CN219797000U - Anti-seismic bracket structure for hoisting lamp - Google Patents

Abstract

The utility model discloses an anti-seismic bracket structure for hoisting a lamp, which comprises a hoisting plate, wherein a main anti-seismic boom assembly and an auxiliary anti-seismic boom assembly are arranged on the hoisting plate, and are used for hoisting the hoisting plate and performing primary buffering and shock filtering on shock; the bottom of the hanging plate is provided with the lamp anti-vibration mounting assembly, the lamp anti-vibration mounting assembly is used for mounting the lamp body and carrying out secondary buffering and vibration filtering on vibration received by the lamp body and the hanging plate.

Description

Anti-seismic bracket structure for hoisting lamp

Technical Field

The utility model belongs to the technical field of lamp hoisting supports, and particularly relates to an anti-seismic support structure for hoisting lamps.

Background

The lamps are the general name of lighting tools, and are divided into ceiling lamps, desk lamps, wall lamps, floor lamps and the like, and refer to devices capable of transmitting light, distributing and changing light distribution of a light source, and comprise all parts required for fixing and protecting the light source except the light source and circuit accessories required for connecting with a power supply.

The lamp bracket is required to be installed by using the bracket, the existing lamp bracket is connected by bolts, the lamp bracket can be adjusted when being subjected to conventional micro vibration, the lamp can quickly recover to be normal, but when the lamp is subjected to earthquake or strong vibration, the lamp bracket cannot be subjected to vibration filtering treatment, so that the lamp bracket falls off, the lamp falls off, and potential safety hazards exist, and therefore, the earthquake-resistant bracket structure for the lamp bracket is provided.

Disclosure of Invention

The utility model aims to provide an anti-seismic bracket structure for hoisting a lamp, which aims to solve the problems in the background technology.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the anti-seismic bracket structure for hoisting the lamp comprises a hoisting plate, wherein a main anti-seismic boom assembly and an auxiliary anti-seismic boom assembly are arranged on the hoisting plate, the main anti-seismic boom assembly is connected with the auxiliary anti-seismic boom assembly, and the main anti-seismic boom assembly and the auxiliary anti-seismic boom assembly are used for hoisting the hoisting plate and carrying out primary buffering and shock filtering on shock received by the hoisting plate;

the bottom of hanging plate is provided with lamps and lanterns antidetonation installation component, lamps and lanterns antidetonation installation component is used for installing the lamps and lanterns body, and to lamps and lanterns body with the vibrations that hanging plate received carry out second grade buffering and strain the shake.

Preferably, the main anti-seismic boom components are provided with two groups, the two groups of main anti-seismic boom components are symmetrically arranged on the hanging plate, and each main anti-seismic boom component comprises a main boom, a main mounting piece, a main anti-seismic rubber sleeve and a first locking bolt;

the hanging plate is provided with a main hanging hole which is spliced with the main hanging rod, the hanging plate is provided with a main anti-seismic rubber sleeve groove and a first bolt groove which correspond to the upper end and the lower end of the main hanging hole respectively, the main anti-seismic rubber sleeve is sleeved on the lower part of the main hanging rod, the lower end of the main hanging rod penetrates through the main hanging hole to extend into the first bolt groove, the first locking bolt is arranged in the first bolt groove and is in threaded connection with the main hanging rod, and the upper end of the main anti-seismic rubber sleeve is locked and installed on the main hanging rod through the first locking bolt;

the main mounting piece is arranged at the upper end of the main suspender, and the main mounting piece is hoisted through an expansion bolt.

Preferably, the auxiliary anti-seismic boom components are provided with two groups, the two groups of auxiliary anti-seismic boom components are symmetrically arranged between the two groups of main anti-seismic boom components, and each auxiliary anti-seismic boom component comprises an auxiliary boom, an auxiliary mounting piece, a connecting rod, an auxiliary anti-seismic rubber sleeve, a connecting bolt and a second locking bolt;

the two auxiliary hanging rods are symmetrically arranged on the auxiliary mounting plates through the connecting bolts, and the upper ends of the two auxiliary hanging rods are respectively connected with the two main mounting plates;

the connecting rod is arranged at the bottom end of the auxiliary mounting piece, the auxiliary anti-seismic rubber sleeve is sleeved on the connecting rod, and the auxiliary anti-seismic rubber sleeve is in locking connection with the lifting plate through the connecting rod and the second locking bolt.

