CN207211899U - A kind of anti-seismic structure of reinforced concrete beam column - Google Patents
A kind of anti-seismic structure of reinforced concrete beam column Download PDFInfo
- Publication number
- CN207211899U CN207211899U CN201720986788.7U CN201720986788U CN207211899U CN 207211899 U CN207211899 U CN 207211899U CN 201720986788 U CN201720986788 U CN 201720986788U CN 207211899 U CN207211899 U CN 207211899U
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- sliding cavity
- beam column
- erecting bed
- groove
- column
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Abstract
The utility model discloses a kind of anti-seismic structure of reinforced concrete beam column, including lower beam column, the sliding cavity that side sets opening is offered on the lower beam column, two symmetrically arranged first through hole are offered in the top inner wall of sliding cavity, support column is slidably fitted with first through hole, the top of two support columns all extends to the top of lower beam column and is installed with same upper beam column, buffering anti-shock mechanism is provided with sliding cavity, buffering anti-shock mechanism is engaged with support column, multiple sealing rings are installed with first through hole, the outside of support column on the inside of corresponding sealing ring with being slidingly sealed connection, buffering anti-shock mechanism includes fixed station, fixed station is located in sliding cavity, the bottom of two support columns all extends in sliding cavity and mutually welded with the top of fixed station.The utility model is simple in construction, easy to operate, can quickly release the fixation to erecting bed, is easy to dismantle spring or changed.
Description
Technical field
It the utility model is related to building structure technology field, more particularly to a kind of anti-seismic structure of reinforced concrete beam column.
Background technology
Beam column is primary structural component vertical in building, the weight of support object above it, in Chinese architecture, crossbeam
Right cylinder, post array is responsible for the weight of support beam frame structure and other parts, such as eaves, between principal post and ground, often has the stone base of column,
Also there are other less posts in addition, be not interposing on ground, and be placed on roof beam structure, with the weight of object above support, then thoroughly
Beam frame structure is crossed, weight is reached on principal post.
In building construction, in order that building possesses certain function of seismic resistance, people pacify on the beam column of building
Equipped with buffering spring, beam column can enter row buffering when shaking to beam column, but common buffering is all fixedly mounted at beam with spring
On post, in spring corrosion and damage, it is not easy to dismantle spring or changed, the normal use of beam column can be influenceed, therefore
It is used to solve the above problems we have proposed a kind of anti-seismic structure of reinforced concrete beam column.
The content of the invention
The purpose of this utility model is and a kind of armored concrete proposed in order to solve shortcoming present in prior art
The anti-seismic structure of beam column.
To achieve these goals, the utility model employs following technical scheme:
A kind of anti-seismic structure of reinforced concrete beam column, including lower beam column, side is offered on the lower beam column set and open
Mouthful sliding cavity, two symmetrically arranged first through hole are offered in the top inner wall of the sliding cavity, in the first through hole
Support column is slidably fitted with, the top of two support columns all extends to the top of lower beam column and is installed with same upper beam
Post, the sliding cavity is interior to be provided with buffering anti-shock mechanism, and the buffering anti-shock mechanism is engaged with support column.
Preferably, be installed with multiple sealing rings in the first through hole, the outside of the support column with it is corresponding close
Connection is slidingly sealed on the inside of seal.
Preferably, the buffering anti-shock mechanism includes fixed station, and the fixed station is located in sliding cavity, two support columns
Bottom all extends in sliding cavity and mutually welded with the top of fixed station, is slidably fitted with the sliding cavity under fixed station
The erecting bed of side, multiple slide bars is welded with the top of the erecting bed, the bottom of the fixed station offers multiple slide bar grooves, more
Individual slide bar groove is corresponded with multiple slide bars and set, and is extended at the top of the slide bar in corresponding slide bar groove and is slided with slide bar groove
Dynamic connection, the outer sheath of the slide bar are provided with spring, and the bottom of the spring contacts with the top movable of erecting bed, the spring
Top and fixed station bottom movable contact.
