CN214790885U - Underground lighting structure for building engineering - Google Patents

Abstract

The utility model relates to an underground building daylighting technical field just discloses an underground daylighting structure for building engineering, including lighting tube, mounting bracket and automatically controlled cabinet, the top intercommunication of lighting tube has the cluster pipe, intraductal solid fixed mounting that gathers a bundle has the mirror tied in a bundle through solid fixed ring, the cluster pipe is located the inside of mounting bracket, hexagonal bolt fixed mounting is passed through at the top of mounting bracket has the light collection subassembly. This architectural engineering is with ground daylighting structure, through the light collection subassembly, it is rotatory to make the settlement program control electric putter in the controller drive the light collection bent plate, outside natural light passes through the collection of light collection bent plate and refracts to conduct on the refractor, light on the refractor is conducted in the daylighting pipe through the refractor tied in a bundle, light in the daylighting pipe is lighted inside the building on refracting the lamp shade through the diffusion back of astigmatic mirror, installation device's building work load has been reduced, the installation rate of device has been improved.

Description

Underground lighting structure for building engineering

Technical Field

The utility model relates to an underground construction daylighting technical field specifically is an underground daylighting structure for building engineering.

Background

Through the retrieval, chinese patent No. CN213015195U discloses a building underground lighting structure, relate to underground building lighting technical field, specifically be a building underground lighting structure, including the daylighting top, the circumference on daylighting top is provided with the reinforcement frame that the shape is the rectangle, is provided with the slide rail along the length direction who adds the reinforcement frame on the reinforcement frame, and the length direction slip along the slide rail on the slide rail is provided with the sliding block, is provided with the clearance pole on the sliding block, and the length direction of clearance pole is mutually perpendicular with the length direction of slide rail, is provided with the clearance spare that is used for clearing up daylighting top surface dust on the clearance pole, and the articulated catch bar that is provided with and supplies the people to hold on the clearance pole, thereby the utility model has the advantages of thereby it reduces workman's intensity of labour to be convenient for clear up the dust on daylighting top surface.

When the underground lighting structure in the prior art is used, an external light source is guided into an underground building through a transparent lighting roof, but the construction workload of the device design is more because part of the underground building is far away from the ground, the installation speed of the device is reduced, and the practicability of the device is influenced.

Based on this, the utility model designs an underground lighting structure for building engineering to solve above-mentioned problem.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

Not enough to prior art, the utility model provides an underground lighting structure for building engineering has solved the problem of proposing in the above-mentioned background art.

(II) technical scheme

In order to achieve the above object, the utility model provides a following technical scheme: an underground lighting structure for construction engineering comprises a lighting tube, a mounting frame and an electric control cabinet, wherein the top of the lighting tube is communicated with a bundling tube, bundling mirrors are fixedly mounted in the bundling tube through fixing rings, the bundling tube is positioned in the mounting frame, the top of the mounting frame is fixedly provided with light collecting components through hexagon bolts, each light collecting component comprises a reference plate, the top of each reference plate is hinged with a light collecting bent plate, the top of each reference plate is hinged with two groups of electric push rods, the telescopic end of each electric push rod is hinged with one surface, facing the reference plate, of the corresponding light collecting bent plate, the top of each reference plate is provided with a refraction frame, the top of each refraction frame is provided with a refraction mirror, the top of each refraction mirror is provided with a mounting hole, a photosensitive sensor is fixedly mounted in the mounting hole, and a controller is arranged in the electric control cabinet, the output end of each group of photosensitive sensors is electrically connected with the input end of the controller through a lead, the input end of each group of electric push rods is electrically connected with the output end of the controller through a lead, the output end of the lighting tube is provided with a light scattering tube, a light scattering mirror is arranged in the light scattering tube, and a lampshade is arranged on the lighting tube.

Preferably, a lighting lamp ring for providing a light source at night or in the weather with insufficient illumination is arranged in the lamp shade.

Preferably, the input end of the collecting pipe is provided with a sealing lens for reducing dust and water from entering the lighting tube, and the sealing lens is positioned at the top of the collecting mirror.

Preferably, the inner walls of the bundling tube and the lighting tube are provided with refraction coatings for reducing light absorption, and the refraction coatings are made of stainless steel.

