CN212565031U - Shock insulation installation device for building electrical equipment - Google Patents

Abstract

The utility model discloses a shock insulation mounting device for building electrical equipment, which comprises a mounting device, a fixing device, a first damping device and a second damping device, wherein the mounting device is arranged on the ground, the fixing device is arranged above the mounting device, the first damping device and the second damping device are both arranged in the mounting device, the second damping device is arranged on the side surface of the first damping device, the first damping device comprises a bottom box, the bottom box is arranged in the mounting device, a box groove is arranged in the bottom box, a mounting plate is arranged in the box groove, through arranging the fixing device, the first damping device and the second damping device, the vibration generated by the electrical equipment during working can be obviously weakened, the electrical equipment can not generate larger noise due to vibration, meanwhile, the mounting of the electrical equipment can be firmer, the mounting of the electrical equipment can not be unstable due to vibration, the electrical equipment is prevented from falling down to harm the life safety of people.

Description

Shock insulation installation device for building electrical equipment

Technical Field

The utility model belongs to the building field, concretely relates to building shock insulation installation device for electrical equipment.

Background

The building refers to an asset formed by artificial construction, belongs to the category of fixed assets, and comprises two categories of houses and buildings. A house is an engineered building for people to live, work, study, produce, manage, entertain, store goods, and perform other social activities. The difference from buildings is structures, which refer to engineering buildings other than houses, such as fences, roads, dams, wells, tunnels, water towers, bridges, chimneys, and the like.

Electrical equipment is often used in the building field, use electrical equipment to improve building construction efficiency, however current electrical equipment often is simple when using just installs electrical equipment subaerial, and do not set up damping device or only simple use shock pad reaches the absorbing purpose, shock attenuation effect is not obvious like this, still can produce violent vibration, also can make electrical equipment fixed no longer firm when because vibration can make electrical equipment produce great vibration noise, even can make electrical equipment fall down because vibration, take place danger and endanger people's life safety.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a building is shock insulation installation device for electrical equipment to solve the problem that proposes among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a building is shock insulation installation device for electrical equipment, includes installation device, fixing device, first damping device and second damping device, installation device sets up subaerial, fixing device sets up the top at installation device, first damping device and second damping device all set up in installation device, second damping device sets up the side at first damping device.

Preferably, the first damping device comprises a bottom box, the bottom box is arranged in the mounting device, a box groove is arranged in the bottom box, a mounting plate is arranged in the box groove, the mounting plate is connected with the box groove in a sliding manner, the mounting plate penetrates through the box groove and extends to the outside of the box groove, a support rod is arranged between the mounting plate and the bottom box, a first gear and a second gear are arranged in the bottom box, the first gear is meshed with the second gear, the first gear and the second gear are both arranged below the mounting plate, a first rack is arranged at the bottom of the mounting plate, the first rack is meshed with the first gear, a box cover is arranged on the side surface of the bottom box close to the second gear, a second rack is arranged in the box cover, the second rack is meshed with the second gear, a rocker is arranged at the bottom of the bottom box, one end of the rocker is arranged under the second rack, the other end of wane is provided with the roof, the roof is articulated with the wane, the bottom of mounting panel is provided with spacing box, the one end of roof extend to in the spacing box and with spacing box sliding connection.

Preferably, second damping device includes the shock attenuation box, the shock attenuation box sets up in installation device, be provided with the side channel in the shock attenuation box, be provided with the slide in the side channel, slide and side channel sliding connection, set up damping spring between the one end of slide and the side channel, the other end of slide is provided with the second marble, the surface of mounting panel is provided with the shock-absorbing rod, the shock-absorbing rod extends to in the shock attenuation box, the surface of shock-absorbing rod is provided with first marble, first marble and second marble joint.

Preferably, the installation device includes the mounting box, the mounting box sets up subaerial, end box sets up in the mounting box, the shock attenuation box sets up the bottom at the mounting box, the top of mounting box is provided with electric, electric and mounting panel fixed connection.

Preferably, fixing device includes the curb plate, the curb plate sets up the top at the mounting box, be provided with the bolt in the curb plate, bolt and curb plate threaded connection, the one end that the bolt is close to electric spare is provided with buffer spring, buffer spring's surface is provided with the stripper plate, the stripper plate offsets with electric spare.

Compared with the prior art, the beneficial effects of the utility model are that: through setting up fixing device, first damping device and second damping device, can make electrical equipment obtain obvious weakening at the vibration that the during operation produced, make electrical equipment can not produce great noise because of the vibration, also can make electrical equipment installation more firm simultaneously, can not lead to electrical equipment installation shakiness because of the vibration, avoid electrical equipment to fall down and harm people's life safety.

