WO2020032288A1 - Rod-shaped light - Google Patents

Abstract

Provided is a rod-shaped light capable of providing various light-emitting patterns with a simple structure. The rod-shaped light comprises: a cylindrical body part; a light-emitting part which is disposed inside the body part and includes a plurality of light-emitting members; a holding part which is coupled to the body part and which can be held by hand; a power supply part which is disposed inside the holding part and supplies electric power to the light-emitting part; a main control part which is disposed inside the holding part and controls the light-emitting condition of the light-emitting part; a plurality of subcontrol parts which control light-emitting conditions of the plurality of light-emitting members on the basis of a main control signal from the main control part; and a switch part which is disposed on the outer surface of the holding part and provides an instruction for switching the light-emitting condition to the main control part. The plurality of subcontrol parts are individually controlled on the basis of the main control signal.

Description

Bar light

The present invention relates to a rod-shaped light.

At events and concerts, there are many types of lights that use light, such as penlights and lighting, to enhance the production effect, and light that attracts interest with light. 2. Description of the Related Art A rod-shaped light is often used in an event such as a concert, which is performed at night, in a state where the light is turned on and shaken up to excite the venue.

Therefore, the rod-shaped light needs to be small and light enough to be shaken by hand, and to have sufficient luminous intensity and sufficient power to maintain it.

Patent Literature 1 discloses a rod-shaped lamp in which a grip houses or forms a battery storage chamber, a plurality of switch buttons, a communication line, a light source unit having one or more LED elements, a CPU as a lighting control unit, and the like. Has been disclosed. By using a plurality of switch buttons, the lighting color can be switched or determined.

JP-A-2017-91840

However, the rod-shaped light disclosed in Patent Literature 1 includes a light source unit in the grip, so that the lighting unit is lit at a time. Therefore, the light emitting pattern of the entire lighting unit is limited. Further, since the luminous intensity of the lighting section is also adjusted by the intensity of the output of the light source section, the luminous intensity of the entire lighting section is changed. In other words, there is a possibility that various light emission patterns cannot be fully supported in an event or a concert.

The present invention has been made in view of the above circumstances, and has as its object to provide a bar-shaped light capable of realizing various light-emitting patterns with a simple structure.

(1) An embodiment of the present invention relates to a rod-shaped light. The rod-shaped light has a cylindrical body, a light-emitting unit provided inside the body, and configured by a plurality of light-emitting members, a holding unit connected to the body and held by hand, and an inside of the holding unit. A power supply unit that supplies power to the light-emitting unit, a main control unit that is provided inside the holding unit, and controls a light-emitting condition of the light-emitting unit, and a plurality of light-emitting units based on a main control signal from the main control unit. It has a plurality of sub-control units for controlling the light emission condition of the member, and a switch unit provided on the outer surface of the holding unit and giving an instruction to switch the light emission condition to the main control unit. The plurality of sub-control units are individually controlled based on the main control signal.

According to the rod-shaped light according to the above aspect, since the sub-control unit can individually control the light-emitting member, it is possible to realize various patterns of light emission as compared with a conventional rod-shaped light having one light-emitting source.

(2) In the above (1), a plurality of sub-control units may be provided for each of the plurality of light emitting members.

According to the above aspect, fine control of the light emitting member unit is possible, so that light emission of various patterns can be realized.

(3) In the above aspect, the main control unit and the sub control unit may be provided integrally.

According to the above aspect, the main control unit and the sub control unit can be prepared integrally, so that the number of parts can be reduced.

(4) In the above aspect, a plurality of light emitting members may be provided for one sub-control unit.

According to the above aspect, since a plurality of light emitting members are provided for one sub-controller, even if one of the light emitting members fails, the other light emitting members can emit light. Can be maintained.

(5) In the above aspect, the main control unit may control the plurality of sub-control units such that only some of the plurality of light-emitting members emit light simultaneously.

According to the above aspect, the power consumption of the bar-shaped light can be kept small as compared with the case where the light emitting member is fully lit.

(6) In the above aspect, the main control unit may control the plurality of sub-control units such that some of the plurality of light-emitting members sequentially emit light.

According to the above aspect, the power consumption of the bar-shaped light can be kept small as compared with the case where the light emitting member is fully lit.

(7) In the above aspect, the main control unit may control the plurality of sub-control units such that a part of the plurality of light-emitting members emit light evenly.

According to the above aspect, since the light emitting members emit light uniformly, the life of all the light emitting members can reach the same period.

(8) In the above aspect, the main control unit may control the plurality of sub-control units such that the plurality of light-emitting members sequentially emit light from one end in the longitudinal direction of the body to the other end.

