CN217175253U - Anti-seismic protection mechanism for house building - Google Patents

Abstract

The utility model discloses an anti-seismic protection mechanism for building construction, which comprises a concave seat, wherein a damping mechanism is arranged at the inner side of the concave seat, the damping mechanism comprises a fixed block, a guide rod, a fixed plate, a first spring, a movable ring, a first mounting seat, a rotating plate, a second mounting seat, a second spring, a rotating block and a supporting plate, the damping mechanism is arranged on the inner side of the concave seat, the supporting plate is conveniently buffered when being vibrated through the rotating block and the second spring, the position of the first mounting seat is conveniently moved through the second mounting seat and the rotating plate, simultaneously, the pressure on the second spring is relieved while the vibration force is buffered again through the movable ring and the first spring, thereby prolonging the service life of the first spring, and in addition, the effect of the guide rod is utilized to limit the direction of the supporting plate when being vibrated by transverse waves, so as to ensure that the supporting plate is horizontally moved, thereby preventing the support plate from shaking violently.

Description

Anti-seismic protection mechanism for house building

Technical Field

The utility model relates to a housing construction's antidetonation technical field specifically is a antidetonation protection mechanism for housing construction.

Background

The prefabricated house is an entity for providing life, production, work or other activities for users or investors, the house building structure is divided into categories according to building materials of main bearing components such as beams, columns and walls of the house, the design of the house structure aims to ensure that the built structure is safe and applicable, and generally, when an earthquake occurs, the longitudinal wave causes the ground to vibrate up and down, the destructiveness is weak, and the transverse wave causes the ground to shake front and back, left and right, the destructiveness is strong, so that the earthquake-proof treatment needs to be carried out on the transverse wave on the house building.

However, the existing earthquake-resistant protection mechanism for building construction performs earthquake-resistant treatment on the building by lightening earthquake resistance, and due to the lack of an assembly for buffering the earthquake-resistant spring under pressure, the pressure on the earthquake-resistant spring is too large, and the service life of the earthquake-resistant spring is greatly reduced.

SUMMERY OF THE UTILITY MODEL

The utility model provides an antidetonation protection mechanism for housing construction can effectively solve and carry out antidetonation processing to the house through alleviateing the antidetonation that proposes among the above-mentioned background art, owing to lack the subassembly that the anti-seismic spring received pressure and carry out the buffering, the pressure that leads to the anti-seismic spring to receive is too big, greatly reduced anti-seismic spring's life's problem.

In order to achieve the above object, the utility model provides a following technical scheme: an anti-seismic protection mechanism for a house building comprises a concave seat, wherein a damping mechanism is arranged on the side inside the concave seat, and the damping mechanism comprises a fixed block, a guide rod, a fixed plate, a first spring, a movable ring, a first mounting seat, a rotating plate, a second mounting seat, a second spring, a rotating block and a supporting plate;

the fixing blocks are welded at positions on two sides inside the concave seat, guide rods are welded at positions at the bottoms of two ends of each fixing block, a fixing plate is welded at one end of each guide rod, a first spring is embedded at one end of each fixing plate close to the outer end of each guide rod, a movable ring is fixedly connected to one end of each first spring, a first mounting seat is slidably sleeved at one side position of the outer end of each guide rod, a rotating plate is rotatably embedded at one end of each first mounting seat, a second mounting seat is rotatably sleeved at one end of each rotating plate, a second spring is embedded at the bottom of one end of each fixing block, a rotating block is embedded at one end of each second spring, and a supporting plate is rotatably mounted at the outer end of each rotating block;

preferably, the bottom end of the fixed plate is welded with the bottom end of the concave seat, and the inside of the movable ring is matched with the outer end of the guide rod.

Preferably, one end of each of the two second mounting seats is welded to two sides of the corresponding rotating block, and the rotating blocks are rotatably embedded in the bottom positions of the two side ends of the supporting plate.