Drawings

Fig. 1 is a schematic structural view of the present invention;

FIG. 2 is an enlarged view at B in FIG. 1;

FIG. 3 is a cross-sectional view taken at A-A of FIG. 1;

FIG. 4 is an enlarged view at C of FIG. 1;

in the figure: 1. a mounting device; 101. mounting a box; 102. an electrical component; 2. a fixing device; 201. a side plate; 202. a bolt; 203. a pressing plate; 204. a buffer spring; 3. a first damping device; 301. a bottom case; 302. a box groove; 303. mounting a plate; 304. a support bar; 305. a first gear; 306. a first rack; 307. a second gear; 308. a second rack; 309. a kit; 3010. a seesaw; 3011. a limiting box; 3012. a top plate; 4. a second damping device; 401. a shock-absorbing box; 402. a side groove; 403. a damping spring; 404. a slide plate; 405. a first pinball; 406. a second pinball; 407. shock-absorbing rod.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

Referring to fig. 1-4, the present invention provides the following technical solutions: the utility model provides a building is shock insulation installation device for electrical equipment, includes installation device 1, fixing device 2, first damping device 3 and second damping device 4, and installation device 1 sets up subaerial, and fixing device 2 sets up in installation device 1's top, and first damping device 3 and second damping device 4 all set up in installation device 1, and second damping device 4 sets up the side at first damping device 3.

In order to reduce the vibration generated when the electrical component 102 operates, in this embodiment, it is preferable that the first damping device 3 includes a bottom case 301, the bottom case 301 is disposed in the mounting device 1, a case groove 302 is disposed in the bottom case 301, a mounting plate 303 is disposed in the case groove 302, the mounting plate 303 is slidably connected to the case groove 302, the mounting plate 303 penetrates the case groove 302 and extends to the outside of the case groove 302, a support rod 304 is disposed between the mounting plate 303 and the bottom case 301, a first gear 305 and a second gear 307 are disposed in the bottom case 301, the first gear 305 is engaged with the second gear 307, the first gear 305 and the second gear 307 are both disposed below the mounting plate 303, a first rack 306 is disposed at the bottom of the mounting plate 303, the first rack 306 is engaged with the first gear 305, a case 309 is disposed on a side surface of the bottom case 301 close to the second gear 307, a second rack 308 is disposed in the case, the second rack 308 is engaged with the second gear 307, the bottom of the bottom box 301 is provided with a rocker 3010, one end of the rocker 3010 is arranged under the second rack 308, the other end of the rocker 3010 is provided with a top plate 3012, the top plate 3012 is hinged to the rocker 3010, the bottom of the mounting plate 303 is provided with a limit box 3011, one end of the top plate 3012 extends into the limit box 3011 and is connected with the limit box 3011 in a sliding manner, when the mounting plate 303 vibrates, the first rack 306 drives the first gear 305 to rotate counterclockwise, and then the second gear 307 rotates clockwise, so that the second rack 308 moves downward, and one end of the rocker 3010 descends, and the other end of the rocker 3010 ascends, so that the top plate 3012 slides in the limit box 3011, and presses the mounting plate 303 upward, so that the position of the mounting plate 303 remains unchanged, and further vibration generated when the electrical component 102 works is reduced.

In order to further reduce the vibration generated when the electrical component 102 works, in the present embodiment, it is preferable that the second vibration absorbing device 4 includes a vibration absorbing box 401, the vibration absorbing box 401 is disposed in the mounting device 1, a side groove 402 is disposed in the vibration absorbing box 401, a sliding plate 404 is disposed in the side groove 402, the sliding plate 404 is slidably connected to the side groove 402, a vibration absorbing spring 403 is disposed between one end of the sliding plate 404 and the side groove 402, a second marble 406 is disposed at the other end of the sliding plate 404, a vibration absorbing rod 407 is disposed on the surface of the mounting plate 303, the vibration absorbing rod 407 extends into the vibration absorbing box 401, a first marble 405 is disposed on the surface of the vibration absorbing rod 407, the first marble 405 is engaged with the second marble 406, when the mounting plate 303 has a downward vibration tendency, the vibration absorbing rod 407 moves downward in the vibration absorbing box 401, the first marble 405 presses the second marble 406, the second marble 406 presses the sliding plate 404 to move the sliding plate 404 in the side vibration absorbing groove 402, and the spring 403 has a certain support to, further, the shock absorbing rod 407 is supported to a certain extent, so that the distance of the shock absorbing rod 407 descending in the shock absorbing box 401 is reduced, and further, the vibration generated when the electric component 102 operates is reduced.

In order to mount the electrical component 102 in the mounting box 101, in the present embodiment, it is preferable that the mounting device 1 includes the mounting box 101, the mounting box 101 is disposed on the ground, the bottom box 301 is disposed in the mounting box 101, the shock absorbing box 401 is disposed at the bottom of the mounting box 101, the electrical component 102 is disposed at the top of the mounting box 101, and the electrical component 102 is fixedly connected to the mounting plate 303.

In order to fix the electrical component 102 and reduce the vibration generated when the electrical component 102 operates, in the embodiment, preferably, the fixing device 2 includes a side plate 201, the side plate 201 is disposed above the mounting box 101, a bolt 202 is disposed in the side plate 201, the bolt 202 is in threaded connection with the side plate 201, a buffer spring 204 is disposed at one end of the bolt 202 close to the electrical component 102, a pressing plate 203 is disposed on a surface of the buffer spring 204, the pressing plate 203 abuts against the electrical component 102, the bolt 202 is screwed to drive the pressing plate 203 to move towards the electrical component 102, so as to fix the electrical component 102, and the buffer spring 204 can have a buffering force between the bolt 202 and the pressing plate 203, thereby preventing the electrical component 102 from being damaged during fixing.

