CN216517071U

CN216517071U - Anti-seismic reinforcing structure is built in room

Info

Publication number: CN216517071U
Application number: CN202122891443.2U
Authority: CN
Inventors: 何坤
Original assignee: Shaanxi Rendao Construction Engineering Co ltd
Current assignee: Shaanxi Rendao Construction Engineering Co ltd
Priority date: 2021-11-24
Filing date: 2021-11-24
Publication date: 2022-05-13
Anticipated expiration: 2031-11-24

Abstract

The utility model relates to the technical field of building construction, in particular to a building anti-seismic reinforcing structure which comprises a building wall body, wherein a shock absorption device is arranged on the outer surface of the building wall body, the shock absorption device comprises a shock absorption shell, a placing groove is formed in one side of the shock absorption shell, two shock absorption pieces are fixedly connected into the placing groove, the two shock absorption pieces are hollow, a movable hole is formed in one side of each shock absorption piece, and a shock absorption rod is inserted into each movable hole. The utility model has the advantages that: when the wall body takes place to rock in the room, the mounting panel drives the shock-absorbing rod and controls rocking to control and remove damping spring, because the spacing nut who sets up can play spacing effect, damping spring removes the effect that can play the buffering about can, reduces external power, thereby realizes stabilizing the function of building the wall body in room, this device simple structure, easy to assemble, and the practicality is strong.

Description

Anti-seismic reinforcing structure is built in room

Technical Field

The utility model relates to the technical field of building construction, in particular to a house construction anti-seismic reinforcing structure.

Background

The house building is a house building project, which refers to various house buildings and their auxiliary facilities, and their matching line, pipeline, equipment installation projects and indoor and outdoor decoration projects, and the house building project is generally called building project for short, which refers to various technical works of investigation, planning, design, construction, installation and maintenance, etc. performed by newly building, reconstructing or expanding a house building and an auxiliary structure, and the completed engineering entity.

The shock resistance of the prior old house is reduced due to long service time, building materials and the like, and the prior old house needs higher cost when being completely dismantled and rebuilt.

Therefore, a house building earthquake-resistant reinforcing structure is needed to solve the above problems.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the defects in the prior art and provide a house building anti-seismic reinforcing structure.

The purpose of the utility model is realized by the following technical scheme: the utility model provides an antidetonation reinforced structure is built in room, builds the wall body including the room, the surface of wall body is built in the room is provided with a damping device, damping device includes shock attenuation shell, a standing groove has been seted up to one side of shock attenuation shell, two damping parts of two fixedly connected with in inside of standing groove, two damping parts's inside is cavity, two a movable hole has all been seted up to one side of damping part, two a shock attenuation pole, two have all been pegged graft to the inside of movable hole a damping spring, two sees that the surface of shock attenuation pole has cup jointed a damping spring, two a limit nut of one side fixedly connected with of damping spring, two mounting panel of the equal fixedly connected with in shock attenuation pole both sides, two fixing device of one side fixedly connected with of shock attenuation shell.

Optionally, the fixing device includes a first rotating block, a rotating hole is formed in one side of the first rotating block, a second rotating block is connected to the outer surface of the first rotating block in a rotating mode, a supporting rod is fixedly connected to one side of the second rotating block, a third rotating block is fixedly connected to one side of the supporting rod, a supporting base is connected to one side of the third rotating block in a rotating mode, and a plurality of anti-slip grooves are formed in one side of the supporting base.

Optionally, two first through holes are formed in one side of the first rotating block, two first bolts are fixedly connected to the inner portions of the first through holes, one side of the first rotating block is fixedly connected to one side of the damping shell through the first bolts, two second through holes are formed in one side of the second rotating block, second bolts are inserted into the inner portions of the second through holes, and one side of the second rotating block is fixedly connected to one side of the supporting rod through the second bolts.

Optionally, two third through holes are formed in one side of the supporting base, a third bolt is inserted into the two third through holes, and one side of the supporting base is fixedly connected to the ground through the third bolt.

Optionally, two first mounting holes are formed in two sides of each of the two damping members, a fourth bolt is inserted into the first mounting holes, and one side of each of the two damping members is fixedly connected to one side of the placing groove through the fourth bolt.

Optionally, a second mounting hole is formed in one side of each mounting plate, a fifth bolt is inserted into the corresponding second mounting hole, and one side of each mounting plate is fixedly connected to one side of the building wall through the corresponding fifth bolt.

Optionally, the shape of shock attenuation shell and the external surface looks adaptation of wall body are built in the room, one side overlap joint in the external surface of wall body is built in the room to one side of shock attenuation shell.