Preferably, a supporting mechanism is arranged in the middle of the bottom end inside the concave seat, and comprises a guide groove, a movable block, a connecting rod, a supporting rod, a positioning rod, a rubber sleeve, a positioning hole and a limiting frame;

the inside bottom of spill seat is close to backup pad bottom four corners position department and has seted up the guide way, the inside embedding of rotating of guide way has the movable block, and is adjacent movable block one end welds respectively in the connecting rod both ends, two connecting rod one end middle part position punishment does not weld in the bracing piece both ends, the welding of bracing piece outer end middle part position department has the locating lever, the inside bottom central point department of putting of spill seat bonds and has the rubber sleeve, the locating hole has been seted up on rubber sleeve top, the welding of spill seat inside bottom is close to rubber sleeve one side position department has spacing.

Preferably, it is a plurality of the movable block top all welds in backup pad bottom four corners position department, the locating lever top welds in backup pad bottom middle part.

Preferably, the outer end of the positioning rod is matched with the inside of the positioning hole, and a gap is reserved between the inside of the limiting frame and the outer end of the rubber sleeve.

Compared with the prior art, the beneficial effects of the utility model are that: the utility model has the advantages of being scientific and reasonable in structure, convenience safe in utilization:

1. be provided with damper, through turning block and second spring, the convenience is cushioned the backup pad when receiving vibrations, and through second mount pad and rotor plate, conveniently remove the position of first mount pad, simultaneously through activity ring and first spring, when buffering the vibrations power once more, alleviate the pressure that the second spring received, thereby improve the life of first spring, in addition because the effect of guide bar, with this direction of restriction backup pad when receiving the transverse wave vibrations, make the backup pad translation, thereby prevent that the backup pad from appearing acutely rocking.

2. Be provided with supporting mechanism, through guide way and movable block, when the backup pad is supported to the convenience, the auxiliary supporting board removes to through connecting rod and bracing piece, conveniently improve the bearing capacity and the stretching resistance of backup pad, avoid the backup pad to receive vibrations and appear the crack, simultaneously through rubber sleeve and locating hole, be convenient for restrict the angle of rocking of locating lever, and through spacing, be convenient for restrict the angle of rocking of rubber sleeve, prevent that the backup pad from appearing excessively crooked.

Drawings

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description serve to explain the invention and not to limit the invention.

In the drawings:

fig. 1 is a schematic structural diagram of the present invention;

FIG. 2 is a schematic view of the installation structure of the movable ring of the present invention;

fig. 3 is a schematic view of an installation structure of the first installation seat of the present invention;

FIG. 4 is a schematic view of the mounting structure of the positioning rod of the present invention;

reference numbers in the figures: 1. a concave seat;

2. a damping mechanism; 201. a fixed block; 202. a guide bar; 203. a fixing plate; 204. a first spring; 205. a movable ring; 206. a first mounting seat; 207. a rotating plate; 208. a second mounting seat; 209. a second spring; 210. rotating the block; 211. a support plate;

3. a support mechanism; 301. a guide groove; 302. a movable block; 303. a connecting rod; 304. a support bar; 305. positioning a rod; 306. a rubber sleeve; 307. positioning holes; 308. a limiting frame.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are presented herein only to illustrate and explain the present invention, and not to limit the present invention.

Example (b): as shown in fig. 1-4, the utility model provides a technical solution, an antidetonation protection mechanism for housing construction, including concave seat 1, the avris installs damper 2 in concave seat 1, damper 2 includes fixed block 201, guide bar 202, fixed plate 203, first spring 204, loose ring 205, first mount pad 206, rotor plate 207, second mount pad 208, second spring 209, rotor block 210 and backup pad 211;

