JP3145542U - flashlight - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a flashlight having a uniform irradiating surface in a single direction and in which the brightness of projection does not attenuate due to extension of distance.
A light emitting device, a heat dissipation module, and a power feeding device are accommodated in a hollow portion of a case, a gripping portion is extended on one side of the case, and an opening is formed at an end opposite to the gripping portion to attach a head cap. The heat dissipation module is connected to the head cap or formed integrally with the head cap, the heat dissipation module is brought into contact with the light emitting device and the power supply device to dissipate heat, and a part of the heat dissipation module is The heat generated by the light-emitting device and the power supply device exposed from the head cap surface is transferred to the external low-temperature part and radiated by the external cold air, and the secondary optical lenses are provided in the multiple light-emitting modules of the light-emitting device, and the illuminance of the light-emitting chip Doubled.
[Selection] Figure 2

Description

  The present invention relates to a kind of flashlight, and in particular, by the structure design of the secondary optical lens, it can project a unidirectional and uniform surface light source, and is provided with a heat dissipation structure to generate heat generated by the light emitting device and the power feeding device. It relates to a flashlight that dissipates heat by propagating energy to an external low-temperature part.

  There are many light emitting formats in lighting fixtures, and LEDs have advantages such as high photoelectric conversion efficiency, small volume, long life, fixed wavelength, adjustable light quantity and light quality, and low heat generation. It is applied to lighting devices such as various built-in lamps, ceiling lamps, table lamps, etc., and has been attracting attention in the lighting market amid growing concern about resource depletion worldwide. As a result of the successful development of the company, the company is moving forward in the direction of high added value. Most LED lighting products currently on the market tend to be modular, which can be easily replaced by the user when any of the internal components are damaged, and the LED chips can be combined as needed. Yes, this meets the current demands for compact and lightweight applications, and thus LEDs have become an indispensable photoelectric element in everyday life.

  The LEDs used in the general market have their use cycle life and reliability dependent on the temperature. In high power GaN type LEDs, 20% to 30% of the electric energy is light energy after the LED receives the electric energy. The remaining 70% to 80% is dissipated as heat energy. When the LED, the control device and the entire heat dissipation module are packaged in the lighting fixture structure, unless some heat dissipation measures are taken, the LED cannot discharge the heat energy accumulated due to the temperature rise, the life is affected, and the internal chip Will be damaged and the defect rate of products will increase, resulting in a situation that does not match the economic effect.

  Furthermore, when the above-mentioned LED lamp is used for a flashlight, it is necessary to arrange a plurality of LEDs in an array from the relationship of illuminance so that the flashlight has sufficient illumination brightness. Since multiple LEDs arranged in an array are composed of multi-point light sources, when an object is irradiated, the object generates multiple shadows, creating a glare phenomenon, and the image of the object seen by the user becomes ambiguous. In addition, LEDs arranged densely consume considerable material costs. Therefore, how to solve the above-mentioned well-known problems and disadvantages, how to make the parts in the lamp simple and convenient to be combined, a heat radiation function, and a uniform surface illumination system In fact, there is a direction of improvement in research by those skilled in the art.

  Thus, the known device described above is not ideal in design, and therefore the present invention provides a flashlight that improves upon the shortcomings of the known device described above.