Preferably, an auxiliary hanging hole is formed in the hanging plate at a position corresponding to the connecting rod, and an auxiliary anti-seismic rubber sleeve groove and a second bolt groove are respectively formed in the hanging plate at the outer edges of the upper end and the lower end of the auxiliary hanging hole;

the lower extreme of connecting rod passes vice hanging hole extends to in the second bolt groove, vice antidetonation gum cover sets up vice antidetonation gum cover inslot, the second lock bolt sets up in the second bolt groove.

Preferably, the lamp anti-vibration mounting assembly comprises a lamp mounting plate, a supporting rod, a lamp anti-vibration rubber sleeve and a third locking bolt;

the lamp mounting plate is characterized in that the number of the lamp mounting plate is four, the number of the lamp anti-vibration rubber sleeves is eight, two lamp anti-vibration rubber sleeves are sleeved on the number of the lamp mounting plate, the lamp mounting plate is clamped by the two lamp anti-vibration rubber sleeves, and the third locking bolt is arranged at the upper end of the lamp mounting plate.

Preferably, a strut hanging hole is formed in the position, corresponding to the strut, of the hanging plate, lamp anti-vibration rubber sleeve grooves are formed in the outer edges of the upper end and the lower end, corresponding to the strut hanging hole, of the hanging plate, the strut penetrates through the strut hanging hole, and two lamp anti-vibration rubber sleeves on the strut are respectively arranged in the two lamp anti-vibration rubber sleeve grooves.

Compared with the prior art, the utility model has the beneficial effects that:

the utility model is provided with the main suspender, the main anti-vibration rubber sleeve, the auxiliary suspender, the auxiliary anti-vibration rubber sleeve, the lamp mounting plate and the lamp anti-vibration rubber sleeve, when the lamp is subjected to external vibration, the main suspender can firstly sense vibration, the main suspender transmits the vibration to the hanging plate, so that the hanging plate is subjected to vibration, then the vibration is transmitted to the lamp through the lamp mounting plate, so that the lamp is vibrated, in the process, the main anti-vibration rubber sleeve and the auxiliary anti-vibration rubber sleeve among the main suspender, the auxiliary suspender and the hanging plate can perform primary buffering vibration filtering on the vibration, the vibration impact of the vibration on the hanging plate is reduced, the vibration of the hanging plate is subjected to secondary buffering vibration filtering on the vibration after the primary buffering vibration filtering, the vibration impact of the lamp mounting plate is further reduced, the lamp mounting plate is kept stable, the stability of the lamp body in the vibration process is further ensured, the problem that the lamp body is directly subjected to the vibration and the second falling problem is avoided, and the stability and the safety of the lamp body in the use process are ensured.

Drawings

FIG. 1 is a schematic perspective view of the present utility model;

FIG. 2 is a schematic perspective view of the present utility model;

FIG. 3 is a schematic view showing a front perspective structure of a hanger plate of the present utility model;

fig. 4 is a schematic top perspective view of the hanger plate of the present utility model.

In the figure: 1. a hanging plate; 101. a main hanging hole; 102. a main anti-vibration rubber sleeve groove; 103. a first bolt slot; 104. a secondary hanging hole; 105. an auxiliary anti-vibration rubber sleeve groove; 106. a second bolt slot; 107. a strut hanging hole; 108. a lamp anti-vibration rubber sleeve groove; 2. a main shock resistant boom assembly; 201. a main boom; 202. a main mounting piece; 203. a main anti-vibration rubber sleeve; 204. a first locking bolt; 3. a secondary shock resistant boom assembly; 301. a secondary boom; 302. a sub mounting piece; 303. a connecting rod; 304. an auxiliary anti-vibration rubber sleeve; 305. a connecting bolt; 306. a second locking bolt; 4. the lamp anti-vibration installation assembly; 401. a lamp mounting plate; 402. a support rod; 403. anti-vibration rubber sleeve for lamp; 404. and a third locking bolt.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-4, the anti-seismic bracket structure of the hoisting lamp provided by the utility model comprises a hoisting plate 1, wherein a main anti-seismic boom assembly 2 and an auxiliary anti-seismic boom assembly 3 are arranged on the hoisting plate 1, the main anti-seismic boom assembly 2 is connected with the auxiliary anti-seismic boom assembly 3, and the main anti-seismic boom assembly 2 and the auxiliary anti-seismic boom assembly 3 are used for hoisting the hoisting plate 1 and carrying out primary buffering and vibration filtering on vibration received by the hoisting plate 1;