the two sides of the interior of the concave seat 1 are respectively welded with a fixed block 201, the bottom positions of the two ends of the fixed block 201 are respectively welded with a guide rod 202, one end of the guide rod 202 is welded with a fixed plate 203, one end of the fixed plate 203 is embedded with a first spring 204 near the outer end of the guide rod 202, one end of the first spring 204 is fixedly connected with a movable ring 205 to facilitate the sliding of the movable ring 205, the bottom end of the fixed plate 203 is welded with the bottom end of the interior of the concave seat 1, the interior of the movable ring 205 is matched with the outer end of the guide rod 202, one side position of the outer end of the guide rod 202 is slidably sleeved with a first installation seat 206, one end of the first installation seat 206 is rotatably embedded with a rotating plate 207, one end of the rotating plate 207 is rotatably sleeved with a second installation seat 208, the bottom position of one end of the fixed block 201 is embedded with a second spring 209, one end of the second spring 209 is embedded with a rotating block 210, the outer end of the rotating block 210 is rotatably installed with a supporting plate 211 to facilitate the rotation of the rotating block 210, one end of each of the two second mounting seats 208 is welded to both sides of the corresponding turning block 210, and the turning blocks 210 are rotatably embedded in the bottom positions of both sides of the supporting plate 211.

A supporting mechanism 3 is arranged in the middle of the bottom end in the concave seat 1, and the supporting mechanism 3 comprises a guide groove 301, a movable block 302, a connecting rod 303, a supporting rod 304, a positioning rod 305, a rubber sleeve 306, a positioning hole 307 and a limiting frame 308;

the bottom end of the inner part of the concave seat 1 is provided with guide grooves 301 near the four corners of the bottom end of the supporting plate 211, the inner part of the guide grooves 301 is embedded with movable blocks 302 in a rotating way, one end of each adjacent movable block 302 is respectively welded at the two ends of the connecting rod 303, the middle part of one end of each connecting rod 303 is respectively welded at the two ends of the supporting rod 304, the middle part of the outer end of the supporting rod 304 is welded with a positioning rod 305 for supporting the supporting plate 211, the top ends of a plurality of movable blocks 302 are all welded at the four corners of the bottom end of the supporting plate 211, the top end of the positioning rod 305 is welded at the middle part of the bottom end of the supporting plate 211, a rubber sleeve 306 is adhered at the center position of the bottom end of the inner part of the concave seat 1 for limiting the movable position of the positioning rod 305, the top end of the rubber sleeve 306 is provided with a positioning hole 307, a limiting frame 308 is welded at the position of the bottom end of the inner part of the concave seat 1 near the rubber sleeve 306 for facilitating the movement of the rubber sleeve 306, the outer end of the positioning rod 305 is matched with the inner part of the positioning hole 307, a gap is reserved between the inner part of the limiting frame 308 and the outer end of the rubber sleeve 306.

The utility model discloses a theory of operation and use flow: firstly, when the supporting plate 211 is vibrated, the supporting plate 211 drives the rotating block 210 to move, so that the rotating block 210 extrudes the second spring 209, and further the supporting plate 211 is buffered when being vibrated, and simultaneously the rotating block 210 drives the second mounting seat 208 to move, so that the second mounting seat 208 drives the rotating plate 207 to move, and further the rotating plate 207 drives the first mounting seat 206 to slide at the outer end of the guide rod 202, at this time, the rotating plate 207 rotates between the second mounting seat 208 and the first mounting seat 206, when the first mounting seat 206 is contacted with the movable ring 205, the movable ring 205 drives the first spring 204 to compress, and when the vibration force is buffered again, the pressure on the second spring 209 is relieved, and in addition, because the guide rod 202 limits the moving position of the first mounting seat 206, the direction of the supporting plate 211 when being vibrated is subjected to transverse waves is limited, so that the supporting plate 211 is translated, thereby preventing the supporting plate 211 from shaking sharply;

