CN216643931U - Swimming pool atmosphere rendering lighting device based on flexible optical fibers - Google Patents

Abstract

The utility model discloses a swimming pool atmosphere rendering lighting device based on flexible optical fibers, which comprises flexible optical fibers, a light-emitting light source, a light source control switch, an optical fiber sensor and a display feedback device, wherein the flexible optical fibers are arranged on the swimming pool atmosphere rendering lighting device; one end of the flexible optical fiber is connected with a light-emitting source arranged on one side outside the swimming pool, the light-emitting source is connected with a light source to control light on, the other end of the flexible optical fiber is connected with an optical fiber sensor fixed on the edge of the swimming pool, and the optical fiber sensor is connected with a display feedback device. Give out light through luminous light source and transmit to flexible optic fibre inside make flexible optic fibre give out light in the inside atmosphere sense that strengthens of swimming pool, utilize optic fibre inductor and display feedback ware to carry out inspection and high-efficient the repairing to the optic fibre of different positions, solved the aquatic or by the problem that the optic fibre of parcel is difficult to the maintenance.

Description

Swimming pool atmosphere rendering lighting device based on flexible optical fibers

Technical Field

The utility model relates to the technical field of lighting equipment, in particular to a swimming pool atmosphere rendering lighting device based on flexible optical fibers.

Background

Swimming is a sport which is more and more popular with people at present, and has good effects of being an interest and a hobby as well as body building. As a place essential for swimming, people have an increasing demand for a swimming pool, and an atmosphere of the swimming pool is also required.

The optical fiber is used as a commonly used decoration material at present, and has the advantages of low attenuation, good safety, environmental protection, no electrical hazard, long service life, rich color change, simple and convenient installation and the like. Researchers also research and report that the optical fiber is used for enhancing atmosphere lighting of a swimming pool, and patent CN201720480601.6 discloses a rendering lamp for enhancing atmosphere of a swimming pool, which adopts a combined optical fiber lamp connected and combined by an optical fiber line to change the atmosphere, but the method only can change the atmosphere outside water and has weak effect of enhancing the atmosphere below the swimming pool water, and the optical fiber used in the method is only a common optical fiber, and the flexibility is not enough, so that the design structure of an external rendering lamp is less. Patent CN202120721685.4 provides a passive lighting control system under water, has adopted inside optic fibre leaded light's principle with outside light guide to deep pond, and this method has used optic fibre to replace traditional lamp under water, has avoided the electric leakage hidden danger that lamp exists under water, has also reduced the spoilage of the underwater light source in the deep pond simultaneously, nevertheless to the inspection and the maintenance of many optic fibres and deep water district optic fibre, still has great challenge.

SUMMERY OF THE UTILITY MODEL

The utility model solves the problems and provides a swimming pool atmosphere rendering lighting device based on flexible optical fibers, wherein the underwater atmosphere of a swimming pool can be improved by paving the flexible optical fibers on the inner wall or the bottom of the swimming pool and guiding an external light source into an optical fiber arrangement area by utilizing optical fiber light guide, and in addition, the optical fiber sensor is utilized to detect the light intensity of the optical fibers and display the light intensity on a display feedback device so as to reflect the damage condition of the optical fibers, thereby being beneficial to the efficient detection and maintenance of the optical fibers or the coated optical fibers in a deep water area.

The utility model comprises the following technical scheme:

the utility model provides a swimming pool atmosphere rendering lighting device based on flexible optical fibers, which comprises flexible optical fibers, a light-emitting source, a light source control switch, an optical fiber sensor and a display feedback device, wherein the light source control switch is connected with the optical fiber sensor; the swimming pool comprises a swimming pool, flexible optical fibers and a display feedback device, wherein the flexible optical fibers are laid on the inner wall and/or the bottom of the swimming pool, one end of each flexible optical fiber is connected with a light-emitting light source outside the swimming pool, the light-emitting light source is connected with a light source control switch through an electric wire, the other end of each flexible optical fiber is fixedly connected with the corresponding optical fiber sensor arranged at the edge of the swimming pool, and the optical fiber sensors are connected with the display feedback device through electric wires.

Furthermore, the lighting device further comprises a swimming lane line, and the swimming lane line sequentially comprises a flexible optical fiber, a supporting layer and a foam winding layer from inside to outside.