According to the above aspect, an effect such as a wave can be obtained as the light emission pattern.

(9) In the above aspect, the main control unit may control the plurality of sub-control units such that the power consumption of the power supply unit is equal to or less than a predetermined value.

According to the above aspect, since power consumption can be kept low, the bar-shaped light can be used for a long time.

(10) In the above aspect, the main control unit may control the plurality of sub-control units so as to change the time interval at which the plurality of light-emitting members emit light as the light-emitting condition each time the switch unit is operated.

According to the above aspect, the light emission time interval can be changed as the light emission pattern.

(11) In the above aspect, the plurality of light-emitting members may be capable of emitting a plurality of colors, and the plurality of sub-control units may control the emission colors of the plurality of light-emitting members.

According to the above aspect, various colors can be expressed by the light emission pattern.

(12) In the above aspect, the main control unit may control the plurality of sub-control units so as to change the color emitted by the plurality of light-emitting members as the light-emitting condition each time the switch unit is operated.

According to the above aspect, it is possible to maintain light emission in a desired color or to switch to a mode in which the color is automatically changed.

(13) In the above aspect, the plurality of sub-control units may control the luminous intensity of the plurality of light emitting members.

According to the above aspect, since the luminous intensity can be adjusted, the number of light emission patterns can be increased.

(14) In the above aspect, the main control unit may control the plurality of sub-control units so as to change the luminous intensity of the plurality of light-emitting members each time the switch unit is operated.

According to the above aspect, a desired luminous intensity can be obtained by operating the switch unit.

According to the present invention, it is possible to provide a bar-shaped light capable of obtaining various light-emitting patterns despite its simple configuration. In addition, since a plurality of light emitting members can be controlled in fine units, not only a light emitting pattern can be obtained, but also power consumption can be easily controlled.

It is a figure showing the front of the bar-shaped light concerning this embodiment. It is the figure which looked at the bar-shaped light concerning this embodiment from the front. FIG. 3 is a view of the rod-shaped light according to the embodiment as viewed from a right side surface in FIG. 2. FIG. 3 is a diagram of the rod-shaped light according to the embodiment as viewed from a left side surface in FIG. 2. It is the figure which looked at the bar-shaped light concerning this embodiment from the back. It is the figure which looked at the bar-shaped light concerning this embodiment from the plane. It is the figure which looked at the bar-shaped light concerning this embodiment from the bottom. FIG. 8 is a cross-sectional view of the rod-shaped light according to the embodiment taken along line VIII-VIII in FIG. 2. It is a figure showing the state where the rod-shaped light concerning this embodiment was disassembled.

Hereinafter, the rod-shaped light according to the embodiment of the present invention will be described in detail with reference to the drawings.

(Configuration of rod-shaped light 100)
FIG. 1 is a diagram showing the front of a bar-shaped light 100 according to the present embodiment, FIG. 2 is a diagram of the bar-shaped light 100 according to the present embodiment viewed from the front, and FIG. FIG. 4 is a view of the light 100 as viewed from the right side in FIG. 2, FIG. 4 is a view of the rod-shaped light 100 according to the present embodiment as viewed from the left side in FIG. 2, and FIG. 6 is a view of the bar-shaped light 100 according to the present embodiment as viewed from the bottom, and FIG. 7 is a view of the bar-shaped light 100 according to the present embodiment as viewed from above. FIG. 8 is a sectional view of the rod-shaped light 100 according to the present embodiment taken along line VIII-VIII in FIG.

The rod-shaped light 100 according to the present embodiment is provided inside the body 101, and is connected to the light emitting unit 201 including a plurality of LEDs and the body 101, and can be held by hand. A holding unit 301, a power supply unit 401 provided inside the holding unit 301 and supplying power to the light emitting unit 201, a main IC 501 provided inside the holding unit 301 and controlling a light emitting condition of the light emitting unit 201, A plurality of sub-ICs 601 are provided adjacent to the plurality of LEDs and control the light-emitting conditions of the plurality of LEDs based on a main control signal from the main IC 501, and are provided outside the holding unit 301 and emit light to the main IC 501. And a switch unit 701 for giving an instruction to switch between the two.

The body 101 has transparency so that the light emission of the light emitting unit 201 can be visually recognized from outside the body 101. For example, it may be made of translucent plastic or glass. In the present embodiment, it is made of plastic. In addition, the transparent portion may be only a part as long as the light emitting portion 201 can be visually recognized.

