CN214147548U - Lamp road system applied to underwater illumination of water tank - Google Patents

Abstract

The utility model discloses a be applied to lamp road system of jar underwater lighting, including light source ware, power cord, illuminator, the light source ware provides the power by the power cord, and the light source ware arouses RGB light, and the light source ware passes through the light source ware and connects and be connected with the light guide wire, and the illuminator passes through the illuminator to connect to be connected with the light guide wire, and the illuminator is for leading the transparent fiber bundle of body, also can be for leading light, leaded light piece, lamp pearl. The utility model relates to a safe, easy to assemble's lamp line system, there are electric leakage, the amasss heat of bulb, device damage to lead to potential safety hazard problems such as accident among the solution prior art, and low cost, simple to operate has fine market spreading value.

Description

Lamp road system applied to underwater illumination of water tank

Technical Field

The utility model relates to a decorative lighting field, in particular to lighting system under water.

Background

The existing water tank adopts metal halide lamps, LED lamps, fluorescent lamps, mercury lamps and the like for lighting and brightening, and the metal halide lamps, the LED lamps, the fluorescent lamps, the mercury lamps and the like are all arranged on the water surface, can not be soaked in water and can not be used for underwater lighting and beautifying; some underwater lamp decoration and beautified lamp path systems of water tanks are assembled and combined by waterproof wires, waterproof glue and waterproof bulbs, but still have potential safety hazards such as electric leakage, heat accumulation of the bulbs, accidents caused by device damage and the like.

Therefore, the safe and convenient-to-install light path system applied to underwater illumination of the water tank is designed to solve the problems, and the light path system has practical significance.

SUMMERY OF THE UTILITY MODEL

The utility model provides a solve above-mentioned problem, provide a safe, easy to assemble be applied to the light road system of jar underwater lighting, should be applied to the light road system of jar underwater lighting and solve and have electric leakage, the long-pending heat of bulb, device damage potential safety hazard problems such as lead to the accident among the prior art.

In order to achieve the above object, the utility model adopts the following technical scheme: the light path system applied to underwater illumination of the water tank comprises a light source device, a power line, a light guide line and an illuminator, wherein the power line supplies power to the light source device, the light source device is connected with the illuminator through the light guide line, and the illuminator is a waterproof lamp.

Furthermore, the light source device is provided with a power supply connector connected with the light guide line, the power supply connector comprises a cable tightening seat and a cable tightening device, and the cable tightening seat and the cable tightening device are matched and screwed to fix the light guide line.

Further, the light source excites RGB light.

Further, the illuminator is lamp pearl, the lamp pearl includes lens and stack shell, lens install the stack shell is terminal, the stack shell other end is connected lead light.

Further, the illuminator is a light guide plate, and the light guide plate is polymethyl methacrylate or quartz glass.

Further, the illuminator pass through the illuminator connect with the light guide line links to each other, the illuminator connects including connector and adaptation head, the connector with the cooperation of adaptation head is screwed the light guide line.

Furthermore, the light guide line is composed of an optical fiber bundle and a coating layer, the optical fiber bundle is made of polymethyl methacrylate, and the coating layer is made of polytetrafluoroethylene.

Furthermore, the light guide line is composed of an optical fiber bundle and a coating layer, the optical fiber bundle is made of quartz glass, the coating layer is made of quartz glass, and the refractive index of the coating layer is lower than that of the optical fiber bundle.

Further, the illuminator and the light guide line are combined into a whole, and the illuminator is an optical fiber bundle or the light guide line, and the optical fiber bundle is a quartz glass thin optical fiber or a polymethyl methacrylate thin optical fiber.

Further, the light source device, the light guide line and the illuminator are connected in a gluing mode.

The light path system applied to underwater illumination of the water tank is designed by utilizing the characteristic that light guide lines conduct light and do not conduct electricity, is applied to underwater illumination and decorative decoration beautification of water tanks such as an aquarium, a fish tank, a grass tank, a water and land tank, a rain water tank, a bathtub and the like, and solves the potential safety hazard problems of electric leakage, bulb heat accumulation, accidents caused by device damage and the like in the prior art.

Has the advantages that: through the technical scheme, the safe and convenient-to-install lamp road system applied to underwater illumination of the water jar is realized, and the lamp road system applied to underwater illumination of the water jar solves the potential safety hazard problems of electric leakage, heat accumulation of bulbs, accidents caused by damage of devices and the like in the prior art, and has high market popularization value.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention.