secondly, when the backup pad 211 rocks, the backup pad 211 drives the movable block 302 and rotates in the inside of guide way 301, when supporting the backup pad 211, the auxiliary support board 211 removes, and because connecting rod 303 and bracing piece 304, conveniently improve the bearing capacity and the stretching resistance of backup pad 211, avoid the backup pad 211 to receive vibrations and appear the crack, in addition the backup pad 211 rocks the time drive locating lever 305 and rocks at locating hole 307, thereby locating lever 305 drives rubber sleeve 306 and rocks, because the effect of rubber sleeve 306, be convenient for restrict the angle of rocking of locating lever 305, rubber sleeve 306 rocks in spacing 308 is inside simultaneously, because the effect of spacing 308, be convenient for restrict the angle of rocking of rubber sleeve 306, prevent that excessive crooked appears in backup pad 211.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described in the foregoing embodiments, or equivalents may be substituted for elements thereof. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (6)

1. An anti-seismic protection mechanism for building construction, comprising a concave seat (1), characterized in that: a damping mechanism (2) is mounted on the inner edge side of the concave seat (1), and the damping mechanism (2) comprises a fixing block (201), a guide rod (202), a fixing plate (203), a first spring (204), a movable ring (205), a first mounting seat (206), a rotating plate (207), a second mounting seat (208), a second spring (209), a rotating block (210) and a supporting plate (211);

the two sides of the interior of the concave seat (1) are respectively welded with a fixed block (201), the bottom positions of the two ends of the fixed block (201) are respectively welded with a guide rod (202), a fixing plate (203) is welded at one end of the guide rod (202), a first spring (204) is embedded at one end of the fixing plate (203) close to the outer end of the guide rod (202), one end of the first spring (204) is fixedly connected with a movable ring (205), a first mounting seat (206) is sleeved at one side of the outer end of the guide rod (202) in a sliding manner, one end of the first mounting seat (206) is rotatably embedded with a rotating plate (207), one end of the rotating plate (207) is rotatably sleeved with a second mounting seat (208), a second spring (209) is embedded at the bottom of one end of the fixed block (201), one end of the second spring (209) is embedded with a rotating block (210), and the outer end of the rotating block (210) is rotatably provided with a supporting plate (211).

2. An earthquake protection mechanism for building construction according to claim 1, wherein: the bottom end of the fixing plate (203) is welded with the bottom end of the inner part of the concave seat (1), and the inner part of the movable ring (205) is matched with the outer end of the guide rod (202).

3. An earthquake protection mechanism for use in building construction according to claim 1, wherein: two second mount pad (208) one end welds respectively in turning block (210) both sides, backup pad (211) both sides end bottom position department all rotates and has embedded turning block (210).

4. An earthquake protection mechanism for building construction according to claim 1, wherein: a supporting mechanism (3) is arranged in the middle of the bottom end in the concave seat (1), and the supporting mechanism (3) comprises a guide groove (301), a movable block (302), a connecting rod (303), a supporting rod (304), a positioning rod (305), a rubber sleeve (306), a positioning hole (307) and a limiting frame (308);

concave seat (1) inside bottom is close to backup pad (211) bottom four corners position department and has seted up guide way (301), guide way (301) inside rotation embedding has movable block (302), and is adjacent movable block (302) one end welds respectively in connecting rod (303) both ends, two connecting rod (303) one end middle part position department welds respectively in bracing piece (304) both ends, bracing piece (304) outer end middle part position department welding has locating lever (305), concave seat (1) inside bottom central point department of putting bonds and has rubber sleeve (306), locating hole (307) have been seted up on rubber sleeve (306) top, concave seat (1) inside bottom is close to rubber sleeve (306) one side position department welding and has spacing (308).

5. An earthquake protection mechanism for building construction according to claim 4, wherein: a plurality of movable block (302) top all welds in backup pad (211) bottom four corners position department, locating lever (305) top welds in backup pad (211) bottom middle part.

6. An earthquake protection mechanism for building construction according to claim 4, wherein: the outer end of the positioning rod (305) is matched with the inside of the positioning hole (307), and a gap is reserved between the inside of the limiting frame (308) and the outer end of the rubber sleeve (306).

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