The body 101 includes a head 102 that blocks light emitted from the light emitting unit 201. The head section 102 may use a metal piece such as aluminum. In the present embodiment, it is made of an aluminum plate. The head section 102 is provided at an upper end of the body section 101.

The head section 102 may have a notch having a figure shape for partially transmitting light. The cut has a linear figure shape and refers to a portion through which light irradiated to the head unit 102 can be transmitted. The cut may be a figure such as a star or a crown, or a character. However, it is desirable that the cut has a width that can sufficiently suppress the luminous intensity.

The body 101 may further include a decorative sheet 103 inside. The decorative sheet 103 refers to a sheet through which light of a specific wavelength can pass. By transmitting light of a specific wavelength emitted from the light emitting section 201 to the decorative sheet 103, the light has an effect of appearing to have a color. Further, the decorative sheet 103 may have a plurality of irregularities on the surface and irregularly reflect light. Specific examples include cellophane, vinyl chloride, and film.

胴 As shown in FIG. 8, in the present embodiment, the body 101 includes an outer body 101a and an inner body 101b. Then, as described later, the decorative sheet 103 is inserted into a gap between the outer body portion 101a and the inner body portion 101b.

The light emitting unit 201 is provided inside the body unit 101 and includes a plurality of LEDs that emit light by receiving power supply from the power supply unit 401. The LED may be one in which each LED emits a single emission color, or each LED may emit in a plurality of emission colors. In the present embodiment, an LED that emits white light is used. The plurality of LEDs are arranged in one or two rows inside the body 101 from one end to the other.

The holding portion 301 is a portion for holding the rod-shaped light 100. The holding unit 301 is grasped by hand, for example. Further, a power supply unit 401 and a main IC 501 described later are provided inside the holding unit 301. The upper end of the holding unit 301 is connected to the lower end of the body unit 101.

The holding portion 301 has a strap anchor 302 for convenience in carrying. In addition, the holding unit 301 includes a power supply cover 303 on the back surface of the holding unit 301, from which the power supply unit 401 can be detached from the outside.

The power supply unit 401 supplies power to the light emitting unit 201. Specific examples include a dry battery and a button battery. The power supply unit 401 is a primary battery or a secondary battery. In the case of a secondary battery, the power supply unit 401 may be configured to store power supplied from outside the power supply unit 401. Further, the power supplied from the outside may be obtained by converting sunlight into power. In the present embodiment, the battery is a dry cell such as an AA battery.

The holding unit 301 includes a main IC 501 that controls the light emission conditions of the light emitting unit 201. The main IC 501 has a control circuit, and specifically includes a substrate circuit such as a CPU (Central Processing Unit) and an IC chip, and includes one or a plurality of processors and peripheral circuits thereof. The main IC 501 controls, for example, the light intensity, blinking speed, light emission color, and the like of the light emitting unit 201 as light emitting conditions of the light emitting unit 201. Further, it is desirable that the main IC 501 has a storage area for storing these light emission conditions. The storage area includes, for example, at least one of a semiconductor memory, a magnetic disk device, and an optical disk device.

A plurality of light emitting units 201 are provided inside the body unit 101, and each light emitting unit 201 includes a sub IC 601 for controlling an individual LED (light emission). Note that each light emitting unit 201 does not necessarily need to be incorporated as long as the sub ICs 601 are arranged in a one-to-one correspondence so that the light emitting units 201 can be controlled. It is not necessary to weld the light emitting unit 201 and the sub IC 601 individually to the substrate when the light emitting unit 201 includes the sub IC 601 as compared with the case where the light emitting unit 201 and the sub IC 601 are individually provided. Becomes easier. Note that, in principle, the light emitting unit 201 and the sub IC 601 are provided in one-to-one correspondence, but one sub IC 601 may control a plurality of light emitting units 201.

The sub IC 601 controls the luminous intensity, blinking speed, emission color, and the like of the LED to be controlled based on the main control signal of the main IC 501.

Thereby, a plurality of LEDs can be controlled to enrich the light emission pattern. Further, since a plurality of LEDs are provided for one sub IC 601, even if one of the LEDs is missing or damaged, the light emitting unit 201 as a whole hardly affects the light emitting pattern and the light emitting color. In particular, when a plurality of sub ICs cause the LEDs corresponding to the sub ICs to emit different emission colors, if the emission colors are missing, the light emission of the light emitting unit 201 will be less complete. Therefore, according to the present embodiment, it is possible to prevent a reduction in the degree of perfection of the light emitting unit 201 due to a defect in the emission color.