The utility model discloses a theory of operation and use flow: after the utility model is installed, the installation fixing and safety protection of the utility model are firstly checked, then the electric appliance can be used, when in use, the electric appliance 102 is placed on the mounting plate 303, and the bolt 202 is screwed to make the bolt 202 drive the extrusion plate 203, contact and extrude the electric appliance 102, so that the electric appliance 102 can be fixed on the mounting plate 303, when the electric appliance 102 works to generate vibration, the electric appliance 102 can drive the mounting plate 303 to vibrate downwards, at the moment, the first rack 306 in the first damping device 3 can vibrate downwards, the first gear 305 can rotate anticlockwise, further the second gear 307 can rotate clockwise, and the second rack 308 can move downwards, further one end of the warped plate 3010 is extruded, and the other end of the warped plate 3010 tilts, the top plate 3012 at the other end of the warped plate 3010 upwards extrudes the mounting plate 303, further the electric appliance 102 is damped, and at the damping rod 407 vibrates downwards in the damping box 401, the first marble 405 on the surface of the shock-absorbing rod 407 presses the second marble 406, so that the second marble 406 presses the sliding plate 404, the sliding plate 404 slides in the side groove 402, and the shock-absorbing spring 403 supports the sliding plate 404, so that the sliding plate 404 moves more slowly, and vibration generated when the electrical component 102 works is reduced.

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 (5)

1. The utility model provides a building is shock insulation installation device for electrical equipment, includes installation device (1), fixing device (2), first damping device (3) and second damping device (4), its characterized in that: the mounting device (1) is arranged on the ground, the fixing device (2) is arranged above the mounting device (1), the first damping device (3) and the second damping device (4) are arranged in the mounting device (1), and the second damping device (4) is arranged on the side face of the first damping device (3).

2. A seismic isolation mounting apparatus for construction electrical equipment as claimed in claim 1, wherein: the first damping device (3) comprises a bottom box (301), the bottom box (301) is arranged in the mounting device (1), a box groove (302) is arranged in the bottom box (301), a mounting plate (303) is arranged in the box groove (302), the mounting plate (303) is in sliding connection with the box groove (302), the mounting plate (303) penetrates through the box groove (302) and extends to the outside of the box groove (302), a supporting rod (304) is arranged between the mounting plate (303) and the bottom box (301), a first gear (305) and a second gear (307) are arranged in the bottom box (301), the first gear (305) is meshed with the second gear (307), the first gear (305) and the second gear (307) are both arranged below the mounting plate (303), a first rack (306) is arranged at the bottom of the mounting plate (303), and the first rack (306) is meshed with the first gear (305), the side that end box (301) is close to second gear (307) is provided with cover box (309), be provided with second rack (308) in cover box (309), second rack (308) and second gear (307) meshing, the bottom of end box (301) is provided with wane (3010), the one end setting of wane (3010) is under second rack (308), the other end of wane (3010) is provided with roof (3012), roof (3012) and wane (3010) are articulated, the bottom of mounting panel (303) is provided with spacing box (3011), the one end of roof (3012) extends to in spacing box (3011) and with spacing box (3011) sliding connection.

3. A seismic isolation mounting apparatus for construction electrical equipment as claimed in claim 2, wherein: second damping device (4) are including shock attenuation box (401), shock attenuation box (401) set up in installation device (1), be provided with side groove (402) in shock attenuation box (401), be provided with slide (404) in side groove (402), slide (404) and side groove (402) sliding connection, set up damping spring (403) between the one end of slide (404) and side groove (402), the other end of slide (404) is provided with second marble (406), the surface of mounting panel (303) is provided with shock attenuation pole (407), shock attenuation pole (407) extend to in shock attenuation box (401), the surface of shock attenuation pole (407) is provided with first marble (405), first marble (405) and second marble (406) joint.

4. A seismic isolation mounting apparatus for construction electrical equipment as claimed in claim 3, wherein: installation device (1) includes mounting box (101), mounting box (101) set up subaerial, end box (301) set up in mounting box (101), shock attenuation box (401) set up the bottom at mounting box (101), the top of mounting box (101) is provided with electric component (102), electric component (102) and mounting panel (303) fixed connection.

5. A seismic isolation mounting apparatus for construction electrical equipment as claimed in claim 4, wherein: fixing device (2) include curb plate (201), curb plate (201) set up the top in mounting box (101), be provided with bolt (202) in curb plate (201), bolt (202) and curb plate (201) threaded connection, the one end that bolt (202) are close to electric spare (102) is provided with buffer spring (204), buffer spring (204) the surface is provided with stripper plate (203), stripper plate (203) offset with electric spare (102).

Images