CN218970313U - Building shock insulation rubber support - Google Patents

Abstract

The utility model relates to the technical field of shock insulation rubber supports, in particular to a building shock insulation rubber support, which comprises an upper connecting steel plate, a lower connecting steel plate, a pre-buried steel plate, a clamping tenon, a support body, an upper fixing piece and a lower fixing piece, wherein the support body comprises a rubber column and a plurality of steel plate layers, the steel plate layers are distributed in the rubber column in a spacing way, the steel plate layers are obliquely arranged, a limiting mechanism is arranged on the periphery of the support body and comprises an inner coaming and an outer coaming, a reinforcing damping mechanism is arranged at the bottom of the inner coaming, and the outer coaming is positioned on the periphery of the inner coaming and the reinforcing damping mechanism; through steel sheet layer slope setting to there is stop gear's interior bounding wall and peripheral board, reduces the support body and warp the damage, and be provided with and strengthen damper and can strengthen shock insulation effect, thereby avoid when support body shock attenuation effect reduces holistic shock insulation rubber base shock attenuation effect reduce by a wide margin.

Description

Building shock insulation rubber support

Technical Field

The utility model relates to the technical field of shock insulation rubber supports, in particular to a building shock insulation rubber support.

Background

The traditional anti-seismic technology is to firmly connect the building superstructure with the foundation, but the anti-seismic effect is not ideal, and along with the progress of technology, the current shock-insulation rubber support is widely applied in the building engineering, and the rubber shock-insulation support mainly comprises a high-damping rubber support and a lead rubber support. The high damping rubber support is a rubber support formed by vulcanizing structural members such as high damping rubber materials and steel plates, has good damping performance, and can isolate or consume part of energy of an earthquake, but the conventional shock insulation support is generally singly used, so that the whole shock absorption effect of the shock insulation rubber base is easy to be greatly reduced along with the shock absorption effect when the service life is longer, and certain limitations exist.

Disclosure of Invention

The utility model provides a building shock insulation rubber support for overcoming the defects of the prior art, and the technical scheme is as follows.

The utility model provides a building shock insulation rubber support, including last connecting steel sheet, lower connecting steel sheet, pre-buried steel sheet, the trip, the support body, go up mounting and lower mounting, go up the connecting steel sheet and pass through the trip and connect in the bottom of pre-buried steel sheet, the support body is connected between pre-buried steel sheet and lower connecting steel sheet, and the support body is located the periphery of last connecting steel sheet, go up the mounting and connect on the pre-buried steel sheet, the mounting is connected on connecting steel sheet down, the support body includes the rubber column and a plurality of steel sheet layers, a plurality of steel sheet layers interval distribution is in the rubber column, and a plurality of steel sheet layers are the slope setting, the periphery of support body is provided with stop gear, stop gear includes interior bounding wall and peripheral board, the top of interior bounding wall is connected with the bottom of last connecting steel sheet, the bottom of peripheral board is connected with the top of connecting steel sheet down, interior bounding wall is located the upper portion of support body, the bottom of interior bounding wall is provided with the reinforcing damper, and peripheral wall is located interior bounding wall and strengthens damper's periphery.

Further, strengthen damper and include a plurality of damping spring, a plurality of damping spring evenly distributed is in the lower terminal surface of interior bounding wall, and damping spring's bottom is connected with lower connecting steel sheet.

Further, two connecting rods are connected between the clamping tenons and the upper connecting steel plates in a pre-buried mode, and the two connecting rods are arranged in an inward inclined mode.

Further, go up the mounting and include a plurality of stock and a plurality of sleeve that go up, a plurality of stock are connected respectively on a plurality of sleeves that go up, a plurality of sleeves all weld with the top of pre-buried steel sheet.

Further, the lower fixing piece comprises a plurality of lower anchor rods, a plurality of lower sleeves and a plurality of anchor bolts, the plurality of lower anchor rods are respectively connected with the plurality of lower sleeves, and the lower sleeves are installed on the lower connecting steel plate through the lower anchor rods and the anchor bolts.

Further, a plurality of reinforcing ribs are arranged on the outer side of the top of the inner coaming and the outer side of the bottom of the outer coaming.

Compared with the prior art, the utility model has the beneficial effects that:

through steel sheet layer slope setting to there is stop gear's interior bounding wall and peripheral board, reduces the support body and warp the damage, and be provided with and strengthen damper and can strengthen shock insulation effect, thereby avoid when support body shock attenuation effect reduces holistic shock insulation rubber base shock attenuation effect reduce by a wide margin.

Drawings

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

fig. 2 is a schematic cross-sectional structure of the present utility model.

The reference numerals are respectively: the steel plate fixing device comprises an upper connecting steel plate 1, a lower connecting steel plate 2, an embedded steel plate 3, a clamping tenon 4, a support body 5, an upper fixing piece 6, a lower fixing piece 7, a rubber column 8, a steel plate layer 9, a limiting mechanism 10, an inner coaming 11, an outer coaming 12, a reinforcing damping mechanism 13, a damping spring 14, a connecting rod 15, an upper anchor rod 16, an upper sleeve 17, a lower anchor rod 18, a lower sleeve 19, anchor bolts 20 and reinforcing ribs 21.