Preferably, the number of the slide bar is five to seven, and five to seven slide bar equidistantly distributeds are on the top of erecting bed
Portion.
Preferably, the both sides of the erecting bed are equipped with neck, and card column is offered on the both sides inwall of the sliding cavity
Groove, card column is slidably fitted with the card column groove, the card column mutually clamps with corresponding neck, and the card column groove is away from erecting bed
Side inwall on be installed with push-rod electric machine, the output shaft of the push-rod electric machine mutually welds with corresponding card column.
Preferably, the lower section of the erecting bed is provided with drive mechanism, and the drive mechanism is welded on erecting bed including two
The sleeve pipe of bottom, the inwall of described sleeve pipe are provided with internal thread, and the inside thread of described sleeve pipe is connected with bolt, the bolt
Bottom extends to the lower section of sleeve pipe and is welded with first gear, and mounting groove is offered in the bottom interior wall of the sliding cavity, described
Motor is installed with the bottom interior wall of mounting groove, the output shaft of the motor is extended in sliding cavity and welded
There is second gear, the second gear is between two first gears, and two first gears are meshed with second gear.
Preferably, the lower section of the erecting bed is provided with two rotating shafts, and the bottom of two rotating shafts is welded in the bottom of sliding cavity
On portion's inwall, the bottom of first gear offers rotary axis groove, is extended at the top of the rotating shaft in corresponding rotary axis groove and with turning
The top inner wall of axial trough is in contact, and the rotating shaft is slidably connected with corresponding rotary axis groove.
Compared with prior art, the beneficial effects of the utility model are:Pass through neck, card column, card column groove and push-rod electric machine
It is engaged, is easy to release the fixation to erecting bed, passes through lower beam column, sliding cavity, first through hole, support column, upper beam column, fixation
Platform, erecting bed, sleeve pipe, mounting groove, bolt, second gear, motor, slide bar groove, slide bar, spring, rotating shaft and first gear
It is engaged, spring can be separated with fixed station, spring can be dismantled or changed.
The utility model is simple in construction, easy to operate, can quickly release the fixation to erecting bed, be easy to enter spring
Row dismounting is changed.
Brief description of the drawings
Fig. 1 be the utility model proposes a kind of reinforced concrete beam column anti-seismic structure cross section structure diagram;
Fig. 2 be the utility model proposes the sectional structure of part A of anti-seismic structure of reinforced concrete beam column a kind of show
It is intended to;
Fig. 3 be the utility model proposes the sectional structure of part B of anti-seismic structure of reinforced concrete beam column a kind of show
It is intended to.
In figure:1 time beam column, 2 sliding cavities, 3 first through hole, 4 support columns, beam column on 5,6 fixed stations, 7 erecting beds, 8 sleeve pipes,
9 mounting grooves, 10 bolts, 11 second gears, 12 motors, 13 slide bar grooves, 14 slide bars, 15 springs, 16 necks, 17 card columns, 18
Rotating shaft, 19 card column grooves, 20 push-rod electric machines, 21 first gears.
Embodiment
Below in conjunction with the accompanying drawing in the utility model embodiment, the technical scheme in the embodiment of the utility model is carried out
Clearly and completely describing, it is clear that described embodiment is only the utility model part of the embodiment, rather than whole
Embodiment.
