CN214006714U - Assembled building shock-absorbing structure - Google Patents
Assembled building shock-absorbing structure Download PDFInfo
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- CN214006714U CN214006714U CN202022244507.5U CN202022244507U CN214006714U CN 214006714 U CN214006714 U CN 214006714U CN 202022244507 U CN202022244507 U CN 202022244507U CN 214006714 U CN214006714 U CN 214006714U
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- spring steel
- fixedly connected
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- wall
- absorbing structure
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Abstract
The utility model relates to an assembly type structure technical field just discloses an assembly type structure shock-absorbing structure, including two wall bodies and round pin axle, two the dress draw-in groove has all been seted up to the centre of the relative one side of wall body, two the equal joint of inner wall of dress draw-in groove has spring steel claw, two fixedly connected with dress card post is distinguished to the relative one side of spring steel claw, two the dress card post is all run through and extend to the outside of dress draw-in groove, two the equal fixedly connected with backup pad of one end of the spring steel claw of the mutually the same back of the body of dress card post, two the equal fixedly connected with spring in one side of sliding tray inner wall has been seted up respectively in the backup pad, four. The utility model discloses a, package assembly is simple, makes things convenient for the workman to operate, and save time practices thrift the cost, when can offsetting vertical direction atress, also can offset the difficult deformation that takes place when the earthquake takes place of horizontal direction's atress, lets people use safer and more relieved.
Description
Technical Field
The utility model relates to a building technical field specifically is an assembly type structure shock-absorbing structure.
Background
The prefabricated building is a building formed by prefabricating part or all of components of the building in a factory, then transporting the prefabricated building to a construction site and assembling the components in a reliable connection mode, and is called as a prefabricated building. With the development of modern industrial technology, houses can be built in batches and manufactured in sets like machine production. The prefabricated house components are transported to a construction site to be assembled.
But current assembly type structure shock-absorbing structure only provides the elasticity of vertical direction, reaches the shock attenuation effect, and building shock-absorbing structure can not be fine offset the power of horizontal direction, and the building can take place to deform when taking place the earthquake, collapses even, influences people's use to current assembly type structure shock-absorbing structure, the complicated equipment of being not convenient for of structure wastes workman's time, so proposes an assembly type structure shock-absorbing structure and solves above-mentioned problem.
SUMMERY OF THE UTILITY MODEL
Technical problem to be solved
Not enough to prior art, the utility model provides an assembly type structure shock-absorbing structure possesses and to offset the horizontal direction atress, and the problem of the equipment of being not convenient for has been solved to advantages such as being convenient for equipment that building shock-absorbing structure can not be fine offset the horizontal direction atress.
(II) technical scheme
For realizing that above-mentioned prefabricated building can offset the horizontal direction atress, the purpose of the installation of being convenient for, the utility model provides a following technical scheme: an assembly type building damping structure comprises two wall bodies and a pin shaft, wherein a clamping groove is formed in the middle of one side, opposite to the two wall bodies, the inner walls of the two clamping grooves are clamped with spring steel claws, the opposite sides of the two spring steel claws are respectively and fixedly connected with clamping columns, one ends, opposite to the spring steel claws, of the two clamping columns penetrate through and extend to the outer sides of the clamping grooves, one ends, opposite to the spring steel claws, of the two clamping columns are respectively and fixedly connected with a supporting plate, two sliding grooves are formed in the two supporting plates respectively, one sides of the inner walls of the four sliding grooves are respectively and fixedly connected with springs, the other ends of the four springs are respectively and fixedly connected with sliding blocks, the four sliding blocks are respectively and slidably connected with the inner walls of the sliding grooves, two rotating rods are arranged between the two supporting plates, and the two ends of the two rotating rods are respectively hinged with the four sliding blocks, two the centre of dwang is rotated through round pin axle and is connected, two equal vertical fixedly connected with two telescopic links in both sides about between the backup pad, two all the cover is equipped with supporting spring on the telescopic link, two supporting spring's both ends all with backup pad fixed connection.
