CN216663680U - Light-emitting trestle system of light-transmitting concrete slab - Google Patents

Abstract

The utility model relates to the technical field of landscape light-transmitting trestle roads, in particular to a light-transmitting concrete slab light-emitting trestle road system. This system includes plank road structure main part, the lamp area mounting groove has been seted up at the middle part of plank road structure main part, the mid-mounting of lamp area mounting groove has the lamp area backup pad, the inner wall fixed connection of galvanizing angle sign indicating number and lamp area mounting groove is passed through respectively at the both ends of lamp area backup pad, a plurality of neon lamp areas are installed to the upper surface interval of lamp area backup pad, the top of lamp area mounting groove covers there is prefabricated printing opacity concrete slab, prefabricated printing opacity concrete slab's both ends are erect in plank road structure main part, the bottom both sides of lamp area mounting groove are provided with a plurality of drain pipes at the interval respectively. The system is suitable for city parks, leisure footpaths, pavilion courtyards and the like, can reduce maintenance, realize light-transmitting gallery road light display with low cost and low energy consumption, can realize real-time remote control of the display effect, is a low-cost substitute device product for outdoor large light display, and can realize landscape decoration function.

Description

Light-emitting trestle system of light-transmitting concrete slab

Technical Field

The utility model relates to the technical field of landscape light-transmitting trestle roads, in particular to a light-transmitting concrete slab light-emitting trestle road system.

Background

Outdoor light landscape display is one of the main forms for increasing the ambient atmosphere, and the existing outdoor large-scale lamp display has a plurality of problems. For example, large, medium and small light effect displays all need to be erected with keels or supports (suspended type, single-column type support, portal type double-column support, attached steel structure support, shelving type steel structure support, mixed type and the like) capable of resisting strong wind load, and are structurally connected with a building main body through embedded parts or fixing bolts, so that the mounting cost is high, and the mounting difficulty is high. In addition, the cost for installing the steel structure keel or the bracket is very high, so that many government departments, medium and small enterprises or individuals can be forbidden. In addition, a large amount of large-scale light display may cause light pollution, waste electric power energy, and is not energy-saving and environment-friendly.

Chinese patent No. CN201920881518.9 discloses a transparent night-scene walkway, which has the following disadvantages: firstly, the LED soft lamp strip is arranged on the surface of a concrete substrate and is influenced by external factors such as precipitation and the like, soil inevitably enters the pit along with rainwater and the like, and when more rainwater and the like enter the pit, the surface of the soft lamp strip is polluted by the soil, so that the luminous illumination of the lamp strip is influenced, and the light effect is weakened; secondly, the luminous medium of prefabricated printing opacity concrete layer described in this patent is the printing opacity granule, and it transmits the light in the pit to printing opacity concrete layer surface through printing opacity granule, because printing opacity granule self conduction light is limited, and the light transmission in the pit is great to printing opacity concrete surface attenuation, influences the view effect, and printing opacity concrete layer's preparation thickness also receives the restriction.

SUMMERY OF THE UTILITY MODEL

In order to solve the problems that the existing outdoor lighting landscape is high in installation cost and installation difficulty and can cause light pollution and the like, the utility model provides the light-transmitting concrete slab light-emitting gallery road system which is suitable for city parks, leisure walks, pavilion courtyards and the like, can reduce maintenance, realize light display of the light-transmitting gallery road with low cost and low energy consumption, can realize real-time remote control of the display effect, is a low-cost substitute device product for outdoor large-scale light display, and can realize the landscape decoration function.

The technical scheme adopted by the utility model for realizing the purpose is as follows: the utility model provides a printing opacity concrete slab light-emitting gallery road system, includes gallery road structure main body, the lamp area mounting groove has been seted up at the middle part of gallery road structure main body, the mid-mounting in lamp area mounting groove has the lamp area backup pad, the inner wall fixed connection of galvanizing angle sign indicating number and lamp area mounting groove is passed through respectively at the both ends of lamp area backup pad, a plurality of neon lamp areas are installed to the upper surface interval of lamp area backup pad, the top cover in lamp area mounting groove has prefabricated printing opacity concrete slab, and on the gallery road structure main body was erect at prefabricated printing opacity concrete slab's both ends, the bottom both sides of lamp area mounting groove were provided with a plurality of drain pipes at the interval respectively.