Reference picture 1-3, a kind of anti-seismic structure of reinforced concrete beam column, including lower beam column 1, one is offered on lower beam column 1
Side sets the sliding cavity 2 of opening, and two symmetrically arranged first through hole 3, first through hole are offered in the top inner wall of sliding cavity 2
Support column 4 is slidably fitted with 3, the top of two support columns 4 all extends to the top of lower beam column 1 and is installed with same
Upper beam column 5, sliding cavity 2 is interior to be provided with buffering anti-shock mechanism, and buffering anti-shock mechanism is engaged with support column 4, buffers anti-shock mechanism bag
Include fixed station 6, fixed station 6 is located in sliding cavity 2, the bottoms of two support columns 4 all extend in sliding cavity 2 and with fixed station 6
Top mutually weld, the erecting bed 7 positioned at the lower section of fixed station 6 is slidably fitted with sliding cavity 2, the top of erecting bed 7 is welded with
Multiple slide bars 14, the bottom of fixed station 6 offer multiple slide bar grooves 13, and multiple slide bar grooves 13 are corresponded with multiple slide bars 14 and set
Put, the top of slide bar 14 is extended in corresponding slide bar groove 13 and is slidably connected with slide bar groove 13, and the outer sheath of slide bar 14 is provided with
Spring 15, the bottom of spring 15 contact with the top movable of erecting bed 7, and the top of spring 15 connects with the bottom activity of fixed station 6
Touch, the lower section of erecting bed 7 is provided with drive mechanism, and drive mechanism includes two sleeve pipes 8 for being welded on the bottom of erecting bed 7, sleeve pipe 8
Inwall is provided with internal thread, and the inside thread of sleeve pipe 8 is connected with bolt 10, and the bottom of bolt 10 extends to the lower section of sleeve pipe 8 simultaneously
First gear 21 is welded with, mounting groove 9 is offered in the bottom interior wall of sliding cavity 2, is fixedly mounted in the bottom interior wall of mounting groove 9
There is motor 12, the output shaft of motor 12 extends in sliding cavity 2 and is welded with second gear 11, second gear 11
Between two first gears 21, and two first gears 21 are meshed with second gear 11, by neck 16, card column 17,
Card column groove 19 and push-rod electric machine 20 are engaged, and are easy to release the fixation to erecting bed 7, logical by lower beam column 1, sliding cavity 2, first
Hole 3, support column 4, upper beam column 5, fixed station 6, erecting bed 7, sleeve pipe 8, mounting groove 9, bolt 10, second gear 11, motor
12nd, slide bar groove 13, slide bar 14, spring 15, rotating shaft 18 and first gear 21 are engaged, and can separate spring 15 with fixed station 6,
Spring 15 can be dismantled or changed, the utility model is simple in construction, easy to operate, can quickly release to erecting bed
7 fixation, it is easy to that spring 15 is dismantled or changed.
In the utility model, be installed with multiple sealing rings in first through hole 3, the outside of support column 4 with it is corresponding close
Connection is slidingly sealed on the inside of seal, the number of slide bar 14 is five to seven, and five to seven equidistantly distributeds of slide bar 14 are being pacified
The top of platform 7 is filled, the both sides of erecting bed 7 are equipped with neck 16, card column groove 19 is offered on the both sides inwall of sliding cavity 2, block
Card column 17 is slidably fitted with post groove 19, card column 17 clamps with the corresponding phase of neck 16, side of the card column groove 19 away from erecting bed 7
Push-rod electric machine 20 is installed with inwall, the output shaft of push-rod electric machine 20 welds with the corresponding phase of card column 17, under erecting bed 7
Side is provided with two rotating shafts 18, and the bottom of two rotating shafts 18 is welded in the bottom interior wall of sliding cavity 2, the bottom of first gear 21
Rotary axis groove is offered, the top of rotating shaft 18 extends in corresponding rotary axis groove and is in contact with the top inner wall of rotary axis groove, rotating shaft
18 are slidably connected with corresponding rotary axis groove, pass through lower beam column 1, sliding cavity 2, first through hole 3, support column 4, upper beam column 5, fixed station
6th, erecting bed 7, sleeve pipe 8, mounting groove 9, bolt 10, second gear 11, motor 12, slide bar groove 13, slide bar 14, spring 15,
Rotating shaft 18 and first gear 21 are engaged, and can separate spring 15 with fixed station 6, spring 15 can be dismantled or more
Change, the utility model is simple in construction, easy to operate, can quickly release the fixation to erecting bed 7, is easy to carry out spring 15
Dismounting is changed.