Preferably, the bottom of the mounting rack is provided with a plurality of groups of expansion nail holes, and the inner wall of each group of expansion nail holes can be slidably inserted with expansion bolts.

Preferably, each group of the hexagon bolts and the expansion bolts accord with the mechanical national standard, and the materials of the hexagon bolts and the expansion bolts in each group are stainless steel.

(III) advantageous effects

Compared with the prior art, the utility model provides an underground lighting structure for building engineering possesses following beneficial effect:

1. this architectural engineering is with ground daylighting structure, through the light collection subassembly, it is rotatory to make the settlement program control electric putter in the controller drive the light collection bent plate, outside natural light passes through the collection of light collection bent plate and refracts to conduct on the refractor, light on the refractor is conducted in the daylighting pipe through the refractor tied in a bundle, light in the daylighting pipe is lighted inside the building on refracting the lamp shade through the diffusion back of astigmatic mirror, installation device's building work load has been reduced, the installation rate of device has been improved.

2. This lighting structure under building engineering uses, through photosensitive sensor, after the device is moving to the settlement time, the settlement program control electric putter in the controller drives the light collection bent plate rotatory, outside natural light conducts on the refractor through the gathering and the refraction of light collection bent plate, the light collection bent plate is folded the gathering position on the refractor and is removed photosensitive sensor simultaneously, photosensitive sensor passes through controller control electric putter and closes, the adaptability of device to the natural light source removal has been improved, the collection rate of device to external light source has been strengthened, thereby the degree of automation of device has been strengthened.

3. This architectural engineering is with daylighting structure down, through collecting lens and astigmatic mirror, make the light of refractor refraction gather through collecting lens, on the light after the gathering conducts the astigmatic mirror through the lighting tube, the astigmatic mirror throws light on after with light diffusion, has reduced the internal diameter size of lighting tube, has reduced the civil engineering volume in the device installation, has reduced the installation cost of device to the practicality of device has been strengthened.

Drawings

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

FIG. 2 is a cross-sectional view of the structure of the present invention;

fig. 3 is an exploded perspective view of the light collecting module according to the present invention.

In the figure: 1. a lighting pipe; 2. a mounting frame; 3. an electric control cabinet; 4. a bundling tube; 5. a fixing ring; 6. a cluster mirror; 7. a light collecting assembly; 8. a reference plate; 9. a light collecting bending plate; 10. an electric push rod; 11. a refraction frame; 12. a refractor; 13. a photosensitive sensor; 14. a diffuser tube; 15. an astigmatic mirror; 16. a lamp shade; 17. a lighting lamp ring; 18. sealing the lens; 19. a refraction coating; 20. an expansion bolt; 21. a hexagon bolt.

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. 1-3, the present invention provides a technical solution: an underground lighting structure for construction engineering comprises a lighting tube 1, a mounting frame 2 and an electric control cabinet 3, wherein the top of the lighting tube 1 is communicated with a bundling tube 4, a bundling mirror 6 is fixedly mounted in the bundling tube 4 through a fixing ring 5, the bundling tube 4 is positioned in the mounting frame 2, the top of the mounting frame 2 is fixedly mounted with a light collecting component 7 through a hexagon bolt 21, a set program in a controller controls an electric push rod 10 to drive a light collecting bent plate 9 to rotate through the light collecting component 7, external natural light is transmitted to a refractor 12 through collection and refraction of the light collecting bent plate 9, light on the refractor 12 is transmitted into the lighting tube 1 through the bundling mirror 6, light in the lighting tube 1 is diffused through a diffuser 15 and then is refracted to a lampshade 16 to illuminate the interior of a building, building workload of a mounting device is reduced, mounting speed of the device is improved, each group of light collecting components 7 comprises a reference plate 8, the top of each group of reference plates 8 is hinged with a light collecting bent plate 9, the top of each group of reference plates 8 is hinged with two groups of electric push rods 10, the telescopic end of each group of electric push rod 10 is hinged with one surface of the corresponding light collecting bent plate 9 facing the reference plates 8, the top of each group of reference plates 8 is provided with a refraction frame 11, the top of each group of refraction frame 11 is provided with a refractor 12, the top of each group of refractor 12 is provided with a mounting hole, a photosensitive sensor 13 is fixedly mounted in the mounting hole, when the device runs to a set time, a set program in a controller controls the electric push rods 10 to drive the light collecting bent plate 9 to rotate, external natural light is transmitted to the light collecting bent plate 12 through the collection and refraction of the light collecting bent plate 9, meanwhile, the collection position of the light collecting bent plate 9 refracted to the refractor 12 moves to the photosensitive sensor 13, and the photosensitive sensor 13 controls the electric push rods 10 to be closed through the controller, the adaptability of the device to the movement of a natural light source is improved, the collection rate of the device to an external light source is enhanced, so that the automation degree of the device is enhanced, a controller is arranged in an electric control cabinet 3, the output end of each group of photosensitive sensors 13 is electrically connected with the input end of the controller through a lead, the input end of each group of electric push rods 10 is electrically connected with the output end of the controller through a lead, the output end of a lighting tube 1 is provided with a light scattering tube 14, a light scattering mirror 15 is arranged in the light scattering tube 14, light refracted by a refractor 12 is gathered through the refractor 6 and the light scattering mirror 15, the gathered light is transmitted to the light scattering mirror 15 through the lighting tube 1, the light scattering mirror 15 diffuses and illuminates, the inner diameter size of the lighting tube 1 is reduced, the civil engineering quantity in the installation process of the device is reduced, the installation cost of the device is reduced, and the practicability of the device is enhanced, the lighting tube 1 is provided with a lampshade 16.