The invention of claim 1 is a flashlight, wherein the flashlight is composed of a case, a light emitting device, a heat dissipation module, and a power feeding device.
The case is hollow, and a housing space for accommodating the light emitting device, the heat dissipation module, and the power feeding device is formed in the hollow portion, and a gripping portion is extended on one side of the case, and is opposite to the gripping portion in the case An opening is formed at one end, a head cap is coupled to the opening, and a through hole is formed in the surface of the case between the gripping portion and the opening,
The light emitting device includes a circuit board, and one or more light emitting modules are provided on the circuit board, and the light emitting module is located in the through hole portion of the case.
The heat dissipating module is coupled to the head cap, the heat dissipating module is in contact with the light emitting device and the power feeding device to dissipate heat, and a part of the surface of the heat dissipating module is exposed from the surface of the head cap,
The power supply device is a flashlight including a circuit board and a storage battery electrically connected to the circuit board of the power supply device.
The invention of claim 2 is the flashlight according to claim 1, wherein a bottom cap is coupled to an end of the gripping portion of the case, and an insertion portion is provided at one end of the circuit board of the power feeding device. A connector electrically connected to the bottom cap is provided on the bottom cap, and the end of the gripping portion of the case and the bottom cap are tightly coupled by waterproof packing, and are attached to the inner wall surfaces on the left and right sides of the case. A slide rail into which the heat dissipation module is fitted is provided, a holder is coupled to the case, an insertion space through which the case is inserted from below is provided in the holder, and a surface of the holder communicates with the insertion space A positioning hole is provided, a hook is provided on the other surface of the holder away from the positioning hole, and a charger into which the case can be inserted is provided. The charger is provided by a circuit board of the power supply device. And converting AC power into DC power can be saved to storage battery, characterized in that between the opening and the head cap of the case is tightly coupled with another waterproof packing, and the flashlight.
The invention of claim 3 is the flashlight according to claim 1, wherein the light emitting module is provided with a light emitting chip in a base, a first lens is packaged on the base, and a second lens is disposed above the first lens. The light emitting module is packaged with a single high power light emitting chip, a plurality of low power light emitting chips, or light emitting chips of various colors in the base, and the optical angle of the first lens is from 60 The flashlight is characterized by being 120 degrees and the optical angle of the second lens being within 15 degrees.
The invention of claim 4 is the flashlight according to claim 1, wherein the heat dissipating module is placed in a housing space of the case, a space is formed between the heat dissipating module, and the circuit board of the light emitting device is the heat dissipating member. The battery of the power supply device is in contact with the upper surface of the module, the storage battery of the power supply device is installed in the space of the heat dissipation module, the circuit board of the power supply device is in contact with the lower surface of the heat dissipation module, and the heat pipe is connected to the heat dissipation module. And the heat dissipation module is formed by integral molding with the head cap.
The invention of claim 5 is a flashlight, wherein the flashlight is composed of a case, a light emitting device, and a power feeding device.
The case is hollow, and a housing space for accommodating the light emitting device and the power feeding device is formed in the hollow portion, and a gripping portion is extended on one side of the case, and at one end of the case opposite to the gripping portion. An opening is formed, a head cap is coupled to the opening, a through hole is formed in the surface of the case between the gripping portion and the opening, and a bottom cap is coupled to the end of the gripping portion of the case,
The light emitting device includes a circuit board, and one or more light emitting modules are provided on the circuit board, and the light emitting module is located in the through hole portion of the case.
The power supply device includes a circuit board and a storage battery electrically connected to the circuit board of the power supply device,
A flashlight is characterized in that a waterproof packing is tightly coupled between the opening of the case and the head cap, and between the end of the gripping portion and the bottom cap.
The invention of claim 6 is the flashlight according to claim 5, wherein the light emitting module is provided with a light emitting chip in a base, a first lens is packaged on the base, and a second lens is disposed above the first lens. The light emitting module is packaged with a single high power light emitting chip, a plurality of low power light emitting chips, or light emitting chips of various colors in the base, and the optical angle of the first lens is from 60 The flashlight is characterized by being 120 degrees and the optical angle of the second lens being within 15 degrees.
The invention of claim 7 is the flashlight according to claim 5, wherein a holder is coupled to the case, and an insertion space through which the case is inserted from below is provided in the holder, and the insertion is made on the surface of the holder. A positioning hole communicating with the space is provided, a hook is provided on the other surface of the holder away from the positioning hole, and a charger into which the case can be inserted is provided. The charger is a circuit board of the power supply device The flashlight is characterized in that AC power can be converted into DC power and stored in the storage battery, and the opening of the case and the head cap are tightly coupled by another waterproof packing.

  In the present invention, one or more light emitting chips are packaged in a base of a light emitting module of a light emitting device, a first lens is packaged on the base, and a second lens is installed above the first lens. The structure design of the next optical lens doubles the illuminance of the light emitting chip, makes the light beam in actual use a unidirectional and uniform surface light source, and when irradiating the light beam generated by multiple light emitting modules to the object, The situation of multiple shadows and glare was not generated, and the brightness of the projection was not attenuated by extending the distance.

