KR20090001926U - Light guide device for water spraying device - Google Patents

Abstract

A light guide device for a water jet device is disclosed. The light guide device includes a light guide block that is a light transmission block having a refractive index greater than one. In the circumferential face of the light guiding block, a plurality of mounting holes are formed to receive and hold the light emitting device. The plurality of through holes formed through the light guiding block extend substantially at right angles to the mounting holes. The inner surface of each through hole is roughened. The through holes are in communication with the water discharge hole of the water injection device so that the sprayed water supplied from the water supply device can flow through the discharge hole. The light emitting device transmits light passing through the light guiding block and incident to the through hole and the jetting water. The light beam is reflected inside the jetting water to give the jetting water an illumination effect or a light emitting effect.

Water jet device, light guide device, light emitting device

Description

Light guiding device for water jet device {LIGHT GUIDE DEVICE FOR WATER SPRAYING DEVICE}

The present invention relates to a light guiding device for a water jetting device, and in particular, in the water jetting device for decoration and / or cleaning purposes, a lighting or luminous effect on the jet of water jetted from the water jetting device. It relates to a light guide device for providing a.

Water jetting devices for cleaning and decorating purposes, such as fountains, water sprinklers or water sprayers or bath shower heads that are routinely seen in gardens or landscape scenery, are already known. Conventional water jetting devices only provide water jetting or water jetting functions, and when color light is needed, they project light to or spray light onto a water spray or water jet. An external light source must additionally be provided to match. It is therefore evident that the structure and installation of the water jetting device is complicated and does not provide a practical advantage in industrial or commercial applications. In addition, the light added to the spray or the sprayed water by the external light source is often added only to a part of the spray or the sprayed water, and it is generally not possible to easily cover the sprayed water with the light from the external light source. As a result, the lighting effect of the splash is inconsistent over the entire portion of the splash.

As for the conventional technique related to adding lighting effects or light to spray water or spray, Taiwan Utility Model Publication No. M288806 discloses a shower device with a lighting structure, and Taiwan Utility Model Publication No. M276623 is a shower. The head set is disclosed. Both references teach the addition or mounting of a light emitting diode to an injector nozzle that projects a light beam into the sprayed water or spray, or outside of the sprayer or to the sprayed water or spray. The known devices still have the same problem as above or inconsistent lighting effects on spray water or spray.

Accordingly, there is a need for a water jet device that generates consistent or uniform illumination over a spray that solves the problems with conventional devices.

The object of the present invention is to consist of a modularized light guide block and a light emitting device that has a light effect on the sprayed water from the water spray device, and is easily applied to various devices such as a shower head in a modular manner. It is to provide a light guiding device for a water jet device.

Another object of the present invention is to include a light guiding block made of a material having a refractive index greater than 1 for uniformly guiding light beams through the spray from the water spray device so as to make the lighting of the spray more consistent and brighter with a consistent lighting effect. It is to provide a light guide device for an injection device.

In order to achieve the above object, according to the present invention there is provided a light guide device for a water jet device. The light guide device includes a light guide block that is a light-transmitting block having a refractive index greater than one. A plurality of mounting holes are formed in the circumferential face of the light guiding block to receive and hold the light emitting devices. A plurality of through holes penetrating the light guiding block are formed, and these through holes are substantially perpendicular to the mounting holes. The inner surface of these through holes is roughened. The through holes communicate with the water discharge holes of the water injection device such that the injection water supplied from the water injection device is discharged through the through holes. The light emitting elements emit light rays passing through the light guiding block and reaching inside the through holes and the jetting water. The light rays are reflected inside the jetting water to provide an illumination effect or a luminescent effect on the jetting water.

According to the present invention, the brightness of the jetted water is uniformly guided by the light beams to the jetted water, and the jetted water is emitted while the color of the jetted water is harmonized with the light emitted from the light emitting element.