Furthermore, the neon lamp belts are respectively connected with lamp belt controllers, each lamp belt controller is connected with a sub-GPS controller, all the sub-GPS controllers are connected with a main GPS controller, the main GPS controller is connected with a computer, and the main GPS controller, the sub-GPS controllers and the lamp belt controllers are all connected with an external power supply through power lines.

Furthermore, the lamp strip controller is connected with the sub-GPS controller through a signal line, the sub-GPS controller is connected with the main GPS controller through a wireless signal, and the main GPS controller is connected with the computer through a wireless signal.

Further, the lamp area backup pad is horizontal lengthwise's fiberglass reinforced plastic structure.

Furthermore, the light-transmitting optical fibers are embedded in the precast light-transmitting concrete plate.

Furthermore, the light-transmitting optical fiber is formed by mixing at least two optical fibers with different specifications to form an optical fiber bundle.

Further, the light-transmitting optical fiber penetrates through the upper surface and the lower surface of the prefabricated light-transmitting concrete slab.

Furthermore, one end of the galvanized corner connector is connected with the inner wall of the lamp strip mounting groove, the other end of the galvanized corner connector is connected with the lamp strip supporting plate, and each end of the galvanized corner connector is fixedly connected with at least two M4 screws.

Furthermore, the neon lamp strip is an RGB neon lamp strip.

Further, the interval distance between the drain pipes is 2.5m, and the diameter of the drain pipe is 50 mm.

The utility model has the technical effects and advantages that:

1. the method can be realized in a trestle, a shear wall, a frame structure or a masonry structure, does not need to be provided with embedded parts, is convenient to construct and low in installation cost;

2. the lamp strip controller controls the on-off and brightness of each neon lamp strip, and can realize instant and dynamic display;

3. the GPS controller is connected with a computer, and the remote control of the dynamic display of the GPS controller can be realized through the computer; the GPS controller is a small device with a GPS antenna and built-in SD card programming data, can be wirelessly connected with a computer, uses Simple LED program APP software, and adopts software Gamma correction processing; the GPS controller uses AC220V AC power, and can realize multi-stage cascade synchronization by setting ID numbers of corresponding controllers, wherein only the main GPS controller is operated as a main controller during cascade synchronization, and other sub-GPS controllers are operated as sub-controllers; the method comprises the following steps that a required mode programming signal is stored on an SD card by Simple LED program software, synchronization can be realized through a wireless GPS satellite signal, and dynamic display and control of neon lamp strip light emission can be realized by transmitting a control signal to a signal input end of a lamp strip controller through a wired signal wire from an output end of a GPS controller;

4. in practical use, if the optical fibers are arranged according to a set pattern, the pattern display of the outdoor L0G0 at night can be realized, and the optical fiber is a low-cost substitute product of an outdoor large-scale liquid crystal display screen;

5. the structure of the trestle is tightly closed, so that the damage to a light-emitting circuit can be reduced, the electric power energy can be saved, the light pollution can not be generated, and the effects of energy conservation and environmental protection can be achieved;

6. the display device is suitable for city parks, leisure footpaths, pavilion courtyards and the like, can reduce maintenance, realize light-transmitting gallery road light display with low cost and low energy consumption, can realize real-time remote control of the display effect, is a low-cost substitute device product for outdoor large light display, and can realize landscape decoration function;

7. the mounting position of the LED lamp strip is arranged in the middle of the lamp strip mounting groove, and meanwhile, PVC drain pipes with the diameter of 50mm are arranged on two sides of the bottom of the lamp strip mounting groove every 2.5m, so that water entering the lamp strip mounting groove can be effectively discharged in time, and the light emitting effect of an LED light source cannot be influenced; the lamp belt supporting plate is a fiber glass steel structure which is long and transverse, and can resist fire, high temperature and corrosion, and the service life is prolonged; the light-transmitting optical fibers are embedded in the prefabricated light-transmitting concrete plate and penetrate through the upper surface and the lower surface of the plate, light transmitted to the surface of the prefabricated light-transmitting concrete plate in the lamp strip mounting groove can not be weakened due to the increase of the thickness of the prefabricated light-transmitting concrete plate, the bottom of the prefabricated light-transmitting concrete plate can be made into the optical fibers at the positions shielded by the structure to form the arc-shaped optical fibers so as to realize the full coverage of light spots on the surface, and the night landscape effect is further improved.