  The present invention also places the heat dissipation module horizontally in the housing space of the case, partitions the light emitting device and the power supply device, makes the circuit board of the light emitting device contact the upper surface of the heat dissipation module, and installs the storage battery of the power supply device. Installed in the space between the heat dissipation modules, and in addition, the circuit board of the power supply unit is in contact with the lower surface of the heat dissipation module. Propagating, dissipating the heat source with external cold air, and preventing the light-emitting device and the power feeding device from being led out of heat in the enclosed housing space, preventing overheating and damage.

  The flashlight of the present invention further allows a holder to be coupled, the case gripping portion is inserted from the bottom up into the insertion space of the holder, and a positioning hole is provided on the holder surface to communicate with the insertion space. Can be positioned by fitting it into the positioning hole portion, a hook is provided on the surface on the other side away from the positioning hole, and the case can be attached to the user's clothes or any place by the hook. It sometimes provides convenient lighting assistance and increases the versatility of the flashlight.

  In order to achieve the above objects and effects, the technical means employed by the present invention and the structure thereof are described as follows by means of preferred embodiments of the present invention shown in the accompanying drawings. Fully understood.

  See FIGS. 1, 2, 3, 4, and 5. These are a three-dimensional appearance view, a three-dimensional exploded view, a side view sectional view before assembly, a side view sectional view during assembly, and a side view sectional view after assembly of the present invention. As can be seen from these drawings, the flashlight according to the present invention includes a case 1, a light emitting device 2, a heat radiation module 3, and a power feeding device 4.

  The case 1 is hollow, a housing space 10 for housing the light emitting device 2, the heat dissipation module 3, and the power feeding device 4 is formed in the hollow portion, and a gripping part 11 is extended on one side of the case 1, and the gripping part A bottom cap 12 is coupled to the end of the head 11, an opening 13 is formed at one end opposite to the gripping portion 11, a head cap 14 is coupled to the opening 13, and a surface between the gripping portion 11 and the opening 13 is formed. A through-hole 15 is opened, and slide rails 16 corresponding to the inner wall surfaces on the left and right sides of the case 1 are provided. Further, the waterproof packing 17 is tightly coupled between the end of the gripping portion 11 and the bottom cap 12, and the waterproof packing 17 is also tightly coupled between the opening 13 and the head cap 14.

  The light emitting device 2 includes a circuit board 21, and one or more light emitting modules 22 are provided on the circuit board 21. The light emitting module 22 includes a light emitting chip 222 in a base 221, and a second on the base 222. The first lens 223 is packaged, the corresponding second lens 224 is provided above the first lens 223, and the light emitting module 22 is fitted into the through hole 15 of the case 1.

  The heat radiating module 3 is coupled to the head cap 14 or the heat radiating module 3 and the head cap 14 are formed by integral molding, and a part of the surface of the heat radiating module 3 is exposed from the head cap 14. The space 1 is installed in parallel in the housing space 10 of the case 1 and a space 30 is formed between the heat dissipation modules 3.

  The power feeding device 4 includes a circuit board 41, and an insertion portion 42 is provided at one end of the circuit board 41. A connector 43 electrically connected to the insertion portion 42 is installed in the bottom cap 12 portion. A storage battery 44 is electrically connected.

  Furthermore, when combining the above-described components, first, the heat radiating module 3 and the head cap 14 are tightly coupled, and the circuit board 21 of the light emitting device 2 is brought into close contact with the upper surface of the heat radiating module 3 to thereby provide a power feeding device. 4 storage battery 44 is installed in the space 30 of the heat dissipation module 3, and the circuit board 41 of the power supply device 4 is brought into contact with the lower surface of the heat dissipation module 3, and then the left and right sides of the heat dissipation module 3 are directly connected to the case 1. The inner wall surface is fitted into the corresponding slide rail 16, and the opening 13 is covered with the head cap 14, and the gap therebetween is tightly coupled by the waterproof packing 17 to prevent intrusion from moisture or ash dust. The bottom cap 12 is tightly coupled to the end of the grip 11 using another waterproof packing 17. After pushing the circuit board 41, the insertion part 42 of the circuit board 41 is electrically connected into the connector 43 of the bottom cap 12, thus completing the entire assembly of the present invention.