According to the present invention, a light guiding apparatus for a water jetting apparatus, generally referred to as 100 by reference to the accompanying drawings, in particular, FIGS. 1 to 3, is dried. The light guide device 100 includes at least one light guide block 110 and a plurality of light emitting devices 120. The light guide block 110 is made of a light-transmitting material having a refractive index greater than 1, such as a transparent or clean acrylic board. The light guide block 110 has an opposite major surface connected by a circumferential edge face. In the described embodiment, the light guiding block 110 is a board having four peripheral side edges connecting a rectangular block or two major surfaces. A plurality of mounting holes 111 are formed at the peripheral side edge of the light guide block 110. The light guide block 110 is also formed with a plurality of through holes 112 defined by the rough inner surface. In the described embodiment, the through hole 112 extends between the major surfaces and completely passes through the light guide block 110. The through hole 112 extends in a direction substantially perpendicular to the axis of the mounting hole 111. The light emitting element 120 may be of any known kind, and in a preferred embodiment, a light emitting diode is considered a preferred example of the light emitting element 120. The light emitting element 120 is powered in a suitable manner. For example, as shown in FIG. 3, an external power source 130 may be employed to supply power to the light emitting device 120, or, optionally, to supply DC power to the light emitting device 120. For example, a battery or a battery may be mounted in the light guide block 110. The light emitting device 120, which is powered by an external power source 130 or a battery mounted therein, emits light rays A, and the emitted light rays penetrate the inside of the light guiding block 110, thereby While repeatedly reflected by the major surface, it is conventionally transmitted through the rough surface of the through hole 112 to enter the through hole 112.

4 to 7, an application example of the light guide device 100 of the present invention, which is generally incorporated in a water jetting device, generally designated by reference numeral 200, is described. The water jetting device 200 may be in any known form, such as a wooden article such as a nozzle or shower head of a fountain. The water jetting apparatus 200 includes a lid 210, a water-resistant pad 220, a metal baking plate 230, at least one water container 240, a housing ( 250). The lid 210 has at least one water supply hole 211 connected to the water supply source. A plurality of fastening holes 212 are formed at portions along the edges of the lid 210.

The water resistant pad 220 is a rubber pad that is waterproof and water resistant. The water resistant pad 220 is attached to the inner side of the lid 210 to seal the water resistant. The inner pad 220 has a hole 221 formed at a position corresponding to the position of the water supply hole 211 of the lid 210. A plurality of through holes 222 are formed in a portion along the edge of the inner pad 220, which corresponds to the positions of the plurality of fastening holes 212 in the lid 210.

The backing plate 230 is attached to the water resistant pad 220, and faces the lid 210 for the purpose of reinforcing the structure. A plurality of holes 231 are formed in the backing plate 230, which are distributed along the edge of the backing plate 230 and correspond to the position of the through hole 222 of the water resistant pad 220.

The water container 240 is attached to the backing plate 230 and faces the water resistant pad 220. The water container 240 has at least one water pipe 241 connected to the water supply hole 211 of the lid 210 for transporting water from the water supply hole 211 to the inner space of the water container 240 ( water conduit). The water container 240 is spaced apart from the backing plate 230 and is also referred to as a water discharge surface hereinafter, and a plurality of water to discharge the spray water (B) from the surface as shown in FIG. A discharge hole 242.

The through holes 112 of the light guide device 100 are arranged by the water discharge surface of the water container 240 and correspond to the positions of the water discharge holes 242 of the water container 240, so that the water container 240 The jetting water B discharged through the water discharge holes 242 may be moved to the through holes 112 of the light guide device 100 and move along the through holes 112. The light emitting device 120 of the light guiding apparatus 100 is reflected by the main surface of the light guiding block 110 to penetrate the rough surface of the through hole 112 and emit light rays A incident to the through hole 112. . Then, the reflected light beam A is introduced into the jetting water B and moved along the through-hole 112, and then the through-holes (C) with the jetting water B as shown in FIG. Exit 112). Since the peripheral outer surface of the jetting water B is substantially smooth, the jetting water B functions as an optical fiber, so that the light beam C is repeatedly reflected by the outer surface of the jetting water B, thereby substantially reducing the jetting water ( By moving along B), the brightness of the jetted water B becomes constant and is emitted while the light beam C emitted from the light emitting element 120 matches with the color.