Operation principle:In use, when upper beam column 5 is given a shock, upper beam column 5 drives support column 4 sliding in first through hole 3
Dynamic, support column 4 drives fixed station 6 to be slided in sliding cavity 2, and now fixed station 6 is compressed to spring 15, on spring 15 slows down
The vibrations of beam column 5, when spring 15 damages or needs to change the different spring of intensity, now start push-rod electric machine 20, push rod electricity
The output shaft of machine 20 drives card column 17 to be slided in card column groove 19 so that card column 17 departs from neck 16, releases consolidating to erecting bed 7
It is fixed, push-rod electric machine 20 is closed, starts motor 11, the output shaft of motor 11 drives second gear 11 to rotate, the second tooth
Two first gears 21 of the drive of wheel 11 rotate, and now first gear 21 rotates at the top of rotating shaft 18 and drives 10 turns of bolt
Dynamic, due to being threadedly coupled with screw bolt 10 on the inwall of sleeve pipe 8, bolt 10 causes sleeve pipe 8 to run downwards while rotation,
Sleeve pipe 8 drives erecting bed 7 to run downwards, and now the bottom of upper beam column 5 and the top contact of lower beam column 1, motor 11 continue
Rotate so that slide bar 14 separates with slide bar groove 13, and spring 15 separates with the bottom of fixed station 6, until bolt 10 runs through sleeve pipe 8 simultaneously
Touched with the bottom connection of erecting bed 7, now dismounting and change, complete paired springs can be carried out to spring 15 from the opening of sliding cavity 2
15 dismounting, and be easy to that erecting bed 7 is increased into original position again, it is easy to consolidate erecting bed 7 again using card column 17
It is fixed.
It is described above, the only preferable embodiment of the utility model, but the scope of protection of the utility model is not
This is confined to, any one skilled in the art is in the technical scope that the utility model discloses, according to this practicality
New technical scheme and its utility model design are subject to equivalent substitution or change, should all cover in protection model of the present utility model
Within enclosing.
Claims (7)
1. a kind of anti-seismic structure of reinforced concrete beam column, including lower beam column(1), it is characterised in that the lower beam column(1)On open
The sliding cavity of opening is set provided with side(2), the sliding cavity(2)Top inner wall on offer two symmetrically arranged first
Through hole(3), the first through hole(3)Inside it is slidably fitted with support column(4), two support columns(4)Top all extend to underbeam
Post(1)Top and be installed with same upper beam column(5), the sliding cavity(2)Interior be provided with buffers anti-shock mechanism, described slow
Rush anti-shock mechanism and support column(4)It is engaged.
A kind of 2. anti-seismic structure of reinforced concrete beam column according to claim 1, it is characterised in that the first through hole
(3)Inside it is installed with multiple sealing rings, the support column(4)Outside and the company of being slidingly sealed on the inside of corresponding sealing ring
Connect.
A kind of 3. anti-seismic structure of reinforced concrete beam column according to claim 1, it is characterised in that the buffering antidetonation
Mechanism includes fixed station(6), the fixed station(6)Positioned at sliding cavity(2)It is interior, two support columns(4)Bottom all extend to cunning
Dynamic chamber(2)Interior and and fixed station(6)Top mutually weld, the sliding cavity(2)Inside it is slidably fitted with positioned at fixed station(6)Lower section
Erecting bed(7), the erecting bed(7)Top be welded with multiple slide bars(14), the fixed station(6)Bottom offer it is more
Individual slide bar groove(13), multiple slide bar grooves(13)With multiple slide bars(14)Correspond and set, the slide bar(14)Top extension
To corresponding slide bar groove(13)It is interior and with slide bar groove(13)It is slidably connected, the slide bar(14)Outer sheath be provided with spring(15),
The spring(15)Bottom and erecting bed(7)Top movable contact, the spring(15)Top and fixed station(6)Bottom
Portion's movable contact.