Preferably, the spring steel claw is cross-shaped in plan view, and is made of spring steel.
Preferably, two the constant head tank of evenly distributed is seted up in the outside of dress card post, fixedly connected with positioning spring on the inner wall of constant head tank, positioning spring back of the body in the one end fixedly connected with reference column of constant head tank, the reference column back of the body in positioning spring's one end and dress card groove's inner wall joint.
Preferably, the shape of the front view of the joint of the clamping groove and the spring steel claw is isosceles trapezoid.
Preferably, two be equipped with four articulated pieces, two between the backup pad the both ends of dwang are all articulated through articulated piece and sliding block.
Preferably, the telescopic rod comprises a loop bar and a supporting bar, and the supporting bar is located inside the loop bar and is in sliding connection with the inner wall of the loop bar.
(III) advantageous effects
Compared with the prior art, the utility model provides an assembly type structure shock-absorbing structure possesses following beneficial effect:
1. this assembly type structure shock-absorbing structure is connected with the wall body through spring steel claw and reference column, and packaging structure is simple, makes things convenient for the workman to operate, and save time practices thrift the cost, and the spring steel claw can offset the atress of wall body horizontal direction, and the reference column plays the effect of location with the inner wall joint of dress draw-in groove, and positioning spring also can play and also can offset the difficult emergence deformation of atress of horizontal direction when the earthquake takes place, lets people use safelyr.
2. This assembly type structure shock-absorbing structure, through the backup pad structure of longitudinal symmetry, the atress of vertical direction can be offset to supporting spring, dwang, spring of connecting, and when the vertical direction atress of wall body, two backup pads of wall body extrusion, the dwang rotates and drives four sliding blocks and slide to controlling both sides, and partial atress is offset to the spring, and supporting spring offsets the extrusion force of backup pad simultaneously.
Drawings
FIG. 1 is a schematic structural view of the present invention;
FIG. 2 is an enlarged view of the area A of FIG. 1 according to the present invention;
FIG. 3 is an enlarged view of the area B in FIG. 1 according to the present invention;
FIG. 4 is a schematic view of the spring steel claw of the present invention;
FIG. 5 is a schematic view of the connection structure of the positioning post and the positioning groove of the present invention;
fig. 6 is the schematic view of the internal structure of the telescopic rod of the present invention.
In the figure: 1. a wall body; 2. installing a clamping groove; 3. a spring steel claw; 4. installing a clamping column; 5. positioning a groove; 6. a positioning spring; 7. a positioning column; 8. a support plate; 9. a sliding groove; 10. a spring; 11. a slider; 12. rotating the rod; 13. a telescopic rod; 14. a support spring; 131. a loop bar; 132. a support rod.
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 embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.
Referring to fig. 1-6, an assembled shock-absorbing structure for building comprises two walls 1 and a pin shaft, wherein a clamping groove 2 is formed in the middle of one side of each wall 1 opposite to the other side of each wall, a spring steel claw 3 is clamped on the inner wall of each clamping groove 2 for mounting the whole shock-absorbing structure on the wall 1, the spring steel claws 3 can counteract when the wall 1 is stressed in the horizontal direction, clamping columns 4 are fixedly connected to the sides of the two spring steel claws 3 opposite to each other, one ends of the two clamping columns 4 opposite to the spring steel claws 3 penetrate through and extend to the outer side of the clamping grooves 2, supporting plates 8 are fixedly connected to the ends of the two clamping columns 4 opposite to the spring steel claws 3, the supporting plates 8 support the wall 1 and bear the force in the vertical direction of the wall 1, two sliding grooves 9 are formed in the two supporting plates 8, and springs 10 are fixedly connected to one sides of the inner walls of the four sliding grooves 9, the other ends of the four springs 10 are fixedly connected with sliding blocks 11, the four sliding blocks 11 are slidably connected with the inner wall of the sliding groove 9, two rotating rods 12 are arranged between the two supporting plates 8, the two ends of the two rotating rods 12 are respectively hinged with the four sliding blocks 11, the middle of the two rotating rods 12 is rotatably connected through a pin shaft, when an earthquake occurs, the two supporting plates 8 are extruded towards the two rotating rods 12, the two rotating rods 12 connected through the pin shaft rotate to drive the four sliding blocks 11 to slide towards the left side and the right side, the four springs 10 are extruded in the sliding process of the four sliding blocks 11, the stress is counteracted by the springs 10, the left side and the right side between the two supporting plates 8 are vertically and fixedly connected with two telescopic rods 13, the two telescopic rods 13 are respectively sleeved with supporting springs 14, the two ends of the two supporting springs 14 are fixedly connected with the supporting plates 8, when the supporting plates 8 are extruded towards the supporting springs 14, the telescopic rod 13 is shortened and the supporting spring 14 counteracts the pressure of the supporting plate 8.