The housing 250 forms an accommodating chamber 251 for receiving and holding the water container 240 and the light guide device 100 according to the present invention therein. The housing 250 has a closed surface or a bottom portion in which a plurality of jetting water holes 2511 are formed. The jetting water holes 2511 are formed at positions corresponding to the through-holes 112 of the light guiding block 110 of the light guiding apparatus 100, so that the light beam C and the jetting water moving along the jetting water B ( B) is received through the spray water holes 2511 for spraying or spraying. The housing 250 has holes 252 engraved therein with threads threaded at positions corresponding to the holes 231 of the metal backing plate 230, so that the fastening holes 212 of the lid 210 are formed. The lid 210, the water resistant pad 220 and the metal backing plate 230 are screwed into the housing 250 through the through holes 222 of the pad 220 and the holes 231 of the metal backing plate 230. Since the bolt 253 may be fastened, the water container 240 and the light guide device 100 may be firmly received and held in the housing 250.

As described above, the lid 210, the water resistant pad 220, the backing plate 230, the water container 240, the light guide device 100 and the housing 250 may be integrally fixed by the screw fastener 253. Although it is possible, it is apparent that these parts / components may be secured by other known suitable means such as adhesives.

8 to 10 illustrate the application of a light guide device according to another embodiment (second embodiment) to a water jetting device. In the second embodiment of the present invention, the light guiding device is a second light guiding device which is used in combination to provide the first light guiding device 100 and the illumination to decorate the jetted water jetted from the water jetting device 200 ( 100 ') (secondary light guide device). For the sake of simplicity, the reference numerals of the members corresponding to the previous embodiments use the same reference numerals as in the previous embodiments. As shown in the drawing, the lid 210 further includes a second water supply hole 2111 connected to the water supply source in addition to the mole supply hole 211. The second fastening holes 213 are further formed in the lid 210. In addition to the hole 221, the water resistant pad 220 has a second hole 2211 corresponding to the position of the second water supply hole 2111 of the lid 21. In addition to the through holes 222, the second pads 223 are further formed in the water pad 220. The second through holes 223 correspond to the positions of the second fastening holes 213 of the lid 210. The metal backing plate 230 includes two inner bars 232, in which the second holes 2321 are formed at positions corresponding to the second through holes 223 of the water resistant pad 220. have.

In the second embodiment, the water container 240 is dried into a frame-like structure, in which an internal hollow cavity 243 is formed in which the second water container 260 is accommodated. The second water container 260 is a second water pipe 261 connected to the second water supply hole 2111 of the lid 210 to transport water from the water source to the interior space of the second water container 260. Equipped with. The second water container 260 is spaced apart from the lid 210 and is preferably on the same plane as the water discharge surface of the water container 240, hereinafter also referred to as the second water discharge surface. 10, a plurality of second water discharge holes 262 for discharging the jetting water D from the second water discharge surface.

In a second embodiment, the light guiding device 100 (first light guiding device) is a frame having an internal hollow cavity 113 corresponding to the size, shape and position of the internal cavity 243 of the water container 240. It is made of a shape structure. The second light guiding device 100 ′ is disposed in the hollow cavity 113 and includes a light emitting element 120 that emits light rays E similar to the first light guiding device 100. The light beam E is repeatedly reflected by the main surface of the light guiding block 110 of the second light guiding apparatus 100 ′ and transmitted through the light guiding block 110 of the second light guiding apparatus 100 ′ to guide the light guiding block 110. It reaches and passes through the rough surface of the through-hole 112 formed in (). The light beam E is incident through the through hole 112 and transmitted into the sprayed water D discharged through the second water discharge hole 262 of the second water container 260, thereby transmitting the second light guide device 100 ′. ) Moves along the through hole 112, and moves with the sprayed water D outside the through hole as a light ray F as shown in FIG. Since the peripheral outer surface of the jetting water D is substantially smooth, the jetting water D functions like an optical fiber, so that the light beam F is repeatedly reflected by the outer surface of the jetting water D, thereby substantially reducing the jetting water ( By moving along D), the brightness of the jetting water D becomes constant and is emitted while the light beam F emitted from the light emitting element 120 matches with the color.