  Next, please refer to FIG. FIG. 6 is a display diagram of the light emitting module of the present invention. As is apparent from the figure, the light emitting module 22 is provided in the base 221 with a single high power light emitting chip 222 or a plurality of low power light emitting chips 222. Alternatively, the light emitting chips 222 of various colors are packaged, and the first lens 223 is added. The optical angle of the first lens 223 is set to 60 to 120 degrees, and the second lens 224 is disposed above the first lens 223. With this secondary optical lens structural design, the illuminance of the light-emitting chip 222 is doubled, and the simultaneous illumination of a plurality of sets of light-emitting modules 22 does not attenuate the projection brightness by extending the distance, Uniform and uniform surface light source is formed on the projected light beam.

  In addition, the circuit board 21 is electrically connected to one or more light emitting modules 22 in a circuit layout of series connection and parallel connection, and the circuit board 21 is brought into close contact with the surface of the heat dissipation module 3. As a result, heat generated by the light emitting chip 222 is absorbed and released through the heat dissipation module 3, and heat is prevented from being accumulated in the light emitting chip 222 and causing damage due to overheating of the light emitting chip 222.

  The flashlight forms a waterproof and dustproof function by the tight coupling of the waterproof packing 17, and heat generated by the operation of the light emitting device 2 and the power feeding device 4 is not derived in the sealed housing space 10 of the case 1. If accumulated in the accommodation space 10, damage due to overheating of the light emitting device 2 and the power feeding device 4 may be formed. Therefore, the circuit board 21 of the light emitting device 2 is brought into close contact with the upper surface of the heat dissipation module 3 by the heat dissipation module 3, and the storage battery 44 of the power supply device 4 is installed in the space 30 of the heat dissipation module 3. The circuit board 41 of the device 4 is brought into contact with the lower surface of the heat radiating module 3, and the heat energy generated by the light emitting device 2 and the power feeding device 4 is transferred to the external low temperature portion by a part of the heat radiating module 3 exposed from the surface of the head cap 14. Propagated to the outside and dissipated by external cold air. Thus, when the temperature of the housing space 10 inside the case 1 is higher than the outside air, the heat radiation module 3 exhibits an instant function, effectively conducts heat to the outside, lowers the temperature inside the case 1 and achieves a heat radiation effect. . Accordingly, it is possible to prevent the light emitting chip 222 from being damaged due to overheating, the luminance is lowered, the life is shortened, and further the damage is prevented. The heat radiation module 3 is a heat sink or a heat conduction block, and is made of aluminum, copper, aluminum magnesium alloy or other metal having a heat conduction function. In addition, heat energy can be conducted more effectively by attaching a heat pipe to the heat dissipation module 3.

  7 and 8 are a three-dimensional exploded view and a three-dimensional external view of an embodiment in which a holder is combined with the present invention. As can be seen from these drawings, a holder 5 can be coupled to the case 1 of the flashlight. The holder 5 is provided with an insertion space 51 through which the case 1 can be passed from the bottom to the top. A positioning hole 52 communicating with the insertion space 51 is provided, and a hook 53 is provided on the other side away from the positioning hole 52. Therefore, when the gripping portion 11 of the case 1 is passed from the bottom to the top through the insertion space 51 of the holder 5, the light emitting device 2 is positioned by being fitted in the positioning hole 52, and the case 1 is arbitrarily selected by the hook 53. The user does not need to hold the flashlight for a long time, and provides convenient lighting for the user's work.

  Further, FIG. 9 is a side view sectional view at the time of charging according to the present invention. When charging the flashlight, the case 1 is inserted into the charger 6 and the circuit board 41 of the power feeding device 4 is shown. The insertion portion 42 at one end is inserted into and electrically connected to a connector 43 installed in the bottom cap 12 portion, and the charger 6 transmits AC power to the circuit board 41 through the connector 43 to form DC power, and DC power is stored by the storage battery 44, and a flashlight is used for charging.