Detailed Description

As shown in fig. 1-2, a building shock insulation rubber support, including last connection steel sheet 1, down connect steel sheet 2, pre-buried steel sheet 3, the trip 4, support body 5, go up mounting 6 and lower mounting 7, go up the connection steel sheet 1 and connect in the bottom of pre-buried steel sheet 3 through the trip 4, support body 5 is connected between pre-buried steel sheet 3 and down connect steel sheet 2, and support body 5 is located the periphery of last connection steel sheet 1, go up mounting 6 and connect on pre-buried steel sheet 3, lower mounting 7 is connected on connect steel sheet 2 down, support body 5 includes rubber column 8 and a plurality of steel sheet layers 9, a plurality of steel sheet layers 9 interval distribution is in rubber column 8, and a plurality of steel sheet layers 9 are the slope setting, the periphery of support body 5 is provided with stop gear 10, stop gear 10 includes interior bounding wall 11 and peripheral bounding wall 12, the top of interior bounding wall 11 is connected with the bottom of last connection steel sheet 1, the bottom of peripheral bounding wall 12 is connected with the top of down connect steel sheet 2, interior bounding wall 11 is located the upper portion of support body 5, peripheral bounding wall 12 is located the lower part of support body 5, the bottom of interior bounding wall 11 is provided with reinforcing mechanism 13 and peripheral bounding wall 13 is located in reinforcing mechanism 13.

Further, through the inclined setting of steel sheet layer 9 to there is stop gear 10 interior bounding wall 11 and peripheral board 12, reduce support body 5 deformation damage, and be provided with strengthen damper 13 and can strengthen the shock insulation effect, thereby avoid when support body 5 shock attenuation effect reduces holistic shock insulation rubber base shock attenuation effect and reduce by a wide margin.

Further, the reinforcing damping mechanism 13 comprises a plurality of damping springs 14, the damping springs 14 are uniformly distributed on the lower end surface of the inner coaming 11, and the bottoms of the damping springs 14 are connected with the lower connecting steel plate 2; the plurality of damping springs 14 can enhance the overall damping effect of the shock-insulating rubber base.

Further, two connecting rods 15 are connected between the clamping tenons 4 and the upper connecting steel plate 1 in a pre-buried mode, and the two connecting rods 15 are obliquely arranged inwards; the stability of the connection between the upper connection steel plate 1 and the embedded steel plate 3 is enhanced.

Further, the upper fixing member 6 includes a plurality of upper anchor rods 16 and a plurality of upper sleeves 17, the plurality of upper anchor rods 16 are respectively connected to the plurality of upper sleeves 17, and the plurality of upper sleeves 17 are welded to the top of the pre-buried steel plate 3.

Further, the lower fixing member 7 includes a plurality of lower anchors 18, a plurality of lower sleeves 19, and a plurality of anchor bolts 20, the plurality of lower anchors 18 are respectively connected to the plurality of lower sleeves 19, and the lower sleeves 19 are mounted on the lower connecting steel plate 2 through the lower anchors 18 and the anchor bolts 20.

Further, a plurality of reinforcing ribs 21 are provided on the top outer side of the inner peripheral plate 11 and the bottom outer side of the outer peripheral plate 12.

Various other corresponding changes and modifications will occur to those skilled in the art from the disclosure herein, and all such changes and modifications are intended to be included within the scope of the present utility model.

Claims (6)

1. The utility model provides a building shock insulation rubber support which characterized in that: including last connecting steel sheet, lower connecting steel sheet, pre-buried steel sheet, the trip, the support body, go up mounting and lower mounting, go up the bottom of connecting steel sheet in pre-buried steel sheet through the trip connection, the support body is connected between pre-buried steel sheet and lower connecting steel sheet, and the support body is located the periphery of last connecting steel sheet, go up the mounting and connect pre-buried steel sheet, lower mounting is connected on connecting steel sheet down, the support body includes rubber column and a plurality of steel sheet layer, a plurality of steel sheet intervals distribute in the rubber column, and a plurality of steel sheet layers are the slope setting, the periphery of support body is provided with stop gear, stop gear includes interior bounding wall and peripheral board, the top of interior bounding wall is connected with the bottom of last connecting steel sheet, the bottom of peripheral board is connected with the top of connecting steel sheet down, interior bounding wall is located the upper portion of support body, the peripheral board is located the lower part of support body, the bottom of interior bounding wall is provided with strengthens damper, and peripheral enclosing board is located interior bounding wall and strengthens damper's periphery.

2. The building vibration-insulating rubber mount according to claim 1, wherein: the reinforced damping mechanism comprises a plurality of damping springs, the damping springs are uniformly distributed on the lower end face of the inner coaming, and the bottoms of the damping springs are connected with the lower connecting steel plate.

3. The building vibration-insulating rubber mount according to claim 1, wherein: two connecting rods are connected between the clamping tenons and the upper connecting steel plates in a pre-buried mode, and the two connecting rods are arranged in an inward inclined mode.

4. The building vibration-insulating rubber mount according to claim 1, wherein: the upper fixing piece comprises a plurality of upper anchor rods and a plurality of upper sleeves, the upper anchor rods are respectively connected to the upper sleeves, and the upper sleeves are welded to the tops of the pre-buried steel plates.

5. The building vibration-insulating rubber mount according to claim 1, wherein: the lower fixing piece comprises a plurality of lower anchor rods, a plurality of lower sleeves and a plurality of anchor bolts, wherein the lower anchor rods are respectively connected with the lower sleeves, and the lower sleeves are arranged on the lower connecting steel plate through the lower anchor rods and the anchor bolts.

6. The building vibration-insulating rubber mount according to claim 1, wherein: a plurality of reinforcing ribs are arranged on the outer side of the top of the inner coaming and the outer side of the bottom of the outer coaming.

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