Drawings

FIG. 1 is a cross-sectional view of an installation structure of a light-transmitting concrete slab and a body of a gallery structure according to the present invention;

FIG. 2 is a schematic view of a mounting structure of a lamp strip support plate, a neon lamp strip and a galvanized corner code according to the utility model;

FIG. 3 is a schematic view of a galvanized corner brace mounting structure of the present invention;

wherein: the method comprises the following steps of 1-prefabricating a light-transmitting concrete plate, 2-light-transmitting optical fibers, 3-neon lamp strips, 4-galvanized corner connectors, 5-lamp strip supporting plates, 6-lamp strip mounting grooves, 7-M4 screws, 8-trestle structure main bodies and 9-PVC drain pipes.

Detailed Description

The present invention will be described in detail below with reference to the accompanying drawings and examples.

Example (b):

as shown in fig. 1-3, a light-transmitting concrete slab lighting plank road system comprises a plank road structure main body 8, wherein the middle part of the plank road structure main body 8 is provided with a lamp strip installation groove 6, the middle part of the lamp strip installation groove 6 is provided with a lamp strip support plate 5, the lamp strip support plate 5 is a transversely and longitudinally fiber glass steel structure, two ends of the lamp strip support plate 5 are respectively and fixedly connected with the inner wall of the lamp strip installation groove 6 through a galvanized corner code 4, one end of the galvanized corner code 4 is connected with the inner wall of the lamp strip installation groove 6, the other end of the galvanized corner code 4 is connected with the lamp strip support plate 5, each end is fixedly connected by at least two M4 screws 7, the upper surface of the lamp strip support plate 5 is provided with a plurality of neon lamp strips 3 at intervals, the neon lamp strips 3 are RGB neon lamp strips, the lamp strips 3 are respectively connected with a lamp strip controller, each lamp strip controller is connected with a sub GPS controller, all the sub GPS controllers are connected with a general GPS controller, the general GPS controller is connected with a computer, the lamp strip controller is connected with the sub GPS controllers through signal lines, the sub GPS controllers are connected with the general GPS controller through wireless signals, the general GPS controller is connected with the computer through wireless signals, the general GPS controller, the sub GPS controllers and the lamp strip controller are connected with an external power supply through power lines, the lamp strip controller and the GPS controller are all commercially available products, the top of a lamp strip installation groove 6 is covered with a prefabricated light-transmitting concrete plate 1, light-transmitting optical fibers 2 are embedded in the prefabricated light-transmitting concrete plate 1, the light-transmitting optical fibers 2 penetrate through the upper surface and the lower surface of the prefabricated light-transmitting concrete plate 1, the light-transmitting optical fibers 2 are mixed by at least two optical fibers with different specifications to form an optical fiber bundle, two ends of the prefabricated light-transmitting concrete plate 1 are erected on a trestle structure main body 8, two sides of the bottom of the lamp strip installation groove 6 are respectively provided with a plurality of drain pipes 9 at intervals along the trestle structure main body 8, the drain pipe 9 is the PVC drain pipe, and the interval distance between the drain pipe 9 is 2.5m, and the diameter of PVC drain pipe 9 is 50 mm.

The working principle of the utility model is as follows: the light-transmitting optical fiber 2 can be an optical fiber pattern formed by mixing at least 2 optical fibers with different specifications or colors, a light source of the neon light band 3 in the light band mounting groove 6 is transmitted to the other end through one end of the light-transmitting optical fiber 2, the neon light band 3 is a light source group with at least 2 different colors arranged in the light band, such as a built-in blue light source, a built-in yellow light source, a built-in red light source, a built-in green light source and the like which can emit light with different colors, and the light is transmitted to the outer surface through the inner side surface of the light-transmitting optical fiber 2, so that the beautiful appearance of transmitting the light on the outer surface is realized; the switches and the lights with different colors of the neon lamp belts 3 are controlled by the lamp belt controllers, and the power supply GPS controller is connected with a computer to realize the instant remote control of the lights in the prefabricated light-transmitting concrete slab 1.