Optionally, the limiting nut and the damping spring are both located inside the damping piece.

Optionally, the inner part of the limiting nut is fixedly connected to the outer surface of the shock absorption rod.

The utility model has the following advantages:

1. the shock absorption device provided by the utility model can reduce the shock of the building wall body and the damage to the building wall body, when the building wall body shakes, the mounting plate drives the shock absorption rod to shake left and right, so that the shock absorption spring moves left and right, and the limit nut is arranged to play a limiting role, so that the shock absorption spring moves left and right to play a buffering role and reduce external force, thereby realizing the function of stabilizing the building wall body.

2. The fixing device is matched with the damping device, so that the shaking of the building wall can be effectively reduced, the stability is realized, and the use by a user is convenient.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic structural view of the shock absorbing device of the present invention;

FIG. 3 is a partial structural view of the shock absorbing device of the present invention;

fig. 4 is a schematic structural view of the fixing device of the present invention.

In the figure: 1-building a wall body, 2-damping devices, 201-damping shells, 202-placing grooves, 203-damping pieces, 204-damping rods, 205-damping springs, 206-limiting nuts, 207-mounting plates, 3-fixing devices, 301-first rotating blocks, 302-second rotating blocks, 303-supporting rods, 304-third rotating blocks and 305-supporting bases.

Detailed Description

The utility model will be further described with reference to the accompanying drawings, but the scope of the utility model is not limited to the following.

As shown in fig. 1 to 4, an earthquake-proof reinforced structure for a building comprises a building wall 1, a damping device 2 is arranged on the outer surface of the building wall 1, the damping device 2 comprises a damping housing 201, a placing groove 202 is arranged on one side of the damping housing 201, two damping members 203 are fixedly connected with the inside of the placing groove 202, the insides of the two damping members 203 are hollow, a movable hole is arranged on one side of each damping member 203, a damping rod 204 is inserted into the insides of the two movable holes, a damping spring 205 is sleeved on the outer surface of each damping rod 204, a limit nut 206 is fixedly connected with one side of each damping spring 205, and a mounting plate 207 is fixedly connected with both sides of each damping rod 204, the earthquake-proof reinforced structure can reduce the earthquake of the building wall 1 through the damping device 2, reduce the damage to the building wall 1, when the building wall 1 shakes, mounting panel 207 drives shock attenuation pole 204 and controls and rock to control damping spring 205 and remove, owing to spacing effect can be played in the stop nut 206 that sets up, damping spring 205 removes about can playing the effect of buffering, reduces external power, thereby realizes stabilizing the function of building wall body 1 in room, this device simple structure, easy to assemble, and the practicality is strong, two fixing device 3 of one side fixedly connected with of shock attenuation shell 201.

As a preferred technical scheme of the utility model: the fixing device 3 comprises a first rotating block 301, one side of the first rotating block 301 is provided with a rotating hole, the outer surface of the first rotating block 301 is rotatably connected with a second rotating block 302, one side of the second rotating block 302 is fixedly connected with a supporting rod 303, one side of the supporting rod 303 is fixedly connected with a third rotating block 304, one side of the third rotating block 304 is rotatably connected with a supporting base 305, and one side of the supporting base 305 is provided with a plurality of anti-skidding grooves.

As a preferred technical scheme of the utility model: two first through-holes have been seted up to one side of first turning block 301, the first bolt of the equal fixedly connected with in inside of two first through-holes, and first bolt fixed connection in one side of shock attenuation shell 201 is passed through to one side of first turning block 301, and two second through-holes have been seted up to one side of second turning block 302, and the second bolt has all been pegged graft in the inside of second through-hole, and second bolt fixed connection in one side of bracing piece 303 is passed through to one side of second turning block 302.

As a preferred technical scheme of the utility model: two third through holes have been seted up to one side of supporting base 305, and the inside of two third through holes is all pegged graft and is had a third bolt, and one side of supporting base 305 is through third bolt fixed connection in ground.

As a preferred technical scheme of the utility model: two first mounting holes have all been seted up to the both sides of two bumper shock absorbers 203, and the inside of eight first mounting holes is all pegged graft and is had a fourth bolt, and one side of two bumper shock absorbers 203 is through fourth bolt fixed connection in one side of standing groove 202.

As a preferred technical scheme of the utility model: a second mounting hole has all been seted up to one side of four mounting panels 207, and the inside of eight second mounting holes is all pegged graft and is had a fifth bolt, and one side of four mounting panels 207 is through fifth bolt fixed connection in one side of building wall body 1 in the room.

