JP3188978U - Lighting heat dissipation energy absorption mechanism - Google Patents

Abstract

Provided is an illumination heat radiation energy absorption mechanism capable of widely operating heat energy released when an LED lamp is turned on for residential and commercial use.
An illumination heat radiation energy absorption mechanism includes a front and rear hole casing. A curved tube capable of controlling water pressure and water discharge is mounted in the front and rear hole casing 12. The front end of the bending tube is connected to one connection pipe 412 from the front hole, and the rear end of the bending tube is connected to the other connection pipe 412 from the rear hole to form a pipe line. An LED lamp panel 11 is mounted on the surface of the front / rear hole casing 12. The heat released from the LED lamp panel 11 when energized is transmitted from the front / rear hole casing 12 to the curved tube. Thereby, when water flows into the bending tube, heat is absorbed, and then flows out as warm water or hot water.
[Selection] Figure 3

Description

 The present invention relates to an illumination heat radiation energy absorption mechanism, and in particular, is used as an LED thermal energy operation device, and has a shape corresponding to heat released from an LED lamp panel in a front and rear casing, and controls water pressure and water discharge. It is related with the illumination thermal radiation energy absorption mechanism which has an illumination function, a water heating function, a water temperature maintenance function, and a water temperature adjustment function by mounting | wearing the bending tube which can do.

Various products continue to be researched and developed in order to secure lighting, hot water for showers and hot drinking water in winter, and to ensure a warm stay. Among these products, there are a wide variety of residential and commercial LED lighting and electric heating products. Old products are being deceived and new products continue to appear. In the market, a wide variety of LED illumination lamps are sold.
Generally, in the conventional LED lighting lamp, the generated heat is dissipated into the air and is not reused, so the temperature of the air only rises. That is, what is originally environmentally friendly contributes to polluting the environment. In general, an electric water heater is operated by a device with high power consumption, and has only a function of boiling hot water. In an aquarium, since LED lighting is used and an electric heating tube is also used to adjust the water temperature, a lot of electric power is used. In addition, when using hot water when washing hands in the toilet, it is necessary to attach a water heater to the washstand.
As described above, the prior art has a problem that it is inconvenient and energy is wasted.
As prior art, for example, an LED illumination heat dissipating structure as disclosed in Patent Document 1 is disclosed.

Utility Model Registration No. 3169647

  The main purpose of the present invention is to realize the energy saving and the reduction of carbon dioxide emissions by enabling the thermal energy released when the LED lamp is turned on to be widely used in residential and commercial applications. The object is to provide an illumination heat radiation energy absorption mechanism capable of realizing protection.

  In order to solve the above-described problem, an illumination heat radiation energy absorption mechanism according to one aspect of the present invention is an illumination heat radiation energy absorption mechanism including a front and rear hole casing, and an LED lamp panel is mounted on the front and rear hole casing. In addition, holes are provided on the front and rear sides of the front / rear hole casing, and screw holes are provided on the left and right sides of the hole. A front joint and a rear joint are screwed into the screw holes, and the front / rear hole casing is provided. Inside, a bending tube capable of controlling water pressure and water discharge is mounted, the plane of the bending tube is bonded to the back of the LED lamp panel, and the front joint is connected to the front end of the bending tube, The rear joint is connected to the rear end of the bending tube, and the casing is provided with a casing fixing hole in the middle on the side edge of the plate surface on the side where the LED of the front and rear hole casing is not mounted. When a fixed piece is attached and the front and rear hole casing is attached to the attachment portion, one connection pipe is connected to the rear joint, the other connection pipe is connected to the front joint, and water from a water source is supplied to the one side. When flowing into the bending tube from the connecting tube, the water in the bending tube absorbs heat released from the LED lamp panel and becomes hot water or hot water, and flows out from the other connecting tube.

  The illumination heat radiation energy absorption mechanism of the present invention has front and rear casings made of a heat radiation material. An LED lamp panel is mounted on the surface of the front and rear hole casing. A bending tube is mounted in the front and rear hole casing. The front end portion of the bending tube is connected to one connection tube via a joint. The rear end portion of the bending tube is connected to the other connection tube via a joint. One connecting pipe is connected to a water source, and the other connecting pipe is connected to a faucet, and water discharge control can be performed.

 When the illumination heat radiation energy absorption mechanism of the present invention is applied to a bathroom, hot water can be used when the LED illumination is turned on during bathing. Moreover, when it applies to a restaurant or a hotel, the energy consumption at the time of boiling water can be reduced by lighting an LED lamp. In addition, when applied to an aquarium or aquaculture, the water temperature can be controlled to prevent a decrease in the water temperature. In addition, when used in a water supply, it is possible to secure hot drinking water even in winter. In addition, when attached to a washstand, you can wash your hands with warm water even in winter. In addition, when used on a chair or floor, it can be warm even in winter.

