CN218295526U - Novel energy-saving and environment-friendly wall body energy-saving lighting device - Google Patents

Abstract

The utility model discloses a novel energy-saving and environment-friendly wall body energy-saving lighting device, which comprises a pair of concave turnover blocks, a door pin fixer, a sleeved locking spring and a turnover shaft, wherein tooth installing grooves are respectively arranged on two sides of the concave turnover blocks, the turnover shaft is inserted in the tooth installing grooves on the concave turnover blocks through a bearing, the door pin fixer is arranged on the concave turnover blocks, the door pin fixer is movably inserted in the inner sides of the tooth installing grooves on the concave turnover blocks, the sleeved locking spring is sleeved on the door pin fixer, and the concave turnover blocks are provided with a lighting structure and an extrusion lifting structure; the utility model relates to a building lighting technology field, this device can throw light on fast in sealed building, can carry out the fixed lift of quick suit according to different spandrel columns etc. to reach spacing effect, adjust the angle and the scope of illumination according to the demand of difference through the illumination structure simultaneously, thereby reach the illumination zone and adjust.

Description

Novel energy-saving and environment-friendly wall body energy-saving lighting device

Technical Field

The utility model relates to a building lighting technology field specifically is novel energy-concerving and environment-protective wall body is with energy-conserving lighting device.

Background

Corridor and the like in a building are dark even in the daytime due to lack of light-transmitting facilities such as windows, and the corridor of the building is blocked by the mobile lighting device, in view of the above, the present invention provides a solution for further research on the above problems.

SUMMERY OF THE UTILITY MODEL

In order to achieve the above purpose, the utility model discloses a following technical scheme realizes: the novel energy-saving and environment-friendly wall body energy-saving lighting device comprises a pair of concave turnover blocks, a door pin fixer, a sleeved locking spring and a turnover shaft, wherein tooth installing grooves are respectively formed in two sides of the concave turnover blocks, the turnover shaft is inserted in the tooth installing grooves in the concave turnover blocks through a bearing, the door pin fixer is installed on the concave turnover blocks, the door pin fixer is movably inserted in the inner sides of the tooth installing grooves in the concave turnover blocks, the sleeved locking spring is sleeved on the door pin fixer, and a lighting structure and an extrusion lifting structure are installed on the concave turnover blocks;

the extrusion elevation structure comprises: the device comprises a plurality of lifting extrusion rolling wheels, a plurality of lifting extrusion bearing blocks, a plurality of lifting extrusion springs, a plurality of extrusion limiting shafts, two pairs of extrusion wheels, a pair of extrusion shafts, a pair of extrusion gear boxes, a pair of extrusion drivers, a plurality of convex telescopic blocks, a plurality of arc telescopic blocks, a plurality of extrusion lifting shafts and a plurality of extrusion lifting sleeved springs;

the inner side of the concave turnover block is provided with a plurality of concave telescopic grooves, the inner sides of the concave telescopic grooves are respectively provided with a plurality of telescopic extrusion grooves, a plurality of lifting extrusion bearing blocks are respectively movably inserted in the inner sides of the plurality of telescopic extrusion grooves, a plurality of lifting extrusion rolling wheels are respectively installed on the plurality of lifting extrusion bearing blocks, a plurality of extrusion limiting shafts are respectively movably inserted in the inner sides of the plurality of telescopic extrusion grooves and a plurality of extrusion limiting shafts are respectively movably inserted in the plurality of lifting extrusion bearing blocks, the plurality of lifting extrusion rolling wheels are respectively sleeved on the plurality of lifting extrusion bearing blocks, the plurality of lifting extrusion springs are respectively sleeved on the plurality of extrusion limiting shafts, a pair of extrusion shafts are respectively inserted in the inner sides of the plurality of concave telescopic grooves, two pairs of extrusion wheels are respectively installed on the pair of extrusion shafts, a pair of extrusion gear boxes are respectively sleeved on the pair of extrusion shafts, a pair of extrusion driving machines are respectively connected on the pair of extrusion gear boxes, a plurality of convex telescopic extrusion grooves are respectively installed on the extrusion wheels, a plurality of convex extrusion blocks are respectively sleeved on the plurality of convex extrusion blocks, and a plurality of lifting extrusion blocks are respectively sleeved on the plurality of convex extrusion grooves.