The utility model discloses in, in order to improve the adaptability of device to various environment to be provided with the illumination lamp ring 17 that is used for providing the light source under the weather of night or illuminance insufficiency in lamp shade 16, thereby improved the adaptability of device to various environment.

The utility model discloses in, in order to reduce outside dust and the probability that water gets into the building through the device to be equipped with the sealing lens 18 that is used for reducing dust and water entering lighting tube 1 at the input of bundling pipe 4, sealing lens 18 is located the top of bundling mirror 6, thereby has reduced outside dust and water and has got into the probability of building through the device.

The utility model discloses in, in order to reduce the loss of light source in bunched pipe 4 and lighting tube 1 to inner wall at bunched pipe 4 and lighting tube 1 all is equipped with the refraction cladding material 19 that is used for reducing light absorption volume, and the material of refraction cladding material 19 is the stainless steel, thereby has reduced the loss of light source in bunched pipe 4 and lighting tube 1.

The utility model discloses in, for the steadiness of improvement device to seted up the multiunit in the bottom of mounting bracket 2 and risen the nail hole, every group rises the equal slidable in inner wall in nail hole and pegs graft and have the expansion bolts 20 that are used for device and installation ground to connect, improved the convenience of device installation, thereby improved the steadiness of device.

The utility model discloses in, in order to improve the interchangeability of accessory in the device to all select every group hex bolts 21 and expansion bolts 20 for according with the national standard of machinery, improved the convenience of hex bolts 21 and expansion bolts 20 purchase, every group hex bolts 21 and expansion bolts 20's material is the stainless steel that is used for reducing the corrosion speed, thereby has improved the interchangeability of accessory in the device.

The electrical components presented in the document are all electrically connected with an external master controller and 220V mains, and the master controller can be a conventional known device controlled by a computer or the like.

When the device is used, the device is fixedly installed at a fixed position, the lighting tube 1 is laid in a vertical hole communicated with a building, then the electric push rod 10 is controlled to start through a set program in a controller, the electric push rod 10 drives the light collecting bent plate 9 to rotate, external natural light is transmitted to the refractor 12 through the collection and refraction of the light collecting bent plate 9, meanwhile, when the collection position of the light collecting bent plate 9 refracted to the refractor 12 moves to the photosensitive sensor 13, the photosensitive sensor 13 controls the electric push rod 10 to close through the controller, light on the refractor 12 is transmitted into the lighting tube 1 through the collecting mirror 6, light in the lighting tube 1 is diffused through the diffuser 15 and then is refracted to the lampshade 16, light emitted from the lampshade 16 illuminates the interior of the building, when the device runs to a set time, the set program in the controller controls the electric push rod 10 to start, the electric push rod 10 drives the light collecting bending plate 9 to rotate, external natural light is conducted to the refractor 12 through collection and refraction of the light collecting bending plate 9, meanwhile, a collection position where the light collecting bending plate 9 is refracted to the refractor 12 moves to the photosensitive sensor 13, the photosensitive sensor 13 controls the electric push rod 10 to be closed through the controller, and one-time adjustment work is completed.