Furthermore, the overlooking shape of the spring steel claw 3 is cross-shaped, the spring steel claw can be clamped with the clamping groove 2 in four directions, namely front, back, left and right directions, and can offset the stress in the four directions, namely the front, back, left and right directions, and the spring steel claw 3 is made of spring steel and has better elasticity and hardness.
Further, evenly distributed's constant head tank 5 is seted up in the outside of two dress card posts 4, fixedly connected with positioning spring 6 on the inner wall of constant head tank 5, can offset the partial atress of horizontal direction, and positioning spring 6 is carried on the back in the one end fixedly connected with reference column 7 of constant head tank 5, and reference column 7 is carried on the back in positioning spring 6's one end and dress draw-in groove 2's inner wall joint, and reference column 7 plays the positioning action with constant head tank 5 joint to shock-absorbing structure, prevents that shock-absorbing structure from droing.
Furthermore, the shape of the front view of the joint of the clamping groove 2 and the spring steel claw 3 is isosceles trapezoid, and the spring steel claw 3 is convenient to clamp and is not easy to fall off.
Further, be equipped with four articulated pieces between two backup pads 8, the both ends of two dwang 12 are all articulated with sliding block 11 through articulated piece, can drive sliding block 11 and slide to controlling both sides when making dwang 12 pivoted.
Further, the telescopic rod 13 comprises a sleeve rod 131 and a supporting rod 132, the supporting rod 132 is located inside the sleeve rod 131 and is slidably connected with the inner wall of the sleeve rod 131, and the supporting rod 132 slides out of the sleeve rod 131 when the telescopic rod 13 is extended.
The working principle is as follows: when the shock absorber is installed and clamped, the spring steel claw 3 is inserted into the clamping groove 2 for preliminary connection and is adjusted to a proper position, the positioning spring 6 drives the positioning column 7 to be clamped into the positioning groove 5, so that the connection effect is better, the shock absorbing structure can be prevented from falling off, when an earthquake occurs, the supporting plate 8 bears the stress of the wall body 1 in the vertical direction, the supporting plate 8 is extruded towards the direction of the rotating rod 12, the rotating rod 12 connected by the pin shaft rotates to drive the sliding block 11 to slide towards the left side and the right side through the sliding groove 9, the four springs 10 counteract the partial stress of the vertical direction during the sliding process of the sliding block 11, meanwhile, when the supporting plate 8 is extruded towards the supporting spring 14, the telescopic rod 13 is shortened, the supporting spring 14 counteracts the pressure of the supporting plate 8, when the horizontal direction is stressed, the wall body 1 extrudes the spring steel claw 3, the spring steel claw 3 counteracts partial stress, and meanwhile, the wall body 1 extrudes the positioning column 7, the positioning column 7 moves towards the positioning spring 6 and presses the positioning spring 6, and the positioning spring 6 offsets part of horizontal stress.
It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.
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 invention, the scope of which is defined in the appended claims and their equivalents.