The housing 250 further includes an inner post 254 in which holes 2551 having threaded lines are formed therein. Preferably and as shown in the figures, the posts 254 may be formed such that sufficient space or second chamber 2542 is formed to accommodate the second light guide device 100 ′ and the second water container 260. It is arranged. In addition to the spray water holes 2511 formed at the bottom of the housing 250, the housing 250 also includes a plurality of second spray water holes 2543 formed at a portion of the bottom corresponding to the space 2542. have. Accordingly, the accommodating chamber 251 formed for the first light guide device 100 is disposed around the space of the second chamber 2542. Thus, the second through-hole 112 of the light guiding block 110 of the second light guiding device 100 'is set to correspond to the second jetting water holes 2543 and moves with the light beam F. The jetting water D from 260 is sprayed out of the housing 250 through the second jetting water holes 2543. The housing 250 has an inner space in which the accommodating chamber 251 and the second chamber 2542 are combined, and the hollow cavity 243, 113 is located in the second accommodating chamber 251, so that the water container ( 240 and the first light guiding device 100 are housed and held in the receiving chamber 251, and the outboards of the posts 254 are the second water container 260 and the second light guiding device 100 ', respectively. To accept. Accordingly, the sprayed water B together with the light beam C is sprayed out of the housing 250 through the sprayed water holes 2511 located in the region of the bottom of the housing corresponding to the receiving chamber 251. As a result, the jetting water B (with the beam C) and the jetting water D (with the beam F) are connected to the housing 250 through the peripheral edge area and the central area of the bottom of the housing 250. Since it is sprayed out, improved illumination and / or color can be realized by properly selecting and combining the spray water B and the spray water D.

8 to 10, in the second embodiment, the first light guide device 100, the second light guide device 100 ′, and the arrangement of the water container 240, the second water container and the housing 250 are shown. Have been discussed in a seated form, it is evident that these components / parts / devices may be arranged in a variety of ways. For example, the interior space of the housing 250 may include two water containers and two light guides in a paired manner such that two types of jetting water that transmit different color light rays are sprayed from the left and right sides of the housing 250 bottom, respectively. It may be separated into two chambers in parallel to receive the device.

Although the present invention has been described with reference to preferred embodiments of the present invention, those skilled in the art will recognize that various modifications and changes can be made without departing from the scope of the present invention as defined by the appended claims.

The invention will be clearly understood by those skilled in the art by reference to the accompanying drawings and preferred embodiments.

1 is a perspective view of a light guide device manufactured according to a first embodiment of the present invention.

FIG. 2 is a partially enlarged view of a light guide device illustrating a light emitting device mounted in a mounting hole formed at an edge of a light guide block of the light guide device. FIG.

3 is a schematic diagram illustrating that light rays emitted from a light emitting element mounted on a light guiding block are transmitted through the light guiding block to enter a through hole formed in the block.

4 is a perspective view showing a water jetting device in which the light guide device of the first embodiment of the present invention is integrated.

5 is an exploded view of the water injection device of FIG.

6 is an enlarged view illustrating a light emitting device mounted on a side edge portion of a light guide block of the light guide device according to the present invention.

FIG. 7 is a schematic diagram illustrating that light beams move out of the through-holes of the light guiding block having the jetting water and move through the through-holes to give the jetting water an illumination effect or a light emitting effect.

8 is a perspective view illustrating a water jetting device incorporating a light guide device according to a second exemplary embodiment of the present invention.

9 is an exploded view of the water injection device of FIG.

FIG. 10 is a schematic diagram illustrating that light rays move out of the through-holes of the light guiding block of the second embodiment having the jetting water and move through the through-holes to give the jetting water an illumination effect or a luminescent effect.

** Description of symbols for the main parts of the drawing **

100: light guiding device 100 110: light guiding block 110

120: light emitting device 120 200: water jetting device 200

210: lid 210 220: water resistant pad 220

230: backing plate 230 240: water container 240

250: housing 250

Claims (5)

A light guide device that works in conjunction with a water jet device, At least one light guiding block made of a light-transmitting material, having a plurality of through holes extending through the interior, the inner surface being rough and receiving water jet discharged by the water jetting device; Mounted at the circumferential face of the light guiding block, the light beam is transmitted through the light guiding block and passes through the rough surface of each hole to enter the through hole, and the incident light beam provides the color of the light beam to the jetting water and the jetting water. A light guide device comprising a plurality of light emitting elements for emitting a light beam reflected inside the sprayed water to uniformly illuminate the. The light guide device according to claim 1, wherein the refractive index of the material constituting the light guide block is greater than one. The light guiding device according to claim 1, wherein the material constituting the light guiding block is a transparent acrylic material. The light guiding device according to claim 1, wherein a plurality of mounting holes for mounting a light emitting element are formed at a periphery of the light guiding block. The light guiding device according to claim 1, wherein the light emitting element comprises a light emitting diode.

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