The main IC 501 and the plurality of sub ICs 601 may be provided on the same substrate (integrally). That is, an IC base is arranged over the body 101 and the holder 301, and the main IC 501, the sub IC 601 and the LED are arranged. Thereby, the number of parts can be reduced.

The holding unit 301 includes a switch unit 701 for giving an instruction to switch the light emission condition to the main IC 501.

In the present embodiment, the light emitting pattern of the light emitting unit 201, the luminous intensity of the light emitting unit 201, and the color of the light emitting unit 201 can be switched depending on the number of times the switch unit 701 is pressed or operated. In this embodiment, each time the switch unit 701 is operated, the light emitting pattern of the LED of the light emitting unit 201 changes.

FIG. 9 is a view showing a state where the bar-shaped light 100 according to the present embodiment is disassembled.

棒 As shown in FIG. 9, the rod-shaped light 100 has a cylindrical shape in which the body portion 101 and the holding portion 301 are connected. The body part 101 has a decorative sheet 103 inserted inside the body part 101, and a head part 102 covered and fixed.

As described above, the body portion 101 includes the outer body portion 101a and the inner body portion 101b, and the decorative sheet 103 is inserted into a gap between the outer body portion 101a and the inner body portion 101b.

Furthermore, the body part 101 is inserted into the fixture 104 at the lower end, and connects the holding part 301 including the outer holding part 301a and the inner holding part 301b. The connection is performed by a first metal fitting 304, a second metal fitting 305, and a plurality of screws 306a. Note that a plurality of components are arranged inside before the holding unit 301 is connected, and details will be described later.

内側 An inner lid 105 for fixing the head portion 102 is disposed at an upper end of the body portion 101, and forms an upper end surface of the body portion 101 together with the head portion 102.

Next, the internal structure of the holding unit 301 will be described with reference to FIG.

(4) The holding unit 301 fixes the PCB substrate 307 including the main IC 501, the sub IC 601 and the light emitting unit 201 using the PCB fixture 308 (consisting of the upper PCB fixture 308a and the lower PCB fixture 308b).

The PCB board 307 is connected to the power supply section 309 for supplying power from the power supply section 401, and is fixed together with the PCB board 307 by the PCB fixing tool 308.

The power supply lid 303 is fixed to the holding unit 301 by the screw 310 and the screw receiver 311. By removing the screw 310, the power supply unit 401 can be replaced or charged.

The switch unit 701 is provided at the lower end of the holding unit 301 and has a button 312 inside. When the switch unit 701 is operated, information such as the number of times and time of the operation is transmitted to the main IC 501 via the button 312.

(Control of the main IC 501)
Next, an example of control of the sub IC 601 by the main IC 501 will be described.

(4) The main IC 501 controls the plurality of sub ICs 601 so that only some of the plurality of LEDs emit light at the same time. That is, the sub IC 601 is controlled so that all the LEDs are not turned on at the same time. With this configuration, power consumption per time can be suppressed.

(4) The main IC 501 controls the plurality of sub ICs 601 such that a part of the plurality of LEDs sequentially emits light. That is, the sub IC 601 is controlled so that all the LEDs are not turned on at the same time. With this configuration, power consumption per time can be suppressed.

The light emission pattern of the plurality of LEDs controls the plurality of sub ICs 601 so that the LEDs sequentially emit light from one end (upper end) in the longitudinal direction of the body 101 to the other end (lower end). That is, the sub IC 601 can be controlled so that light emission of the light emitting unit flows from one end to the other. In addition, a configuration in which a part of the LED is turned on at random or a configuration in which a part of the LED is turned off at random is also applicable. According to the present embodiment, since the plurality of sub ICs 601 are individually controlled by the main IC 501, various light emission patterns can be realized while suppressing power consumption.

{Circle around (2)} The main IC 501 controls the plurality of sub-ICs 601 such that a part of the plurality of LEDs emits light evenly. With this configuration, the plurality of LEDs emit light evenly, so that the lifetimes of all the LEDs can be made uniform.

(4) The main IC 501 controls the plurality of sub-ICs 601 so that the power consumption of the power supply unit 401 becomes equal to or less than a predetermined value. Since events and concerts take a long time, light emission can be maintained until the end of an event or concert by reducing power consumption. In addition, the light emission pattern may be stored in the storage area of the main IC so that the operation is switched to the long-time operation mode by operating the switch unit 701.

The main IC 501 stores a light emission pattern in a storage area so as to control a plurality of sub-ICs 601 so as to change a time interval at which a plurality of LEDs emit light as a light emission condition every time the switch unit 701 is operated. Is also good. That is, by changing the light emission cycle of the LED, the light emission pattern can be enriched. It is preferable to control the light emission pattern so that the power consumption does not change even if the light emission cycle is changed.