To sum up, this underground lighting structure for building engineering through light collection subassembly 7, makes the electronic push rod 10 of setting program control in the controller drive light collection bent plate 9 rotatory, and outside natural light passes through the collection of light collection bent plate 9 and refracts and conduct on refractor 12, and the light on refractor 12 passes through in collecting lens 6 conducts the lighting tube 1, and the light in lighting tube 1 is diffused through astigmatic mirror 15 and is refracted on lamp shade 16 and throw light on to building inside, has reduced the building work volume of installation device, has improved the installation rate of device.

This underground daylighting structure of building engineering, through photosensitive sensor 13, after the device is at operation to the settlement time, set for program control electric putter 10 in the controller and drive light collection bending plate 9 rotatory, outside natural light passes through on collection and refraction conduction refractometer lens 12 of light collection bending plate 9, the position of gathering that light collection bending plate 9 refractometer lens 12 was gone up simultaneously moves photosensitive sensor 13, photosensitive sensor 13 closes through controller control electric putter 10, the adaptability of device to the removal of natural light source has been improved, the rate of collection of device to external light source has been strengthened, thereby the degree of automation of device has been strengthened.

This architectural engineering is with daylighting structure down, through buncher 6 and astigmatic mirror 15, make the light of refractor 12 refraction gather through buncher 6, on the light after the gathering conducts astigmatic mirror 15 through lighting tube 1, astigmatic mirror 15 throws light on after with light diffusion, has reduced the internal diameter size of lighting tube 1, has reduced the civil engineering volume in the device installation, has reduced the installation cost of device to the practicality of device has been strengthened.

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 underground lighting structure for building engineering, includes lighting tube (1), mounting bracket (2) and automatically controlled cabinet (3), its characterized in that: the top intercommunication of lighting tube (1) has beam tube (4), there is beam concentrating mirror (6) through solid fixed ring (5) fixed mounting in beam tube (4), beam tube (4) are located the inside of mounting bracket (2), there is light collecting component (7) at the top of mounting bracket (2) through hex bolts (21) fixed mounting, every group light collecting component (7) all include benchmark board (8), every group the top of benchmark board (8) articulates there is light collecting bent plate (9), every group the top of benchmark board (8) articulates there are two sets of electric putter (10), every group the flexible end of electric putter (10) all articulates towards the one side of benchmark board (8) with corresponding light collecting bent plate (9), every group the top of benchmark board (8) all is equipped with refraction frame (11), every group the top of refraction frame (11) all is equipped with refractor (12), the top of each group of the refractors (12) is provided with a mounting hole, a photosensitive sensor (13) is fixedly mounted in the mounting hole, a controller is arranged in the electric control cabinet (3), the output end of each group of the photosensitive sensor (13) is electrically connected with the input end of the controller through a lead, the input end of each group of the electric push rod (10) is electrically connected with the output end of the controller through a lead, the output end of the lighting tube (1) is provided with a light scattering tube (14), a light scattering mirror (15) is arranged in the light scattering tube (14), and a lampshade (16) is arranged on the lighting tube (1).

2. An underground lighting structure for construction engineering according to claim 1, wherein: and a lighting lamp ring (17) used for providing a light source at night or in the weather with insufficient illumination is arranged in the lampshade (16).

3. An underground lighting structure for construction engineering according to claim 1, wherein: the input end of the collecting pipe (4) is provided with a sealing lens (18) used for reducing dust and water entering the lighting tube (1), and the sealing lens (18) is positioned at the top of the collecting mirror (6).

4. An underground lighting structure for construction engineering according to claim 1, wherein: the inner walls of the bundling tube (4) and the lighting tube (1) are respectively provided with a refraction coating (19) for reducing the light absorption amount, and the refraction coating (19) is made of stainless steel.

5. An underground lighting structure for construction engineering according to claim 1, wherein: the bottom of the mounting rack (2) is provided with a plurality of groups of expansion nail holes, and the inner wall of each group of expansion nail holes can be slidably inserted with expansion bolts (20).

6. An underground lighting structure for construction engineering according to claim 5, wherein: and each group of the hexagon bolts (21) and the expansion bolts (20) accord with the mechanical national standard, and the material of each group of the hexagon bolts (21) and the expansion bolts (20) is stainless steel.

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