A kind of 4. anti-seismic structure of reinforced concrete beam column according to claim 3, it is characterised in that the slide bar(14)
Number be five to seven, and five to seven slide bars(14)Equidistantly distributed is in erecting bed(7)Top.
A kind of 5. anti-seismic structure of reinforced concrete beam column according to claim 3, it is characterised in that the erecting bed
(7)Both sides be equipped with neck(16), the sliding cavity(2)Both sides inwall on offer card column groove(19), the card column
Groove(19)Inside it is slidably fitted with card column(17), the card column(17)With corresponding neck(16)Mutually clamp, the card column groove(19)
Away from erecting bed(7)Side inwall on be installed with push-rod electric machine(20), the push-rod electric machine(20)Output shaft with it is right
The card column answered(17)Mutually weld.
A kind of 6. anti-seismic structure of reinforced concrete beam column according to claim 3, it is characterised in that the erecting bed
(7)Lower section be provided with drive mechanism, the drive mechanism is welded on erecting bed including two(7)The sleeve pipe of bottom(8), the set
Pipe(8)Inwall be provided with internal thread, described sleeve pipe(8)Inside thread be connected with bolt(10), the bolt(10)Bottom
End extends to sleeve pipe(8)Lower section and be welded with first gear(21), the sliding cavity(2)Bottom interior wall on offer installation
Groove(9), the mounting groove(9)Bottom interior wall on be installed with motor(12), the motor(12)Output
Axle extends to sliding cavity(2)It is interior and be welded with second gear(11), the second gear(11)Positioned at two first gears(21)
Between, and two first gears(21)And second gear(11)It is meshed.
A kind of 7. anti-seismic structure of reinforced concrete beam column according to claim 3, it is characterised in that the erecting bed
(7)Lower section be provided with two rotating shafts(18), two rotating shafts(18)Bottom be welded in sliding cavity(2)Bottom interior wall on,
One gear(21)Bottom offer rotary axis groove, the rotating shaft(18)Top extend to corresponding in rotary axis groove and and rotary axis groove
Top inner wall be in contact, the rotating shaft(18)It is slidably connected with corresponding rotary axis groove.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201720986788.7U CN207211899U (en) | 2017-08-09 | 2017-08-09 | A kind of anti-seismic structure of reinforced concrete beam column |
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CN201720986788.7U CN207211899U (en) | 2017-08-09 | 2017-08-09 | A kind of anti-seismic structure of reinforced concrete beam column |
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CN207211899U true CN207211899U (en) | 2018-04-10 |
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CN201720986788.7U Expired - Fee Related CN207211899U (en) | 2017-08-09 | 2017-08-09 | A kind of anti-seismic structure of reinforced concrete beam column |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN113027226A (en) * | 2021-02-05 | 2021-06-25 | 温州中岩基础工程有限公司 | Road pit protection device |
CN113235739A (en) * | 2021-05-25 | 2021-08-10 | 韦茜 | Assembly type building connecting assembly |
-
2017
- 2017-08-09 CN CN201720986788.7U patent/CN207211899U/en not_active Expired - Fee Related
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN113027226A (en) * | 2021-02-05 | 2021-06-25 | 温州中岩基础工程有限公司 | Road pit protection device |
CN113235739A (en) * | 2021-05-25 | 2021-08-10 | 韦茜 | Assembly type building connecting assembly |
CN113235739B (en) * | 2021-05-25 | 2022-12-06 | 淮南市筑舜预制构件有限公司 | Assembly type structure coupling assembling |
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GR01 | Patent grant | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20180410 Termination date: 20180809 |
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CF01 | Termination of patent right due to non-payment of annual fee |