CN206859507U - Elastic stress structure in wallboard - Google Patents
Elastic stress structure in wallboard Download PDFInfo
- Publication number
- CN206859507U CN206859507U CN201720788097.6U CN201720788097U CN206859507U CN 206859507 U CN206859507 U CN 206859507U CN 201720788097 U CN201720788097 U CN 201720788097U CN 206859507 U CN206859507 U CN 206859507U
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- China
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- prefabricated component
- vertical muscle
- wallboard
- fitting
- stress structure
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Abstract
The utility model discloses elastic stress structure in a kind of wallboard, anti-seismic performance is good and Side fascia breaking resistance improves, its drip irrigation device is, vertical muscle, described vertical muscle is used to connect the first prefabricated component and the second prefabricated component in wallboard, and described vertical muscle is at least slidably connected with one in the first prefabricated component and the second prefabricated component;Elastic parts, described elastic parts includes contradicting the cushion between the first prefabricated component and the second prefabricated component, at least provided with an elastomer block between vertical muscle end and the second prefabricated component between described vertical muscle end and the first prefabricated component, the relative motion between the first prefabricated component and the second prefabricated component is realized by vertical muscle, again by setting cushion between the first prefabricated component and the second prefabricated component, an elastomer block is contradicted on vertical muscle axis direction again, acted synergistically by cushion and elastomer block, considerably increase anti-seismic performance, and Side fascia stress is retrieved by cushion absorbability, reduce the probability of Side fascia cracking.
Description
Technical field
It the utility model is related to elastic stress structure in wallboard.
Background technology
In the case where national policy is supported to promote, prefabricated construction is by as the main trend of future architecture.And precast beam,
Plate node processing is a part for fabricated construction wallboard.Traditional beam, plate node be beam together with the reinforcing bar colligation of plate, use
Concrete one-piece casting, wallboard is set to be linked to be entirety with beam.Traditional way has the disadvantage that:Because beam and plate are integral cast-in-situs
, in beam stress, power is directly transmitted to plate by beam, wallboard stress, the problems such as easily triggering wall crazing, and can trigger wall by
Force deformation, poor seismic behavior.
Utility model content
The technical problems to be solved in the utility model is to provide elastic stress structure in a kind of wallboard, anti-seismic performance it is good and
Side fascia breaking resistance improves.
The utility model provides elastic stress structure in a kind of wallboard with following structure, including:
Vertical muscle, described vertical muscle are used to connect the first prefabricated component and the second prefabricated component in wallboard, and described vertical muscle is at least
It is slidably connected with one in the first prefabricated component and the second prefabricated component;
Elastic parts, described elastic parts include contradicting the cushion between the first prefabricated component and the second prefabricated component,
At least provided with an elastomer block between vertical muscle end and the second prefabricated component between described vertical muscle end and the first prefabricated component.
Preferably, described vertical muscle one end slidably connects built-in fitting and the other end is fixedly connected with sleeve, and described is pre-
Embedded part and sleeve are separately positioned on the first prefabricated component and the second prefabricated component.
Preferably, described vertical muscle both ends slidably connect built-in fitting, and it is pre- that described built-in fitting is separately positioned on first
On product and the second prefabricated component.
Preferably, described vertical muscle one end, which is connected with, anchors termination, resistance surface in described built-in fitting, described anchored end
First end is contradicted with elastomer block and the other end is oppositely arranged with resistance surface.
Preferably, described built-in fitting is provided with for the vertical muscle through hole passed through and the cavity connected with through hole, described sky
Chamber is used to accommodate elastomer block, and described cavity includes cavity main body and the lid with cavity main body screw thread.
Preferably, described vertical muscle is connected with anchoring ends screw.
Preferably, described sleeve is provided with grouting mouth, the first described prefabricated component and the second prefabricated component is at least one is provided with
The grouting through hole connected with grouting mouth.