Fig. 1 is a schematic structural view of a lamp road system for connecting lamp beads of the present invention;

FIG. 2 is a schematic view of the structure of the lamp bead of the present invention;

fig. 3 is a schematic connection diagram of the light guide line of the present invention;

FIG. 4 is a schematic structural view of a light path system connected with a light guide sheet according to the present invention;

FIG. 5 is a schematic structural view of the light guide sheet of the present invention;

fig. 6 is a schematic structural view of a light path system for connecting optical fiber bundles according to the present invention;

fig. 7 is a schematic structural view of the light road system only connected with light wires according to the present invention;

fig. 8 is a schematic structural view of the light guide line of the present invention;

reference numerals: 1-light source, 11-power line, 2-light source joint, 21-tensioning seat, 22-tensioning device, 3-light guide line, 31-optical fiber bundle, 32-coating layer, 4-lamp bead, 41-lens, 42-barrel body, 5-light guide sheet, 7-illuminator joint, 71-connector and 72-adapter.

Detailed Description

The invention will be further described with reference to the accompanying drawings and specific embodiments so that the invention may be more clearly and intuitively understood.

By utilizing the non-conductive propagation characteristic of optical fiber light guide, a light path system applied to underwater illumination of the water tank is designed, and the system can be widely applied to underwater illumination and decoration beautification of the water tank.

As shown in fig. 1, 2 and 3, the first embodiment of the present invention is provided. The utility model provides a be applied to light path system of jar underwater lighting, including light source ware 1, power cord 11, light guide line 3 and lamp pearl 4, light source ware 1 is provided the power by power cord 11, light source ware 1 arouses RGB light, light source ware 1 connects light guide line 3 through light source ware joint 2, lamp pearl 4 connects light guide line 3 through illuminator joint 7, light source ware joint 2 includes cable tension seat 21 and cable tension 22, cable tension seat 22 screws fixedly with the cooperation of cable tension seat 21 and leads light guide line 3, illuminator joint 7 includes connector 71 and adapter 72, adapter 72 screws fixedly with the cooperation of connector 71 and leads the other end of light guide line 3, lamp pearl 4 comprises lens 41 and stack shell 42.

The first embodiment is suitable for being applied to underwater combined lamp decoration scenes.

As shown in fig. 4 and 5, the second embodiment of the present invention is provided. The utility model provides a be applied to light path system of jar underwater lighting, including light source ware 1, power cord 11, leaded light 3 and leaded light piece 5, light source ware 1 is provided with the power by power cord 11, light source ware 1 arouses RGB light, light source ware 1 connects leaded light 3 through light source ware joint 2, leaded light piece 5 connects leaded light 3 through illuminator joint 7, light source ware joint 2 includes cable tensioning seat 21 and cable tensioning ware 22, cable tensioning ware 22 screws fixedly leaded light 3 with the cooperation of cable tensioning seat 21, illuminator joint 7 includes connector 71 and adapter 72, adapter 72 screws the other end of leaded light 3 with the cooperation of connector 71, the leaded light piece 5 material is polymethyl methacrylate or quartz glass.

The second embodiment is suitable for being applied to underwater soft light scenes.

As shown in fig. 6, embodiment three of the present invention is provided. A light path system applied to underwater lighting of a water vat comprises a light source device 1, a power line 11 and an optical fiber bundle 31, wherein the light source device 1 is powered by the power line 11, RGB light is excited by the light source device 1, the light source device 1 is connected with the optical fiber bundle 31 through a light source device connector 2, the light source device connector 2 comprises a cable tightening seat 21 and a cable tightener 22, the cable tightener 22 is matched with the cable tightening seat 21 to fasten the optical fiber bundle 31 in a rotating mode, and the optical fiber bundle 31 is made of a quartz glass thin optical fiber or a polymethyl methacrylate thin optical fiber.

The third embodiment is suitable for being applied to scenes in which linear light is arranged underwater.

As shown in fig. 7 and 8, embodiment four of the present invention is provided. A light path system applied to underwater illumination of a water tank comprises a light source device 1, a power line 11 and a light guide line 3, wherein the light source device 1 is powered by the power line 11, the light source device 1 excites RGB light, the light source device 1 is connected with the light guide line 3 through a light source device connector 2, the light source device connector 2 comprises a cable tightening seat 21 and a cable tightener 22, the cable tightener 22 is matched with the cable tightening seat 21 to tighten and fix the light guide line 3, the light guide line 3 is composed of an optical fiber bundle 31 and a coating layer 32, the optical fiber bundle 31 is made of quartz glass, the coating layer 32 is made of quartz glass, and the refractive index of the coating layer 32 is lower than that of the optical fiber bundle 31.

The fourth embodiment is suitable for being applied to a scene in which light points are arranged underwater.

In the above embodiments, the light source 1, the light guide line 3 and the illuminator can also be connected by gluing.