Preferably, the lighting structure comprises: the device comprises a pair of storage batteries, three pairs of tooth-mounted lighting brackets, a plurality of light supplementing lamps, a plurality of arc racks, three pairs of telescopic driving shafts, a plurality of angle gears and three pairs of angle drivers;

the storage battery is respectively installed on the concave turnover block, the tooth-mounted illumination supports are respectively installed on the concave turnover block, the light supplementing lamps are inserted into the tooth-mounted illumination supports through bearings, the arc racks are respectively installed on the light supplementing lamps, the telescopic driving shafts are respectively inserted into the tooth-mounted illumination supports through bearings, the driving ends of the angle driving machines are respectively connected to the telescopic driving shafts, the angle gears are respectively installed on the telescopic driving shafts, and the angle gears are respectively engaged with the arc racks.

Preferably, the inner sides of the concave telescopic grooves are respectively provided with a speed reducer.

Preferably, a plurality of the arc-shaped telescopic blocks are respectively provided with a friction rubber pad.

Preferably, a pair of concave turnover blocks are respectively provided with a light sensor.

Preferably, a pair of the concave turning blocks is respectively provided with a wireless signal generator.

Advantageous effects

The utility model provides a novel energy-concerving and environment-protective wall body is with energy-conserving lighting device. The method has the following beneficial effects: this novel energy-concerving and environment-protective wall body is with energy-conserving lighting device, this device can throw light on fast in sealed building, can carry out quick suit according to different spandrel columns etc. and fix the lift to reach spacing effect, adjust the angle and the scope of illumination according to the demand of difference through the illumination structure simultaneously, thereby reach the illumination zone and adjust.

Drawings

Fig. 1 is the structure schematic diagram of the novel energy-saving and environment-friendly wall body energy-saving lighting device.

Fig. 2 is the structure schematic diagram of the novel energy-saving and environment-friendly wall body energy-saving lighting device.

In the figure: 1. a concave overturning block; 2. a door pin holder; 3. sleeving a locking spring; 4. a turning shaft; 5. lifting the extrusion roller; 6. lifting and extruding the bearing block; 7. a lifting extrusion spring; 8. extruding the limiting shaft; 9. an extrusion wheel; 10. extruding the shaft; 11. extruding the gear box; 12. an extrusion driver; 13. a convex telescopic block; 14. an arc telescopic block; 15. extruding the lifting shaft; 16. an angle driver; 17. a spring is sleeved in an extrusion lifting way; 18. a lighting bracket is arranged on the tooth; 19. a light supplement lamp; 20. a circular arc rack; 21. a telescopic drive shaft; 22. an angle gear.

Detailed Description

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.

All the electrical components in the present application are connected with the power supply adapted to the electrical components through a wire, and an appropriate controller and an appropriate encoder should be selected according to actual conditions to meet control requirements, and specific connection and control sequences should be obtained.

Examples

As shown in fig. 1-2, tooth mounting grooves are respectively formed on two sides of a pair of concave turnover blocks 1, the turnover shaft 4 is inserted into the tooth mounting grooves of the pair of concave turnover blocks 1 through a bearing, the door pin fixer 2 is mounted on the concave turnover blocks 1, the door pin fixer 2 is movably inserted into the inner sides of the tooth mounting grooves of the pair of concave turnover blocks 1, the door pin fixer 2 is sleeved with the sleeved locking spring 3, and the pair of concave turnover blocks 1 are provided with an illumination structure and an extrusion lifting structure;

specifically, the extrusion elevation structure includes: the device comprises a plurality of lifting extrusion rollers 5, a plurality of lifting extrusion bearing blocks 6, a plurality of lifting extrusion springs 7, a plurality of extrusion limiting shafts 8, two pairs of extrusion wheels 9, a pair of extrusion shafts 10, a pair of extrusion gear boxes 11, a pair of extrusion drivers 12, a plurality of convex expansion blocks 13, a plurality of arc expansion blocks 14, a plurality of extrusion lifting shafts 15 and a plurality of extrusion lifting sleeved springs 17;