Claims (6)
1. The utility model provides an assembly type structure shock-absorbing structure, includes two wall bodies (1) and round pin axle, its characterized in that: the middle of one opposite side of each of the two walls (1) is provided with a clamping groove (2), the inner walls of the two clamping grooves (2) are respectively clamped with a spring steel claw (3), one opposite side of each of the two spring steel claws (3) is respectively and fixedly connected with a clamping column (4), one end of each of the two clamping columns (4) opposite to the spring steel claw (3) penetrates through and extends to the outer side of the clamping groove (2), one end of each of the two clamping columns (4) opposite to the spring steel claw (3) is respectively and fixedly connected with a support plate (8), two sliding grooves (9) are respectively arranged on the two support plates (8), one side of the inner wall of each of the four sliding grooves (9) is respectively and fixedly connected with a spring (10), the other end of each of the four springs (10) is respectively and fixedly connected with a sliding block (11), and the four sliding blocks (11) are respectively and slidably connected with the inner wall of each sliding groove (9), two be provided with two dwang (12), two between backup pad (8) the both ends of dwang (12) are articulated with four sliding blocks (11) respectively, two the centre of dwang (12) is rotated through the round pin axle and is connected, two equal vertical two telescopic links (13) of fixedly connected with in both sides about between backup pad (8), two all the cover is equipped with supporting spring (14), two on telescopic link (13) the both ends of supporting spring (14) all with backup pad (8) fixed connection.
2. The fabricated building shock-absorbing structure according to claim 1, wherein: the spring steel claw (3) is in a cross shape in plan view, and the spring steel claw (3) is made of spring steel.
3. The fabricated building shock-absorbing structure according to claim 1, wherein: two evenly distributed's constant head tank (5) are seted up in the outside of dress card post (4), fixedly connected with positioning spring (6) on the inner wall of constant head tank (5), positioning spring (6) back of the body in one end fixedly connected with reference column (7) of constant head tank (5), reference column (7) back of the body in the one end of positioning spring (6) and the inner wall joint of dress draw-in groove (2).
4. The fabricated building shock-absorbing structure according to claim 1, wherein: the front view of the joint of the clamping groove (2) and the spring steel claw (3) is in an isosceles trapezoid shape.
5. The fabricated building shock-absorbing structure according to claim 1, wherein: two be equipped with four articulated pieces, two between backup pad (8) the both ends of dwang (12) are all articulated through articulated piece and sliding block (11).
6. The fabricated building shock-absorbing structure according to claim 1, wherein: the telescopic rod (13) comprises a loop bar (131) and a supporting rod (132), wherein the supporting rod (132) is located inside the loop bar (131) and is in sliding connection with the inner wall of the loop bar (131).
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CN202022244507.5U CN214006714U (en) | 2020-10-11 | 2020-10-11 | Assembled building shock-absorbing structure |
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CN202022244507.5U CN214006714U (en) | 2020-10-11 | 2020-10-11 | Assembled building shock-absorbing structure |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN113756456A (en) * | 2021-10-14 | 2021-12-07 | 汤竹君 | Building structure heat preservation board convenient to dismantle |
CN117605182A (en) * | 2024-01-18 | 2024-02-27 | 山东惠晟建筑科技有限公司 | Assembled wall body of shock attenuation for prefabricated building |
-
2020
- 2020-10-11 CN CN202022244507.5U patent/CN214006714U/en active Active
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN113756456A (en) * | 2021-10-14 | 2021-12-07 | 汤竹君 | Building structure heat preservation board convenient to dismantle |
CN117605182A (en) * | 2024-01-18 | 2024-02-27 | 山东惠晟建筑科技有限公司 | Assembled wall body of shock attenuation for prefabricated building |
CN117605182B (en) * | 2024-01-18 | 2024-03-26 | 山东惠晟建筑科技有限公司 | Assembled wall body of shock attenuation for prefabricated building |
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Effective date of registration: 20220509 Address after: 242000 water conservancy and Soil Conservation Station Office, No. 5 taohuatan Road, taohuatan Town, Jing County, Xuancheng City, Anhui Province Patentee after: Anhui Huishui Construction Engineering Co.,Ltd. Address before: 310006 Xin Xi Qiao Cun, Jincheng Street, Lin'an District, Hangzhou City, Zhejiang Province Patentee before: Hangzhou Paiqi air purification technology Co.,Ltd. |
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