After above structure, elastic stress structure in wallboard of the present utility model, compared with prior art, have following
Advantage:The first prefabricated component in wallboard and the second prefabricated component are connected by vertical muscle, and pass through vertical muscle and at least one company of slip
Connect, realize the relative motion between the first prefabricated component and the second prefabricated component, then by the first prefabricated component and the second prefabricated component it
Between cushion is set, then an elastomer block is contradicted on vertical muscle axis direction, passes through cushion and elastomer block acts synergistically, realize
Collective effect, anti-seismic performance is considerably increased, and Side fascia stress is retrieved by cushion absorbability, reduce Side fascia cracking
Probability.
Brief description of the drawings
Fig. 1 is the structural representation of elastic stress structure in wallboard of the present utility model.
Fig. 2 is the partial cross structural representation of elastic stress structure in wallboard of the present utility model.
Fig. 3 is the exploded perspective view of built-in fitting of the present utility model.
Shown in figure:1st, the first prefabricated component;2nd, the second prefabricated component;3rd, muscle is indulged;4th, cushion;5th, built-in fitting;51st, through hole;
52nd, cavity;6th, elastomer block;7th, termination is anchored;8th, sleeve.
Embodiment
The utility model is described in further detail with specific embodiment below in conjunction with the accompanying drawings.
Refer to shown in Fig. 1, Fig. 2, Fig. 3, elastic stress structure in wallboard of the present utility model, including:
Vertical muscle 3, described vertical muscle 3 are used to connect the first prefabricated component 1 and the second prefabricated component 2 in wallboard, described vertical muscle 3
At least it is slidably connected with one in the first prefabricated component 1 and the second prefabricated component 2;
Elastic parts, described elastic parts include contradicting the cushion between the first prefabricated component 1 and the second prefabricated component 2
4, at least provided with a bullet between the end of vertical muscle 3 and the second prefabricated component 2 between the described end of vertical muscle 3 and the first prefabricated component 1
Property block 6.
The first prefabricated component 1 in wallboard and the second prefabricated component 2 are connected by vertical muscle 3, and by vertical muscle 3 with it is at least one
It is slidably connected, realizes the relative motion between the first prefabricated component 1 and the second prefabricated component 2, then by the first prefabricated component 1 and second
Cushion 4 is set between prefabricated component 2, then an elastomer block 6 is contradicted on the vertical axis direction of muscle 3, passes through cushion 4 and elastomer block
6 synergies, realize collective effect, considerably increase anti-seismic performance, and retrieve Side fascia stress by the absorbability of cushion 4,
Reduce the probability of Side fascia cracking.
Described one end of vertical muscle 3 slidably connects built-in fitting 5 and the other end is fixedly connected with sleeve 8, described built-in fitting 5
It is separately positioned on sleeve 8 on the first prefabricated component 1 and the second prefabricated component 2, is realized and be slidably connected by a built-in fitting 5, it is fixed
Effect is more preferable.
The described both ends of vertical muscle 3 slidably connect built-in fitting 5, and described built-in fitting 5 is separately positioned on the first prefabricated component 1
On the second prefabricated component 2, there is longer sliding distance, and have longer amount of elastic deformation, antivibration effect is more preferable.
Described one end of vertical muscle 3, which is connected with, anchors termination 7, resistance surface in described built-in fitting 5, described anchoring termination 7
One end is contradicted with elastomer block 6 and the other end is oppositely arranged with resistance surface, can greatly increase overall axial limiting intensity, and increase with
The area that elastomer block 6 contradicts, antivibration effect is good and ensures strength of wall body.
Described built-in fitting 5 is provided with for the vertical through hole 51 passed through of muscle 3 and the cavity 52 connected with through hole 51, described sky
Chamber 52 is used to accommodate elastomer block 6, and described cavity 52 includes cavity main body and the lid with cavity main body screw thread.Cavity 52 is arranged to
Cavity main body and the lid with cavity main body screw thread, convenient to set elastomer block 6, anchoring termination 7 is threadedly coupled with vertical muscle 3, installation side
Just and it is easy to adjust.