The embodiment of the present invention has been described with reference to the drawings. However, the specific configuration is not limited to this embodiment, and includes various modifications without departing from the spirit of the present invention. It is.

(Modification 1)
In this embodiment, each time the switch unit 701 is operated, the light emission pattern of the LED of the light emitting unit 201 is changed. However, each time the switch unit 701 is operated, the color of the LED of the light emitting unit 201 changes. The main IC 501 may control the IC 601. That is, the sub IC 601 causes the LED to emit different colors by setting the RGB value, lightness, and saturation using the wavelength range (nm) of the LED.

For example, the main IC 501 may control the sub-IC 601 so that a predetermined color is sequentially selected each time the switch unit 701 is operated. Rainbow mode.
(Modification 2)

In the present embodiment, the light emission pattern of the LED of the light emitting unit 201 changes each time the switch unit 701 is operated. However, the luminous intensity of the LED of the light emitting unit 201 may be controlled each time the switch unit 701 is operated. .

For example, the main IC 501 may control the sub IC 601 so that the predetermined LED luminosity is sequentially selected each time the switch unit 701 is operated. You may.

REFERENCE SIGNS LIST 100 rod-shaped light 101 body part 102 head part 103 decorative sheet 104 fixing tool 105 inner lid 201 light emitting part 301 holding part 302 strap fixing 303 power supply lid 304 first metal fitting 305 second metal fitting 306 screw 307 PCB base 308 PCB fixing tool 309 conducting section 310 screw 311 screw receiver 312 button 401 power supply unit 501 main IC
601 Sub IC

Claims (14)

1. A cylindrical body,
   A light emitting unit provided inside the body unit and configured by a plurality of light emitting members;
   A holding portion that is connected to the body portion and can be held by hand;
   A power supply unit that is provided inside the holding unit and supplies power to the light emitting unit;
   A main control unit that is provided inside the holding unit and controls a light emitting condition of the light emitting unit;
   A plurality of sub-control units that control light emission conditions of the plurality of light-emitting members based on a main control signal from the main control unit,
   A switch unit that is provided on an outer surface of the holding unit and that gives an instruction to switch the light emission condition to the main control unit;
   In a rod-shaped light having
   The plurality of sub-control units are individually controlled based on the main control signal.
2. The bar-shaped light according to claim 1, wherein the plurality of sub-control units are provided for each of the plurality of light-emitting members.
3. The bar-shaped light according to claim 1, wherein the main control unit and the sub control unit are provided integrally.
4. The rod-shaped light according to any one of claims 1 to 3, wherein a plurality of the plurality of light emitting members are provided for one sub control unit.
5. The rod-shaped light according to any one of claims 1 to 4, wherein the main control unit controls the plurality of sub-control units such that only some of the plurality of light-emitting members emit light at the same time. .
6. The rod-shaped light according to any one of claims 1 to 5, wherein the main control unit controls the plurality of sub-control units such that a part of the plurality of light-emitting members emits light sequentially. .
7. The rod shape according to any one of claims 1 to 6, wherein the main control unit controls the plurality of sub-control units such that each of the plurality of light-emitting members emits light evenly. Light.
8. The main control unit controls the plurality of sub-control units such that the plurality of light-emitting members sequentially emit light from one end to the other end in the longitudinal direction of the body unit. The rod-shaped light according to any one of claims 1 to 4.
9. The rod-shaped light according to any one of claims 1 to 8, wherein the main control unit controls the plurality of sub-control units so that power consumption of the power supply unit is equal to or less than a predetermined value.
10. The main control unit controls the plurality of sub-control units so as to change a time interval at which the plurality of light-emitting members emit light as the light-emitting condition each time the switch unit is operated. 10. The rod-shaped light according to any one of 1 to 9.
11. The plurality of light emitting members can emit a plurality of colors,
    The rod-shaped light according to any one of claims 1 to 10, wherein the plurality of sub-controllers control light emission colors of the plurality of light-emitting members.
12. The said main control part controls the said several sub-control part so that the color which these several light emitting members emit may be changed as the said light emission condition, whenever the said switch part is operated. The bar-shaped light according to 1.
13. The bar-shaped light according to any one of claims 1 to 12, wherein the plurality of sub-control units control the luminous intensity of the plurality of light-emitting members.
14. The bar-shaped light according to claim 13, wherein the main control unit controls the plurality of sub-control units such that the luminous intensity of the plurality of light-emitting members is changed each time the switch unit is operated.

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