  FIG. 10 is a cross-sectional side view of another embodiment of the present invention. As can be clearly seen from this figure, a battery housing chamber is designed in the case 1, a plurality of batteries 45 are installed, and The battery 45 is electrically connected to the circuit board 41 of the power feeding device 4. Any structure and device capable of achieving the above-described effects are within the scope of the present invention, and such simple modifications and structural changes with the same effect are all within the scope of the claims of the present invention.

Therefore, the technical focus for improving the known shortcomings of the flashlight of the present invention is as follows.
1. The light emitting module 22 has one or more light emitting chips 222 packaged in a base 221, a first lens 223 is packaged on the base 221, and a second lens 224 is installed above the first lens 223. By such a structure design of the secondary optical lens, the illuminance of the light emitting chip 222 is doubled, and a uniform surface light source is formed in a single direction with respect to a light beam in actual use. Further, when the object is irradiated with the light rays generated by the plurality of light emitting modules 22, the situation of multiple shadows and glare does not occur, and the brightness of the projection is not attenuated by the extension of the distance.
2. When the heat radiating module 3 is horizontally installed in the housing space 10 of the case 1, the light emitting device 2 and the power feeding device 4 are partitioned, and the circuit board 21 of the light emitting device 2 is brought into contact with the upper surface of the heat radiating module 3. The storage battery 44 is installed in the space 30 of the heat dissipation module 3, and the circuit board 41 of the power supply device 4 is brought into contact with the lower surface of the heat dissipation module 3. The high-temperature heat energy generated by the light is propagated to the external low-temperature portion, the heat source is dissipated by the external cold air, and the light-emitting device 2 and the power supply device 4 are overheated because heat cannot be led out in the enclosed housing space 10. To prevent damage.
3. The flashlight further allows the holder 5 to be coupled, the gripping portion 11 of the case 1 is inserted from the bottom upward into the insertion space 51 of the holder 5, and a positioning hole 52 communicating with the insertion space 51 is formed on the surface of the holder 5. The light emitting device 2 can be positioned by fitting the light emitting device 2 into the positioning hole 52, and a hook 53 is provided on the surface on the other side away from the positioning hole 52. It can be attached to a place and provides convenient lighting assistance when users work, increasing the versatility of the flashlight.

  However, the above description relates only to a preferred embodiment of the present invention, and does not limit the scope of the present invention. Therefore, a structure having a simple modification using the contents of the specification and drawings of the present invention and an equivalent effect. Any variation is within the scope of the claimed invention.

  In summary, the above-described flashlight of the present invention can surely achieve its effect and purpose when used, and therefore the present invention is a highly practical device and meets the requirements for utility model registration.

It is a three-dimensional external view of the present invention. It is a three-dimensional exploded view of the present invention. It is side sectional drawing before the assembly of this invention. It is side view sectional drawing at the time of the assembly of this invention. It is side view sectional drawing after the assembly of this invention. It is a display figure of the light emitting module of this invention. It is the three-dimensional exploded view of the Example which combined the holder of this invention. It is a three-dimensional external view of the Example which combined the holder of this invention. It is side view sectional drawing at the time of charge of this invention. It is sectional drawing of the side view of another Example of this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Case 10 Accommodating space 14 Head cap 11 Grasping part 15 Through hole 12 Bottom cap 16 Slide rail 13 Opening 17 Waterproof packing 2 Light emitting device 21 Circuit board 222 Light emitting chip 22 Light emitting module 223 First lens 221 Base 224 Second lens 3 Heat dissipation Module 30 Interval space 4 Power supply device 41 Circuit board 44 Storage battery 42 Insertion section 45 Battery 43 Connector 5 Holder 51 Insertion space 53 Hook 52 Positioning hole 6 Charger

Claims (7)