the main anti-seismic boom assembly 2 is provided with two groups, the two groups of main anti-seismic boom assemblies 2 are symmetrically arranged on the hoisting plate 1, and the main anti-seismic boom assembly 2 comprises a main boom 201, a main mounting piece 202, a main anti-seismic rubber sleeve 203 and a first locking bolt 204; the hanging plate 1 is provided with a main hanging hole 101 which is spliced with a main hanging rod 201, the hanging plate 1 is provided with a main anti-seismic rubber sleeve groove 102 and a first bolt groove 103 corresponding to the upper end and the lower end of the main hanging hole 101, a main anti-seismic rubber sleeve 203 is sleeved on the lower part of the main hanging rod 201, the lower end of the main hanging rod 201 passes through the main hanging hole 101 to extend into the first bolt groove 103, a first locking bolt 204 is arranged in the first bolt groove 103 and is in threaded connection with the main hanging rod 201, and the upper end of the main anti-seismic rubber sleeve 203 is locked and installed on the main hanging rod 201 through the first locking bolt 204; the main mounting plate 202 is arranged at the upper end of the main suspender 201, and the main mounting plate 202 is hoisted by an expansion bolt;

the auxiliary anti-seismic boom assembly 3 is provided with two groups, the two groups of auxiliary anti-seismic boom assemblies 3 are symmetrically arranged between the two groups of main anti-seismic boom assemblies 2, and the auxiliary anti-seismic boom assembly 3 comprises an auxiliary boom 301, an auxiliary mounting piece 302, a connecting rod 303, an auxiliary anti-seismic rubber sleeve 304, a connecting bolt 305 and a second locking bolt 306; the two auxiliary suspenders 301 are arranged, the two auxiliary suspenders 301 are symmetrically arranged on the auxiliary mounting plate 302 through connecting bolts 305, and the upper ends of the two auxiliary suspenders 301 are respectively connected with the two main mounting plates 202; the connecting rod 303 is arranged at the bottom end of the auxiliary mounting piece 302, the auxiliary anti-seismic rubber sleeve 304 is sleeved on the connecting rod 303, the auxiliary anti-seismic rubber sleeve 304 is in locking connection with the lifting plate 1 through the connecting rod 303 and the second locking bolt 306, an auxiliary lifting hole 104 is formed in the lifting plate 1 at the position corresponding to the connecting rod 303, and an auxiliary anti-seismic rubber sleeve groove 105 and a second bolt groove 106 are respectively formed in the lifting plate 1 at the outer edges of the upper end and the lower end corresponding to the auxiliary lifting hole 104; the lower end of the connecting rod 303 passes through the auxiliary hanging hole 104 and extends into the second bolt groove 106, the auxiliary anti-seismic rubber sleeve 304 is arranged in the auxiliary anti-seismic rubber sleeve groove 105, and the second locking bolt 306 is arranged in the second bolt groove 106;

the bottom of the hanging plate 1 is provided with a lamp anti-vibration mounting component 4, and the lamp anti-vibration mounting component 4 is used for mounting a lamp body and carrying out secondary buffering and vibration filtering on the vibration suffered by the lamp body and the hanging plate 1;