The flexible optic fibre of swimming lane line innermost is used for conducting optic fibre and provides the atmosphere and feels, and the supporting layer is used for the cladding to support flexible optic fibre to play certain protection flexible optic fibre and prevent that it from receiving the effect of destruction, outermost foam winding layer is used for providing certain buoyancy, plays protection cushioning effect, increases the comfort when gripping simultaneously.

Furthermore, the flexible optical fiber is a sheath-core layer fiber prepared by bicomponent melt spinning, the core layer material is polycarbonate, and the sheath layer material is modified polyethylene terephthalate or transparent nylon.

The flexibility of the flexible optical fiber is superior to that of a common optical fiber, the flexible optical fiber can be bent, folded and the like to a certain degree according to requirements, and the light leakage phenomenon appears at the corner of the flexible optical fiber through proper bending, so that the specific perception requirement is met.

Furthermore, the swimming lane line is fixed on two sides of the swimming pool through fixing blocks at two ends and floats on the water surface of the swimming pool, one side of the swimming lane line is connected with the light-emitting source through a flexible optical fiber, the light-emitting source is connected with the light source control switch through an electric wire, the other side of the swimming lane line is connected with an optical fiber sensor arranged at the edge of the swimming pool and corresponding to the light source control switch through the flexible optical fiber, and the optical fiber sensor is connected with the display feedback device through an electric wire.

Further, the luminous intensity of the flexible optical fiber can be adjusted by adjusting the brightness of the luminous light source through the light source control switch.

Furthermore, the optical fiber sensor senses the light intensity at the tail end and feeds the light intensity back to the display feedback device, and whether the optical fiber in the swimming lane line or underwater is damaged or not is judged according to a feedback result.

Further, the light-emitting light source is a monochromatic light source or a multicolor light source.

Further, a single light source may be connected to a single or multiple flexible optical fibers.

Further, the flexible optical fibers can be laid on the inner wall of the pool or on the bottom of the pool according to a predetermined shape or pattern. The flexible optical fiber is added on the inner wall of the swimming pool, so that the effect of prompting that the swimming pool reaches the edge position can be achieved while the atmosphere sense is enhanced.

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

1. the utility model provides a swimming pool atmosphere rendering lighting device based on flexible optical fibers, wherein the underwater atmosphere of a swimming pool can be improved by paving the flexible optical fibers in the swimming pool (comprising the middle, inner wall and bottom of the swimming pool), and guiding an external light source into an optical fiber arrangement area by utilizing optical fiber light guide; in addition, the optical fiber sensor is additionally arranged at the tail end of the flexible optical fiber to detect the light intensity of the optical fiber and display the light intensity on the display feedback device, so that whether the corresponding optical fiber is damaged or destroyed is judged, and the quality inspection and maintenance efficiency of the optical fiber in the deepwater area and the lane line is greatly improved.

2. The utility model can design the shape, the pattern and the like of the optical fiber in the swimming pool to increase the atmosphere sense in the swimming pool through requirements, and the lighting device has high use safety and strong designability in the swimming pool and meets the requirements of multiple aspects such as practicability, attractiveness and the like.

Drawings

FIG. 1 is a schematic top view of a lane line lamp light device based on flexible optical fiber preparation;

FIG. 2 is a schematic structural diagram of a lane line prepared based on flexible optical fibers;

FIG. 3 is a schematic view of a design for laying flexible optical fibers on a side wall of a swimming pool;

FIG. 4 is a schematic view of another arrangement for laying flexible optical fibers on a side wall of a swimming pool;

in the figure, 1 is a swimming pool, 2 is a lane line, 21 is a flexible optical fiber, and 22 is a support layer; 23 is a foam winding layer, 3 is a fixed block, 4 is a luminous light source, and 5 is an electric wire; 6 is a light source control switch, 7 is an optical fiber sensor, and 8 is a display feedback device.

Detailed Description

The present invention is further described below in the following figures and specific examples so that those skilled in the art can better understand the present invention and can practice it, but the examples are not intended to limit the present invention.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the utility model herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the utility model. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

The embodiment discloses a light device based on flexible optical fiber for rendering swimming pool atmosphere, which comprises 6 parallel lane lines 2 arranged at two sides of a swimming pool 1 through fixing blocks 3, wherein the structure of the lane lines is as shown in fig. 2, and the lane lines are sequentially composed of flexible optical fibers 21, a supporting layer 22 and a foam winding layer 23 from inside to outside, the right side of the lane lines is connected with a light-emitting source 4 arranged at the right side outside the swimming pool through the flexible optical fibers inside, the same light-emitting source is connected with the 3 parallel lane lines, and the light-emitting source 4 is connected with a light source control switch 6 through an electric wire 5; the swimming lane line left side is connected with the optical fiber sensor 7 at the swimming pool edge through inside flexible optic fibre outside the waters, and every optical fiber connection corresponds an optical fiber sensor, and each optical fiber sensor gathers to display reactor 8 in through electric wire 5, inspects and repairs the swimming lane line through the condition that shows on the display reactor 8.