In the flashlight, the flashlight is composed of a case, a light emitting device, a heat dissipation module, and a power feeding device,
The case is hollow, and a housing space for accommodating the light emitting device, the heat dissipation module, and the power feeding device is formed in the hollow portion, and a gripping portion is extended on one side of the case, and is opposite to the gripping portion in the case An opening is formed at one end, a head cap is coupled to the opening, and a through hole is formed in the surface of the case between the gripping portion and the opening,
The light emitting device includes a circuit board, and one or more light emitting modules are provided on the circuit board, and the light emitting module is located in the through hole portion of the case.
The heat dissipating module is coupled to the head cap, the heat dissipating module is in contact with the light emitting device and the power feeding device to dissipate heat, and a part of the surface of the heat dissipating module is exposed from the surface of the head cap,
The power feeding device includes a circuit board and a storage battery electrically connected to the circuit board of the power feeding device.   The flashlight according to claim 1, wherein a bottom cap is coupled to an end of the gripping portion of the case, an insertion portion is provided at one end of a circuit board of the power feeding device, and is electrically connected to the insertion portion. A slide in which a connector is provided on the bottom cap, the end of the gripping portion of the case and the bottom cap are tightly coupled by waterproof packing, and the heat dissipation module is fitted to the inner wall surfaces on the left and right sides of the case A rail is provided, a holder is coupled to the case, an insertion space through which the case is inserted from below is provided in the holder, and a positioning hole that communicates with the insertion space is provided on a surface of the holder, A hook is provided on the surface of the holder on the other side away from the positioning hole, and a charger for inserting the case is further provided. The charger uses a circuit board of the power supply device to supply AC power to DC power. Converted to be stored in the storage battery and is characterized in that between the opening and the head cap of the case is tightly coupled with another waterproof packing, flashlight.   2. The flashlight according to claim 1, wherein the light emitting module includes a light emitting chip provided in a base, a first lens is packaged on the base, and a second lens is provided above the first lens. In the base, a single high power light emitting chip, a plurality of low power light emitting chips, or light emitting chips of various colors are packaged in the base, and the optical angle of the first lens is 60 to 120 degrees. A flashlight characterized in that the optical angle of the two lenses is within 15 degrees.   2. The flashlight according to claim 1, wherein the heat dissipation module is placed in a housing space of the case, a space is formed between the heat dissipation module, and a circuit board of the light emitting device is in contact with an upper surface of the heat dissipation module. The storage battery of the power supply device is installed in the space of the heat dissipation module, the circuit board of the power supply device is brought into contact with the lower surface of the heat dissipation module, a heat pipe is added to the heat dissipation module, and the heat dissipation A flashlight characterized in that the module is formed by integral molding with the head cap. In the flashlight, the flashlight is composed of a case, a light emitting device, and a power feeding device,
The case is hollow, and a housing space for accommodating the light emitting device and the power feeding device is formed in the hollow portion, and a gripping portion is extended on one side of the case, and at one end of the case opposite to the gripping portion. An opening is formed, a head cap is coupled to the opening, a through hole is formed in the surface of the case between the gripping portion and the opening, and a bottom cap is coupled to the end of the gripping portion of the case,
The light emitting device includes a circuit board, and one or more light emitting modules are provided on the circuit board, and the light emitting module is located in the through hole portion of the case.
The power supply device includes a circuit board and a storage battery electrically connected to the circuit board of the power supply device,
A flashlight characterized in that a waterproof packing is tightly coupled between the opening of the case and the head cap, and between the end of the gripping portion and the bottom cap, respectively.   6. The flashlight according to claim 5, wherein the light emitting module includes a light emitting chip provided in a base, a first lens is packaged on the base, and a second lens is provided above the first lens. In the base, a single high power light emitting chip, a plurality of low power light emitting chips, or light emitting chips of various colors are packaged in the base, and the optical angle of the first lens is 60 to 120 degrees. A flashlight characterized in that the optical angle of the two lenses is within 15 degrees.   6. The flashlight according to claim 5, wherein a holder is coupled to the case, an insertion space through which the case is inserted from below is provided in the holder, and a positioning hole communicating with the insertion space is provided on a surface of the holder. Provided, a hook is provided on the other side surface of the holder away from the positioning hole, and a charger is provided to allow the case to be inserted. The charger converts the AC power into DC power by the circuit board of the power feeding device. A flashlight characterized in that it can be converted and stored in the storage battery, and the opening of the case and the head cap are tightly coupled by another waterproof packing.

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