the lamp anti-vibration mounting assembly 4 comprises a lamp mounting plate 401, a supporting rod 402, a lamp anti-vibration rubber sleeve 403 and a third locking bolt 404; the branch 402 is provided with four, four branches 402 are the rectangle and install on lamps and lanterns mounting panel 401, lamps and lanterns antidetonation gum cover 403 is provided with eight, the cover is equipped with two lamps and lanterns antidetonation gum covers 403 on a branch 402, two lamps and lanterns antidetonation gum covers 403 clip lamps and lanterns mounting panel 401, the third locking bolt 404 sets up in branch 402 upper end, the branch hanging hole 107 has been seted up to the position department that corresponds branch 402 on the hanger plate 1, the lamps and lanterns antidetonation gum cover groove 108 has all been seted up on the upper and lower extreme outer edge that corresponds branch hanging hole 107 on the hanger plate 1, branch 402 passes branch hanging hole 107, two lamps and lanterns antidetonation gum covers 403 on the branch 402 set up respectively in two lamps and lanterns antidetonation gum cover grooves 108.

The utility model is provided with a main suspender 201, a main anti-vibration rubber sleeve 203, an auxiliary suspender 301, an auxiliary anti-vibration rubber sleeve 304, a lamp mounting plate 401 and a lamp anti-vibration rubber sleeve 403, when the lamp is subjected to external vibration, the main suspender 201 firstly senses the vibration, the main suspender 201 transmits the vibration to the hanging plate 1, so that the hanging plate 1 is subjected to vibration, then the vibration is transmitted to the lamp through the lamp mounting plate 401, so that the lamp is vibrated, in the process, the main anti-vibration rubber sleeve 203 and the auxiliary anti-vibration rubber sleeve 304 among the main suspender 201, the auxiliary suspender 301 and the hanging plate 1 perform primary buffering vibration on the vibration, the vibration impact of the vibration on the hanging plate 1 is reduced, the vibration of the lamp mounting plate 401 and the lamp anti-vibration rubber sleeve 403 between the lamp mounting plate 401 perform secondary buffering vibration on the vibration after the primary buffering vibration, the vibration impact of the lamp mounting plate 401 is further reduced, the lamp mounting plate 401 is kept stable, the stability of the lamp body in the vibration process is further ensured, the problem that the lamp body is directly dropped when the lamp body is directly subjected to the vibration is avoided, and the stability and the safety of the lamp body in the use process are ensured.

To sum up, the working principle of the anti-seismic bracket structure of the hoisting lamp provided by the embodiment is as follows: when the lamp receives external vibrations, the vibration can be felt at first to main jib 201, main jib 201 will vibrate to the transmission of hanger plate 1 for hanger plate 1 receives the vibrations, then will vibrate and pass through lamp mounting panel 401 and transmit to the lamp, make the lamp produce vibrations and shake, this in-process, main jib 201, main antidetonation gum cover 203 and vice antidetonation gum cover 304 between vice jib 301 and the hanger plate 1 can carry out one-level buffering to vibrations and strain, reduce the vibrations and strike to hanger plate 1 of vibrations, reduce the vibrations and shake the range of hanger plate 1, then lamp antidetonation gum cover 403 between lamp mounting panel 401 and the hanger plate 1 can carry out the second grade buffering to vibrations after the one-level buffering and strain, further reduce vibrations and strike to lamp mounting panel 401, make lamp mounting panel 401 keep steady.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The anti-seismic bracket structure for the hoisting lamp is characterized by comprising a hoisting plate (1), wherein a main anti-seismic boom assembly (2) and an auxiliary anti-seismic boom assembly (3) are arranged on the hoisting plate (1), the main anti-seismic boom assembly (2) is connected with the auxiliary anti-seismic boom assembly (3), and the main anti-seismic boom assembly (2) and the auxiliary anti-seismic boom assembly (3) are used for hoisting the hoisting plate (1) and carrying out primary buffering and shock filtering on vibration received by the hoisting plate (1);

the bottom of the lifting plate (1) is provided with a lamp anti-vibration mounting component (4), and the lamp anti-vibration mounting component (4) is used for mounting a lamp body and carrying out secondary buffering and shock filtering on vibration received by the lamp body and the lifting plate (1).