specifically, a plurality of concave type telescopic grooves are formed in the inner sides of a pair of concave type turnover blocks 1, a plurality of telescopic extrusion grooves are formed in the inner sides of the concave type telescopic grooves respectively, a plurality of lifting extrusion bearing blocks 6 are movably inserted into the inner sides of the plurality of telescopic extrusion grooves respectively, a plurality of lifting extrusion rolling wheels 5 are installed on the plurality of lifting extrusion bearing blocks 6 respectively, a plurality of extrusion limiting shafts 8 are movably inserted into the plurality of telescopic extrusion grooves respectively, a plurality of extrusion limiting shafts 8 are movably inserted into the plurality of lifting extrusion bearing blocks 6 respectively, a plurality of lifting extrusion springs 7 are sleeved on the plurality of extrusion limiting shafts 8 respectively, a pair of extrusion shafts 10 are inserted into the inner sides of a pair of concave type telescopic grooves respectively, two pairs of extrusion wheels 9 are installed on a pair of extrusion shafts 10 respectively, a pair of extrusion gear boxes 11 are sleeved on a pair of extrusion shafts 10 respectively, a pair of extrusion gear boxes 12 are connected to a pair of extrusion gear boxes 11, a pair of extrusion driving wheels 9 are provided with a plurality of convex type telescopic extrusion grooves, a plurality of convex type extrusion blocks 13 are movably sleeved on a plurality of extrusion driving shafts 17, a plurality of convex type extrusion driving blocks are installed on a plurality of telescopic extrusion grooves 17, and a plurality of extrusion driving shafts 17 are movably inserted into a plurality of extrusion grooves respectively, and a plurality of convex type extrusion driving blocks are installed on a plurality of extrusion grooves respectively.

It should be noted that, in the above, a pair of concave turnover blocks 1 is sleeved on a building bearing column, the door pin fixer 2 is pushed by the sleeved locking spring 3 by rotating the pair of concave turnover blocks 1 along the turnover shaft 4, so that the door pin fixer 2 is inserted into the pair of concave turnover blocks 1, thereby fixing and limiting the pair of concave turnover blocks 1, and meanwhile, the lifting extrusion bearing blocks 6 are extruded along the plurality of extrusion limiting shafts 8 by the plurality of lifting extrusion springs 7, so that the pair of lifting extrusion bearing blocks 6 respectively drive the lifting extrusion rollers 5 thereon, thereby extruding the two pairs of lifting extrusion rollers 5 onto the building bearing column, thereby adjusting extrusion according to the horizontal length and width of different building bearing columns, and achieving the effect of extrusion and fixation between the concave turnover blocks 1 and the wall body, meanwhile, the pair of extrusion driving machines 12 are operated to respectively drive the extrusion gear boxes 11 on the driving ends of the pair of extrusion driving machines 12, the extrusion shafts 10 on the extrusion gears are respectively driven by the pair of extrusion gear boxes 11, the extrusion wheels 9 on the extrusion shafts 10 are driven to drive the pair of extrusion wheels 9 on the extrusion gears, the convex telescopic blocks 13 on the extrusion shafts are respectively driven by a plurality of extrusion lifting sleeved springs 17 on the inner sides of the extrusion wheels 9, so that the arc telescopic blocks 14 on the convex telescopic blocks 13 on the extrusion shafts are respectively driven, the building bearing column is extruded and lifted in the vertical direction in the horizontal direction through the arc telescopic blocks 14, and the lifting and lighting are carried out according to different building bearing columns, thereby not only avoiding the drilling and fixing of the column body, but also being capable of carrying out quick installation and disassembly on the sealed column body without finely adjusting the whole device, the whole device can be automatically adjusted.

As shown in fig. 1-2, the illumination structure comprises: the device comprises a pair of storage batteries, three pairs of tooth-mounted lighting brackets 18, a plurality of light supplementing lamps 19, a plurality of circular arc racks 20, three pairs of telescopic driving shafts 21, a plurality of angle gears 22 and three pairs of angle drivers 16;

specifically, a pair of the storage batteries are respectively mounted on a pair of concave turnover blocks 1, three pairs of tooth-mounted illumination brackets 18 are respectively mounted on a pair of concave turnover blocks 1, a plurality of light supplement lamps 19 are inserted into three pairs of the tooth-mounted illumination brackets 18 through bearings, a plurality of arc racks 20 are respectively mounted on the plurality of light supplement lamps 19, three pairs of telescopic driving shafts 21 are respectively inserted into three pairs of tooth-mounted illumination brackets 18 through bearings, three pairs of driving ends of angle drivers 16 are respectively connected to the three pairs of telescopic driving shafts 21, a plurality of angle gears 22 are respectively mounted on the three pairs of telescopic driving shafts 21, and a plurality of angle gears 22 are respectively engaged with the plurality of arc racks 20 through gears.

It should be noted that, in the foregoing, the three pairs of angle drivers 16 respectively operate to respectively drive the telescopic driving shafts 21 at the driving ends of the three pairs of angle drivers 16 to rotate, the three pairs of telescopic driving shafts 21 respectively drive the plurality of angle gears 22 thereon, the plurality of angle gears 22 respectively drive the plurality of arc racks 20 thereon, and the plurality of arc racks 20 respectively drive the light supplement lamp 19 to perform angle adjustment, so that illumination adjustment according to different requirements is achieved.