As a preferred technical scheme of the utility model: the shape of shock attenuation shell 201 and the outer surface looks adaptation of building wall body 1, one side overlap joint in the outer surface of building wall body 1 of shock attenuation shell 201.

As a preferred technical scheme of the utility model: the limit nut 206 and the damper spring 205 are located inside the damper 203.

As a preferred technical scheme of the utility model: the inner portion of the limit nut 206 is fixedly attached to the outer surface of the shock rod 204.

In summary, the following steps: according to the utility model, the vibration of the building wall body 1 can be reduced through the arranged damping device 2, the damage to the building wall body 1 is reduced, when the building wall body 1 shakes, the mounting plate 207 drives the damping rod 204 to shake left and right, so that the damping spring 205 moves left and right, the limiting nut 206 can play a role in limiting, the damping spring 205 moves left and right to play a role in buffering, external force is reduced, and the function of stabilizing the building wall body 1 is realized, and the device has the advantages of simple structure, convenience in installation and strong practicability; the fixing device 3 can reduce the shaking amplitude of the building wall body 1, so that the fixing effect is realized, the fixing device 3 is matched with the damping device 2, the shaking of the building wall body 1 can be effectively reduced, the stability is realized, and the use by a user is convenient.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides a seismic strengthening structure is built in room which characterized in that: comprises a house building wall body (1), a damping device (2) is arranged on the outer surface of the house building wall body (1), the damping device (2) comprises a damping shell (201), one side of the damping shell (201) is provided with a placing groove (202), the inside of the placing groove (202) is fixedly connected with two shock absorbing pieces (203), the insides of the two shock absorbing pieces (203) are hollow, one side of each shock absorbing piece (203) is provided with a movable hole, the insides of the two movable holes are respectively spliced with a shock absorbing rod (204), the outer surfaces of the two shock absorbing rods (204) are sleeved with a shock absorbing spring (205), one side of each shock absorbing spring (205) is fixedly connected with a limit nut (206), two sides of each shock absorbing rod (204) are respectively fixedly connected with a mounting plate (207), one side of the shock absorption shell (201) is fixedly connected with two fixing devices (3).

2. The anti-seismic reinforced structure of building construction according to claim 1, characterized in that: fixing device (3) are including first turning block (301), a rotation hole has all been seted up to one side of first turning block (301), the surface of first turning block (301) all rotates and is connected with a second turning block (302), bracing piece (303) of one side fixedly connected with of second turning block (302), third turning block (304) of one side fixedly connected with of bracing piece (303), one side of third turning block (304) is rotated and is connected with one and supports base (305), a plurality of antiskid groove have been seted up to one side of supporting base (305).

3. The anti-seismic reinforced structure of building construction according to claim 2, characterized in that: two first through holes are formed in one side of the first rotating block (301), two first bolts are fixedly connected to the inner portions of the first through holes, one side of the first rotating block (301) is fixedly connected to one side of the damping shell (201) through the first bolts, two second through holes are formed in one side of the second rotating block (302), second bolts are inserted into the inner portions of the second through holes, and one side of the second rotating block (302) is fixedly connected to one side of the supporting rod (303) through the second bolts.

4. The anti-seismic reinforced structure of building construction according to claim 2, characterized in that: two third through holes are formed in one side of the supporting base (305), a third bolt is inserted into the third through holes, and one side of the supporting base (305) is fixedly connected to the ground through the third bolt.

5. The anti-seismic reinforced structure of building construction according to claim 1, characterized in that: two first mounting holes are formed in two sides of the shock absorbing pieces (203), eight fourth bolts are inserted into the first mounting holes, and one side of each shock absorbing piece (203) is fixedly connected to one side of the placing groove (202) through the fourth bolts.

6. The anti-seismic reinforced structure of building construction according to claim 1, characterized in that: a second mounting hole is formed in one side of each mounting plate (207), a fifth bolt is inserted into the corresponding second mounting hole, and one side of each mounting plate (207) is fixedly connected to one side of the building wall body (1) through the corresponding fifth bolt.

7. The anti-seismic reinforced structure of building construction according to claim 1, characterized in that: the shape of shock attenuation shell (201) and the outer surface looks adaptation of wall body (1) are built in the room, one side overlap joint in the room of shock attenuation shell (201) builds the surface of wall body (1).

8. The anti-seismic reinforced structure of building construction according to claim 1, characterized in that: the limiting nut (206) and the damping spring (205) are both positioned inside the damping piece (203).

9. The anti-seismic reinforced structure of building construction according to claim 1, characterized in that: the inner part of the limiting nut (206) is fixedly connected to the outer surface of the shock absorption rod (204).