression springs (29), and the rod sleeves (28) are hinged to the swing rods (10).

7. An earthquake-resistant bracket reinforcing system according to claim 6, wherein a wheel carrier (27) is arranged on one side of the rod sleeve (28) far away from the damping pressure spring (29), rollers (30) are arranged on the wheel carrier (27) relative to the upper end and the lower end of the guide rod (26), the guide rod (26) comprises a hexagonal sleeve (2601) and a circular sleeve (2602), the circular sleeve (2602) is welded inside the hexagonal sleeve (2601), and the rollers (30) are in rolling connection with the upper plane and the lower plane of the hexagonal sleeve (2601).