Preferably, a plurality of concave telescopic grooves are respectively provided with a speed reducer on the inner side.

Preferably, friction rubber pads are respectively arranged on the plurality of arc-shaped telescopic blocks 14.

Preferably, a pair of concave inversion blocks 1 are respectively provided with a light sensor.

Preferably, a wireless signal generator is disposed on each of the pair of concave turning blocks 1.

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 novel energy-saving and environment-friendly wall body energy-saving lighting device comprises a pair of concave turnover blocks, a door pin fixer, a sleeved locking spring and turnover shafts, and is characterized in that tooth mounting grooves are respectively formed in two sides of each concave turnover block, the turnover shafts are inserted into the tooth mounting grooves in the concave turnover blocks through bearings, the door pin fixer is installed on the concave turnover blocks, the door pin fixer is movably inserted into the inner sides of the tooth mounting grooves in the concave turnover blocks, the sleeved locking spring is sleeved on the door pin fixer, and a lighting structure and an extrusion lifting structure are installed on the concave turnover blocks;

the extrusion elevation structure comprises: the device comprises a plurality of lifting extrusion rollers, a plurality of lifting extrusion bearing blocks, a plurality of lifting extrusion springs, a plurality of extrusion limiting shafts, two pairs of extrusion wheels, a pair of extrusion shafts, a pair of extrusion gear boxes, a pair of extrusion driving machines, a plurality of convex expansion blocks, a plurality of arc expansion blocks, a plurality of extrusion lifting shafts and a plurality of extrusion lifting sleeved springs;

the inner sides of the concave turnover blocks are provided with a plurality of concave telescopic grooves, the inner sides of the concave telescopic grooves are provided with telescopic extrusion grooves respectively, the lifting extrusion bearing blocks are movably inserted into the inner sides of the telescopic extrusion grooves respectively, the lifting extrusion rolling wheels are installed on the lifting extrusion bearing blocks respectively, the extrusion limiting shafts are movably inserted into the inner sides of the telescopic extrusion grooves respectively, the extrusion limiting shafts are movably inserted into the lifting extrusion bearing blocks respectively, the lifting extrusion rolling wheels are sleeved on the extrusion limiting shafts respectively, the extrusion limiting shafts are inserted into the inner sides of the concave telescopic grooves respectively, two pairs of extrusion wheels are installed on the extrusion shafts respectively, a pair of extrusion gear boxes are sleeved on the extrusion shafts respectively, a pair of extrusion driving machines are connected to the extrusion gear boxes respectively, a plurality of convex telescopic extrusion grooves are formed in the extrusion wheels respectively, a plurality of convex telescopic extrusion blocks are movably inserted into the inner sides of the convex extrusion grooves respectively, a plurality of arc-shaped telescopic blocks are installed on the telescopic extrusion shafts respectively, and a plurality of convex extrusion driving ends of extrusion wheels are sleeved on the extrusion gears respectively, and a plurality of convex extrusion blocks are installed on the lifting extrusion grooves respectively.

2. The energy-saving lighting device for the novel energy-saving and environment-friendly wall body as claimed in claim 1, wherein the lighting structure comprises: the device comprises a pair of storage batteries, three pairs of tooth-mounted lighting brackets, a plurality of light supplementing lamps, a plurality of arc racks, three pairs of telescopic driving shafts, a plurality of angle gears and three pairs of angle drivers;

the storage battery is respectively installed on the concave turnover block, the tooth-mounted illumination supports are respectively installed on the concave turnover block, the light supplementing lamps are inserted into the tooth-mounted illumination supports through bearings, the arc racks are respectively installed on the light supplementing lamps, the telescopic driving shafts are respectively inserted into the tooth-mounted illumination supports through bearings, the driving ends of the angle driving machines are respectively connected to the telescopic driving shafts, the angle gears are respectively installed on the telescopic driving shafts, and the angle gears are respectively engaged with the arc racks.

3. The energy-saving lighting device for the novel energy-saving environment-friendly wall body as claimed in claim 2, wherein a plurality of speed reducers are respectively arranged at the inner sides of the concave telescopic slots.

4. The energy-saving lighting device as claimed in claim 3, wherein a plurality of the arc-shaped retractable blocks are respectively provided with a friction rubber pad.

5. The novel energy-saving and environment-friendly wall body energy-saving and illuminating device as claimed in claim 4, wherein a pair of concave turnover blocks are respectively provided with a light sensor.

6. The novel energy-saving and environment-friendly wall body energy-saving and illuminating device as claimed in claim 5, wherein a wireless signal generator is respectively arranged on the pair of concave turnover blocks.

Images