A described prefabricated component and the second prefabricated component 2 is at least one is provided with lifting part, convenient lifting, a described prefabricated component
Be equipped with the tie point for fixing reinforcing plate with the second prefabricated component 2, i.e., it is first pre- in a prefabricated component and second when lifting
The reinforcing plates such as the junction welding steel of product 2, reinforcement structure intensity, are dismantled after the completion of lifting, are reduced in hoisting process
Damage rate.A described prefabricated component and the inside of the second prefabricated component 2 is provided with heat-insulation layer, and composite construction can increase heat-insulating property.
Described above is only preferred embodiment of the present utility model, and the scope of protection of the utility model is not limited merely to
Above-described embodiment, all technical schemes belonged under the utility model thinking belong to the scope of protection of the utility model.It should refer to
Go out, for those skilled in the art, some improvement under the premise of the utility model principle is not departed from and
Retouching, these improvements and modifications also should be regarded as the scope of protection of the utility model.
Claims (7)
1. elastic stress structure in a kind of wallboard, including:
Vertical muscle(3), described vertical muscle is for connecting the first prefabricated component in wallboard(1)With the second prefabricated component(2), described vertical muscle
(3)At least with the first prefabricated component(1)With the second prefabricated component(2)In one be slidably connected;
Elastic parts, described elastic parts include contradicting in the first prefabricated component(1)With the second prefabricated component(2)Between cushion
(4), described vertical muscle(3)End and the first prefabricated component(1)Between and vertical muscle(3)End and the second prefabricated component(2)Between at least
Provided with an elastomer block(6).
2. elastic stress structure in wallboard according to claim 1, it is characterised in that:Described vertical muscle(3)Slide one end
It is connected with built-in fitting(5)And the other end is fixedly connected with sleeve(8), described built-in fitting(5)And sleeve(8)It is separately positioned on
One prefabricated component(1)With the second prefabricated component(2)On.
3. elastic stress structure in wallboard according to claim 1, it is characterised in that:Described vertical muscle(3)Both ends are sliding
It is dynamic to be connected with built-in fitting(5), described built-in fitting(5)It is separately positioned on the first prefabricated component(1)With the second prefabricated component(2)On.
4. elastic stress structure in the wallboard according to Claims 2 or 3, it is characterised in that:Described vertical muscle(3)One end connects
It is connected to anchoring termination(7), described built-in fitting(5)Interior resistance surface, described anchoring termination(7)One end and elastomer block(6)Contradict
And the other end is oppositely arranged with resistance surface.
5. elastic stress structure in wallboard according to claim 1, it is characterised in that:Described built-in fitting(5)Provided with confession
Vertical muscle(3)The through hole passed through(51)And and through hole(51)The cavity of connection(52), described cavity(52)For accommodating elasticity
Block(6), described cavity(52)Lid including cavity main body and with cavity main body screw thread.
6. elastic stress structure in wallboard according to claim 4, it is characterised in that:Described vertical muscle(3)With anchored end
Head(7)Threaded connection.
7. elastic stress structure in wallboard according to claim 2, it is characterised in that:Described sleeve(8)Provided with grouting
Mouthful, the first described prefabricated component(1)With the second prefabricated component(2)It is at least one to be provided with the grouting through hole connected with grouting mouth.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201720788097.6U CN206859507U (en) | 2017-06-30 | 2017-06-30 | Elastic stress structure in wallboard |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201720788097.6U CN206859507U (en) | 2017-06-30 | 2017-06-30 | Elastic stress structure in wallboard |
Publications (1)
Publication Number | Publication Date |
---|---|
CN206859507U true CN206859507U (en) | 2018-01-09 |
Family
ID=60829541
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201720788097.6U Active CN206859507U (en) | 2017-06-30 | 2017-06-30 | Elastic stress structure in wallboard |
Country Status (1)
Country | Link |
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CN (1) | CN206859507U (en) |
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2017
- 2017-06-30 CN CN201720788097.6U patent/CN206859507U/en active Active
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