The light source 4 emits light and transmits the light to the flexible optical fiber 21 in the lane line 2 by opening the control switch 6, the lane line emits light, and the optical fiber sensor 7 connected with the tail end of the left side of the flexible optical fiber 21 senses the light intensity of the optical fiber and feeds the light intensity back to the display feedback device 8 to judge whether the corresponding optical fiber is damaged.

In addition, the swimming pool atmosphere rendering lighting device in this embodiment further includes flexible optical fiber groups disposed on two side edge walls parallel to the swimming lane 2, and different patterns can be set by changing the number or shape of the flexible optical fibers, as shown in fig. 2 and 3 (in fig. 2, 4 flexible optical fibers with small bending degree are disposed in parallel on the side wall of the swimming pool; in fig. 3, 3 optical fibers with large bending degree are disposed in parallel on the side wall of the swimming pool), the right side of the flexible optical fiber group is connected to a light source outside the water domain (in fig. 2, each flexible optical fiber is connected to the same light source; in fig. 3, each flexible optical fiber is connected to one light source), the light source is connected to a corresponding light source control switch through an electric wire, the left side of the flexible optical fiber group is connected to one optical fiber sensor, and each optical fiber sensor is connected to the same display feedback device through an electric wire.

The above-mentioned embodiments are merely preferred embodiments for fully illustrating the present invention, and the scope of the present invention is not limited thereto. The equivalent substitution or change made by the technical personnel in the technical field on the basis of the utility model is all within the protection scope of the utility model. The protection scope of the utility model is subject to the claims.

Claims (7)

1. A swimming pool atmosphere rendering lighting device based on flexible optical fibers comprises flexible optical fibers, a light-emitting source and a light source control switch, and is characterized by further comprising an optical fiber sensor and a display feedback device; the flexible optical fiber is laid in the swimming pool, one end of the flexible optical fiber is connected with a light-emitting light source outside the swimming pool, the light-emitting light source is connected with the light source control switch through an electric wire, the other end of the flexible optical fiber is fixedly connected with an optical fiber sensor corresponding to the edge of the swimming pool, and the optical fiber sensor is connected with the display feedback device through an electric wire.

2. The swimming pool atmosphere rendering light device based on the flexible optical fiber as recited in claim 1, further comprising a swimming lane line, wherein the swimming lane line comprises the flexible optical fiber, the supporting layer and the foam winding layer from inside to outside.

3. The pool atmosphere rendering lighting device based on flexible optical fiber as claimed in claim 1 or 2, wherein said flexible optical fiber is a core-sheath fiber made by bicomponent melt spinning, the core material is polycarbonate, and the sheath material is modified polyethylene terephthalate or transparent nylon.

4. The swimming pool atmosphere rendering lighting device based on flexible optical fiber as claimed in claim 2, wherein the swimming line is fixed on both sides of the swimming pool through fixing blocks at both ends and floats on the water surface of the swimming pool, one side of the swimming line is connected with the light source through the flexible optical fiber, the light source is connected with the light source control switch through an electric wire, the other side is connected with the optical fiber sensor corresponding to the edge of the swimming pool through the flexible optical fiber, and the optical fiber sensor is connected with the display feedback device through an electric wire.

5. The swimming pool atmosphere rendering lighting device based on the flexible optical fiber as claimed in claim 1 or 4, wherein the optical fiber sensor is used for judging whether the optical fiber in the swimming line or underwater is broken or not according to the feedback result by sensing the light intensity at the tail end and feeding back the light intensity to the display feedback device.

6. A pool atmosphere light rendering apparatus based on flexible optical fiber as claimed in claim 1 or 4, wherein a single light emitting source is connected to single or multiple flexible optical fiber, and the light emitting source is a monochromatic light source or a multi-color light source.

7. The pool atmosphere rendering light fixture of claim 1, wherein said flexible optical fiber is laid on the inner wall of the pool or the bottom of the pool in a predetermined shape or pattern.

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