Installation and use considerations of the present system: when the prefabricated light-transmitting concrete slab 1 is manufactured, optical fiber bundles are embedded in advance according to the setting; the neon lamp strip 3 is connected with the lamp strip controller through the cable, the lamp strip controller is connected with the GPS controller, the light effect display control parameter of the lamp strip controller is set as a required matrix, or the neon lamp strip controller is programmed according to a certain specific color and continuous time, so that the expected effect of the utility model can be realized; before the installation of the prefabricated light-transmitting concrete plate 1, the neon light strip 3 needs to be debugged.

While embodiments of the utility model have been described above, it is not limited to the applications set forth in the description and the embodiments, which are fully applicable in various fields of endeavor to which the utility model pertains, and further modifications may readily be made by those skilled in the art, it being understood that the utility model is not limited to the details shown and described herein without departing from the general concept defined by the appended claims and their equivalents.

Claims (10)

1. The utility model provides a luminous plank road system of printing opacity concrete slab which characterized in that: including the plank road structure main part, the lamp area mounting groove has been seted up at the middle part of plank road structure main part, the mid-mounting of lamp area mounting groove has the lamp area backup pad, the inner wall fixed connection of galvanizing angle sign indicating number and lamp area mounting groove is passed through respectively at the both ends of lamp area backup pad, a plurality of neon lamp areas are installed to the last surface interval of lamp area backup pad, the top of lamp area mounting groove covers there is prefabricated printing opacity concrete slab, and on the plank road structure main part was erect at prefabricated printing opacity concrete slab's both ends, the bottom both sides of lamp area mounting groove were provided with a plurality of drain pipes at the interval respectively.

2. A light transmissive concrete panel lighting gallery system as claimed in claim 1 wherein: the neon lamp belts are respectively connected with lamp belt controllers, each lamp belt controller is connected with a sub-GPS controller, all the sub-GPS controllers are connected with a main GPS controller, the main GPS controller is connected with a computer, and the main GPS controller, the sub-GPS controllers and the lamp belt controllers are all connected with an external power supply through power lines.

3. A light transmissive concrete panel lighting gallery system as claimed in claim 2 wherein: the lamp strip controller is connected with the sub GPS controller through a signal line, the sub GPS controller is connected with the main GPS controller through a wireless signal, and the main GPS controller is connected with the computer through a wireless signal.

4. A light transmissive concrete panel lighting gallery system as claimed in claim 1 wherein: the lamp area backup pad is horizontal lengthwise's fiberglass reinforced plastic structure.

5. A light transmissive concrete panel lighting gallery system as claimed in claim 1 wherein: and light-transmitting optical fibers are embedded in the precast light-transmitting concrete plate.

6. A light transmissive concrete panel lighting gallery system as claimed in claim 5 wherein: the light-transmitting optical fiber is formed by mixing at least two optical fibers with different specifications to form an optical fiber bundle.

7. A light transmissive concrete panel lighting gallery system as claimed in claim 5 wherein: the light-transmitting optical fiber penetrates through the upper surface and the lower surface of the prefabricated light-transmitting concrete slab.

8. A light transmissive concrete panel lighting gallery system as claimed in claim 1 wherein: one end of the galvanized corner brace is connected with the inner wall of the lamp strip mounting groove, the other end of the galvanized corner brace is connected with the lamp strip supporting plate, and each end of the galvanized corner brace is fixedly connected with at least two M4 screws.

9. A light transmissive concrete panel lighting gallery system as claimed in claim 1 wherein: the neon lamp belt is an RGB neon lamp belt.

10. A light transmissive concrete panel lighting gallery system as claimed in claim 1 wherein: the interval distance between the drain pipes is 2.5m, and the diameter of the drain pipe is 50 mm.

Images