2. The anti-seismic bracket structure of a lifting lamp according to claim 1, wherein: the main anti-seismic boom assembly (2) is provided with two groups, the two groups of the main anti-seismic boom assemblies (2) are symmetrically arranged on the lifting plate (1), and the main anti-seismic boom assembly (2) comprises a main boom (201), a main mounting piece (202), a main anti-seismic rubber sleeve (203) and a first locking bolt (204);

the lifting plate (1) is provided with a main lifting hole (101) which is spliced with the main lifting rod (201), the lifting plate (1) is provided with a main anti-seismic rubber sleeve groove (102) and a first bolt groove (103) corresponding to the upper end and the lower end of the main lifting hole (101), the main anti-seismic rubber sleeve (203) is sleeved on the lower part of the main lifting rod (201), the lower end of the main lifting rod (201) penetrates through the main lifting hole (101) to extend into the first bolt groove (103), a first locking bolt (204) is arranged in the first bolt groove (103) and is in threaded connection with the main lifting rod (201), and the upper end of the main anti-seismic rubber sleeve (203) is locked and installed on the main lifting rod (201) through the first locking bolt (204);

the main mounting plate (202) is arranged at the upper end of the main suspender (201), and the main mounting plate (202) is hoisted through an expansion bolt.

3. The anti-seismic bracket structure of a lifting lamp according to claim 2, wherein: the auxiliary anti-seismic boom assembly (3) is provided with two groups, the two groups of the auxiliary anti-seismic boom assemblies (3) are symmetrically arranged between the two groups of the main anti-seismic boom assemblies (2), and the auxiliary anti-seismic boom assembly (3) comprises an auxiliary boom (301), an auxiliary mounting piece (302), a connecting rod (303), an auxiliary anti-seismic rubber sleeve (304), a connecting bolt (305) and a second locking bolt (306);

the auxiliary hanging rods (301) are arranged in two, the two auxiliary hanging rods (301) are symmetrically arranged on the auxiliary mounting plates (302) through the connecting bolts (305), and the upper ends of the two auxiliary hanging rods (301) are respectively connected with the two main mounting plates (202);

the connecting rod (303) is arranged at the bottom end of the auxiliary mounting piece (302), the auxiliary anti-seismic rubber sleeve (304) is sleeved on the connecting rod (303), and the auxiliary anti-seismic rubber sleeve (304) is in locking connection with the lifting plate (1) through the connecting rod (303) and the second locking bolt (306).

4. A seismic support structure for a suspended light fixture as set forth in claim 3, wherein: an auxiliary lifting hole (104) is formed in the lifting plate (1) at a position corresponding to the connecting rod (303), and an auxiliary anti-seismic rubber sleeve groove (105) and a second bolt groove (106) are formed in the lifting plate (1) at the outer edges of the upper end and the lower end corresponding to the auxiliary lifting hole (104) respectively;

the lower end of the connecting rod (303) penetrates through the auxiliary hanging hole (104) to extend into the second bolt groove (106), the auxiliary anti-seismic rubber sleeve (304) is arranged in the auxiliary anti-seismic rubber sleeve groove (105), and the second locking bolt (306) is arranged in the second bolt groove (106).

5. The anti-seismic bracket structure of a lifting lamp according to claim 1, wherein: the lamp anti-vibration mounting assembly (4) comprises a lamp mounting plate (401), a supporting rod (402), a lamp anti-vibration rubber sleeve (403) and a third locking bolt (404);

the lamp mounting plate is characterized in that four support rods (402) are arranged, the four support rods (402) are rectangular and mounted on the lamp mounting plate (401), eight lamp anti-vibration rubber sleeves (403) are arranged, two lamp anti-vibration rubber sleeves (403) are sleeved on one support rod (402), the lamp mounting plate (401) is clamped by the two lamp anti-vibration rubber sleeves (403), and a third locking bolt (404) is arranged at the upper end of the support rod (402).

6. The anti-seismic bracket structure of a lifting lamp according to claim 5, wherein: the position department that corresponds on hoist and mount board (1) branch hanging hole (107) has been seted up, on hoist and mount board (1) correspond the upper and lower end outer edge of branch hanging hole (107) has all been seted up lamps and lanterns antidetonation gum cover groove (108), branch (402) pass branch hanging hole (107), two on branch (402) lamps and lanterns antidetonation gum cover (403) set up respectively in two lamps and lanterns antidetonation gum cover groove (108).