It is a perspective view which shows the illumination thermal radiation energy absorption mechanism by one Embodiment of this invention. It is a disassembled perspective view which shows the illumination thermal radiation energy absorption mechanism by one Embodiment of this invention. 1 is a perspective view showing a state where an illumination heat radiation energy absorbing mechanism according to an embodiment of the present invention is connected. It is a perspective view which shows the state which mounted | wore the bathroom with the illumination thermal radiation energy absorption mechanism by one Embodiment of this invention. It is a perspective view which shows the state which mounted | wore the water tank with the illumination thermal radiation energy absorption mechanism by one Embodiment of this invention. It is a perspective view which shows the state which mounted | wore the washstand with the illumination thermal radiation energy absorption mechanism by one Embodiment of this invention. It is a perspective view which shows another embodiment of the illumination thermal radiation energy absorption mechanism by one Embodiment of this invention.

  An embodiment showing the structure and effect of the illumination heat radiation energy absorbing mechanism of the present invention will be described in detail with reference to the drawings.

  Please refer to FIG. As shown in FIGS. 1 to 3, the present invention provides an illumination heat radiation energy absorbing mechanism having an illumination function, a water heating function, a water temperature maintaining function, and a water temperature adjusting function. The illumination heat radiation energy absorption mechanism of one embodiment of the present invention includes a front and rear hole casing 12. An LED lamp panel 11 on which a plurality of LEDs are mounted is mounted on the upper surface of the front / rear hole casing 12. A power line 15 is connected to the LED lamp panel 11. A front hole 19 is provided on one side surface of the front / rear hole casing 12. In addition, screw holes 111 are provided on the left and right of the front hole 19, and the front joint 13 is attached thereto. The front joint 13 is screwed into the front hole 19 through a joint fixing screw 22 and a joint fixing nut 23. A rear hole 20 is provided on the other side surface of the front / rear hole casing 12. Screw holes 111 are provided on the left and right of the rear hole 20. Further, the rear joint 14 is screwed into the rear hole 20 portion via the joint fixing screw 22 and the joint fixing nut 23. Further, in the front / rear hole casing 12, a curved tube 21 capable of controlling water pressure and water discharge according to the number of curves and the size of the tube diameter is mounted. The curved tube 21 is protected by adhering a flat surface to the separator plate of the LED lamp panel 11 and also absorbs heat. Casing fixing pieces 16 are mounted on both sides of the front and rear hole casing 12. A casing fixing screw hole 17 is provided in the middle of the fixing piece 16. The front / rear hole casing 12 is fixed to the mounting location via a screw screw 18.

  First unit: See FIG. As shown in FIG. 3, the illumination heat radiation energy absorbing mechanism according to an embodiment of the present invention is connected in series, in parallel, or in series-parallel through a connection pipe 412 and a trident pipe 411. In FIG. 3, (A) shows a parallel connection, (B) a series connection, and (C) a series-parallel connection.

  Second unit: See FIG. As shown in FIG. 4, the illumination heat radiation energy absorption mechanism of the present invention is used as an LED thermal energy operation device, and water from a water source (not shown) flows into the LED thermal energy operation device via a connection pipe 412. It flows to the faucet 513 through the connecting pipe 412. Thereafter, the hot water flowing out from the faucet 513 flows out from the shower head 511 on the fixed base 512 via the covered water pipe 514.

  Third unit: See FIG. As shown in FIG. 5, the illumination heat radiation energy absorbing mechanism of the present invention is used as an LED thermal energy operating device, and the LED thermal energy operating device is fixed to the LED thermal energy operating device frame 612. Further, the water absorption motor 611 pumps up water in the water tank, and flows the water to the LED thermal energy operation device via the connection pipe 412. Thereafter, the hot water flows into the filtering device 613 through the connection pipe 412. Thereafter, the warm water flows from the water outlet 614 into the water tank.

  Fourth unit: See FIG. As shown in FIG. 6, the illumination heat radiation energy absorption mechanism of the present invention is used as an LED thermal energy operation device and is mounted on a lens mount 711. After the water from the water source flows into the LED thermal energy operation device via the connection pipe 412, the hot water flows out from the tap 712 via the connection pipe 412. In addition, when the LED thermal energy operation device is activated, the light emitted from the LED is reflected from the metal wash basin 713 to the ceiling plate, so that the illuminance of the space is increased.