The embodiment of the utility model discloses an embodiment one and embodiment two, form through following step connection:

step 1, inserting a power line 11 into a power access on a light source device 1;

step 2, fixing the light source device 1 at a position above the water surface of the water cylinder body to prevent the light source device from contacting water;

step 3, connecting the light guide line 3 with a light source connector 2 matched with the light source 1 to form a light inlet end;

step 4, connecting the light guide line 3 with a lamp bead 4 or a lighting device joint 7 matched with the light guide sheet 5 to form a light outlet end;

and 5: the underwater position in the cylinder body of the water cylinder is fixed with the light-emitting end to complete the utility model, and the light-emitting end can be safely immersed in water.

The embodiment three and the embodiment four of the utility model are formed by connecting the following steps:

step 1, inserting a power line 11 into a power access on a light source device 1;

step 2, fixing the light source device 1 at a position above the water surface of the water cylinder body to prevent the light source device from contacting water;

step 3, connecting the light guide line 3 or the optical fiber bundle 31 with a light source connector 2 matched with the light source 1 to form a light inlet end;

and 4, fixing the light-emitting end of the light guide line 3 or the optical fiber bundle 31 in the cylinder body of the water jar at an underwater position to complete the utility model, wherein the light-emitting end can be safely immersed in water.

The lamp path system formed by the connection of the steps can be widely applied to water tanks such as indoor and outdoor aquarium tanks, fish tanks, grass tanks, land and water tanks, rain tanks and the like.

To sum up, the utility model has the substantive characteristics and progress, realize a safe, easy to assemble be applied to the light road system of jar underwater lighting, should be applied to the light road system of jar underwater lighting and solve and have electric leakage, the long-pending heat of bulb, device damage potential safety hazard problems such as lead to the accident among the prior art, and low cost, simple to operate, can effectual volume production use in the jar.

The above description is only the preferred embodiment of the present invention, and the changes of the equivalent shape or the equivalent structure made by the contents of the description and the drawings of the present invention should be understood as being within the protection scope of the present invention.

Claims (10)

1. The utility model provides a be applied to light road system of jar underwater lighting which characterized in that: including light source ware (1), power cord (11), leaded light line (3) and illuminator, light source ware (1) by power cord (11) provide the power, light source ware (1) pass through leaded light line (3) with the illuminator is connected, the illuminator is waterproof lamps and lanterns.

2. The light circuit system applied to underwater lighting of water jars as claimed in claim 1, wherein: the light source device (1) is provided with a power supply connector (2) connected with the light guide line (3), the power supply connector (2) comprises a cable tightening seat (21) and a cable tightening device (22), and the cable tightening seat (21) and the cable tightening device (22) are matched and screwed to fix the light guide line (3).

3. The light circuit system applied to underwater lighting of water jars as claimed in claim 1, wherein: the light source (1) excites RGB light.

4. The light circuit system applied to underwater lighting of water jars as claimed in claim 1, wherein: the illuminator is lamp pearl (4), lamp pearl (4) are including lens (41) and stack shell (42), lens (41) are installed stack shell (42) are terminal, stack shell (42) other end is connected lead light (3).

5. The light circuit system applied to underwater lighting of water jars as claimed in claim 1, wherein: the illuminator is a light guide sheet (5), and the light guide sheet (5) is polymethyl methacrylate or quartz glass.

6. The light circuit system applied to underwater lighting of water jars as claimed in claim 4 or 5, wherein: the illuminator pass through illuminator joint (7) with lead light (3) and link to each other, illuminator joint (7) are including connector (71) and adaptation head (72), connector (71) with adaptation head (72) cooperation is screwed lead light (3).

7. The light circuit system applied to underwater lighting of water jars as claimed in claim 1, wherein: the light guide line (3) is composed of an optical fiber bundle (31) and a coating layer (32), the optical fiber bundle (31) is made of polymethyl methacrylate, and the coating layer (32) is made of polytetrafluoroethylene.

8. The light circuit system applied to underwater lighting of water jars as claimed in claim 1, wherein: the light guide line (3) is composed of an optical fiber bundle (31) and a coating layer (32), the optical fiber bundle (31) is made of quartz glass, the coating layer (32) is made of quartz glass, and the refractive index of the coating layer (32) is lower than that of the optical fiber bundle (31).

9. The light circuit system applied to underwater lighting of water jars as claimed in claim 7 or 8, wherein: the illuminator and the light guide line (3) are integrated into a whole and are optical fiber bundles (31) or the light guide line (3), and the optical fiber bundles (31) are quartz glass thin optical fibers or polymethyl methacrylate thin optical fibers.

10. The light circuit system applied to underwater lighting of water jars as claimed in claim 1, wherein: the light source device (1), the light guide line (3) and the illuminator are connected in a gluing mode.

Images