  5th unit: See FIG. As shown in FIG. 7, the illumination heat radiation energy absorption mechanism of the present invention is used as an LED thermal energy operation device, an illumination thermal energy layer 801 is bonded to an insulation heat conduction layer 802, and an insulation heat conduction layer 802 and an endothermic fluid layer 803. Are integrally formed, whereby the bending tube 21 is formed. When water flows into the bending tube 21, it absorbs thermal energy and then flows into the water storage tank 806. Thereby, warm water can be stored in the water storage tank 806.

  The illumination heat radiation energy absorption mechanism of the present invention can be used industrially and is useful. In addition, according to the present invention, problems in the prior art can be solved and long-term demands of users and consumers can be satisfied. In addition, the present invention has an illumination function, a water heating function, a water temperature maintaining function, and a water temperature adjustment function, and enables efficient use of illumination heat energy such as an LED.

  The above-described embodiment shows a specific embodiment of the present invention, and does not limit the present invention. Any change within the scope of the present invention is included in the present invention. The scope of the invention is in accordance with the scope of the utility model registration request.

11 LED lamp panel 12 Front / rear hole casing 13 Front joint 14 Rear joint 15 Power line 16 Casing fixing piece 17 Casing fixing hole 18 Screw screw 19 Front hole 20 Rear hole 111 Screw hole 21 Curved tube 22 Joint fixing screw 23 Joint fixing nut 24 Connection portion between joint and curved tube 411 Trident tube 412 Connection tube 511 Shower head 512 Fixing base 513 Faucet 514 Covered water pipe 611 Water absorption motor 612 LED thermal energy operation device frame 613 Filtration device 614 Water outlet 711 Head stand 712 Faucet 713 Washing surface Stand 801 Illumination thermal energy layer 802 Insulating heat conduction layer 803 Endothermic fluid layer 805 Thermal insulation water storage circulation layer 806 Water storage tank

Claims (7)

An illumination heat radiation energy absorption mechanism comprising front and rear hole casings,
An LED lamp panel is mounted on the front / rear hole casing, holes are provided on the front and rear sides of the front / rear hole casing, and screw holes are provided on the left and right sides of the hole. A joint and a rear joint are screwed, a curved tube capable of controlling water pressure and water discharge is mounted in the front and rear hole casing, and the plane of the curved tube is bonded to the back surface of the LED lamp panel, The front joint is connected to the front end of the bending tube, the rear joint is connected to the rear end of the bending tube, and the side edge of the plate surface on the side where the LED of the front and rear hole casing is not attached, When a casing fixing piece having a casing fixing hole is attached in the middle, and the front and rear hole casing is attached to the attachment portion, one connection pipe is connected to the rear joint, and the other connection is connected to the front joint. Are connected, and water from the water source flows into the bending tube from the one connection tube, the water in the bending tube absorbs heat released from the LED lamp panel and becomes hot water or hot water, and the other The heat radiation energy absorption mechanism is characterized in that it flows out from the connecting pipe.   The LED lamp panel is mounted on a casing, on a metal plate, on a fiber plate, on a ceramic plate by bonding or screwing directly or indirectly through an insulating heat radiation adhesive, heat radiation paste, etc. 2. The illumination heat radiation energy absorbing mechanism according to claim 1, wherein the LED lamp panel is driven by a voltage of AC110V to AC220V or DC3V to DC250V.   Water and electricity are separated by mounting the bent tube directly or via a metal plate or fiber plate on the metal plate or fiber plate on which the LED lamp panel is mounted on the opposite side. The illumination heat radiation energy absorption mechanism according to claim 1.   The connection pipe is made of a metal or plastic material, and a water source is connected to the connection pipe, and the water of the water source flows into the curved pipe, so that the water of the water source is discharged from the LED lamp panel. Absorbs heat transmitted from the metal plate or fiber plate to the bending tube and flows out as hot water or hot water, and leaks into the LED lamp panel by setting the metal plate, fiber plate, and ceramic plate. The illumination heat radiation energy absorbing mechanism according to claim 1, wherein the energization is prevented from being stopped.   The illumination heat radiation energy absorbing mechanism according to claim 1, wherein the bent tube is configured to be bent in each direction or combined through a branch tube and has at least one outlet.   The illumination heat radiation energy absorbing mechanism according to claim 1, wherein the LED lamp panel generates only heat as required, or reduces light emission of the LED to a desired luminance by a packaging technique.   3. The illumination heat radiation energy absorption mechanism is applied to shops, houses, offices, schools, aquariums, aquaculture ponds, public facilities, condominiums, commercial facilities, drinking water, traffic, etc. as necessary. The illumination heat radiation energy absorption mechanism described in 1.

Images