WO2021235233A1 - Light-emitting performance unit and figure toy - Google Patents

Abstract

[Problem] To achieve with a simple constitution a performance effect, such as changing over time the color of a specified region in a figure toy. [Solution] A light-emitting performance unit disposed inside a figure toy, provided with: a wired flexible printed circuit board; multiple light emitter units disposed on the wiring of the flexible printed circuit board; and a control unit for controlling the direction of electric current flowing from the power source into the wiring. Each of the multiple light emitter units is provided with a first LED of a first color and a second LED of a second color, and the multiple light emitter units are connected in series by the wiring.

Description

Luminous production unit and doll toys

The present invention relates to a light emitting effect unit and a doll toy.

Assembled models and doll toy parts (parts) such as so-called plastic models (registered trademarks) include light emitting parts for decorating models and doll toys. It was

Patent Document 1 discloses a toy in which a substrate in which a plurality of through holes are radially provided in a spherical hollow body and a decorative member made of a luminescent material that can be attached to and detached from the through holes of the substrate are combined. The toy can be used for decoration or play equipment by combining a substrate and a colored body or a substrate and a light emitting body.

Japanese Unexamined Patent Publication No. 11-047458

It is desired to realize a dramatic effect that changes the color of a specific part of a model or a doll toy with time with a simple configuration, and the present invention provides a technique for that purpose.

The present invention is a light emitting effect unit arranged inside a doll toy, and includes a flexible printed board with wiring and a plurality of light emitting body units arranged on the wiring of the flexible printed board. Each of the plurality of light emitter units includes a first LED of the first color and a second LED of the second color, and the polarities of the first LED and the second LED are reversed. When connected to the wiring in parallel and the direction of the current flowing from the power supply to the wiring is controlled, the first LED emits light in the first direction of the current, and the first LED emits light in the first direction. The second LED emits light in the second direction opposite to the direction of the above, and the plurality of light emitter units are connected in series by the wiring.

According to the present invention, it is possible to realize a dramatic effect such as changing the color of a specific part of a model over time with a simple configuration.

The figure which shows an example of the circuit diagram corresponding to an embodiment. The figure which shows an example of the structure of the flexible printed circuit board corresponding to an embodiment. The figure which shows an example of the light emission control of LED corresponding to an embodiment. The figure which shows an example of the structural example of the model part corresponding to an embodiment. The figure which shows another example of the structural example of the model part corresponding to an embodiment. The figure which shows an example of the cross section of the model part corresponding to an embodiment.

Hereinafter, embodiments will be described in detail with reference to the accompanying drawings. It should be noted that the following embodiments do not limit the invention according to the claims, and not all combinations of features described in the embodiments are essential to the invention. Two or more of the plurality of features described in the embodiments may be arbitrarily combined. In addition, the same or similar configuration will be given the same reference number, and duplicated explanations will be omitted. Further, in each drawing, the vertical / horizontal direction with respect to the paper surface is used as the vertical / horizontal direction of the part (or the part) in the present embodiment in the explanation in the text. It was

First, FIG. 1 shows a circuit diagram of a light emitting circuit constituting a light emitting effect unit corresponding to the present embodiment. The light emitting circuit can be configured by arranging light emitting bodies such as LEDs of a plurality of colors on the wiring of a flexible printed circuit board (FPC). By arranging the light emitting body on the flexible printed substrate at an arbitrary part of a model or a doll toy (hereinafter collectively referred to as a model), it is possible to make a specific part of the model emit light. It was

The circuit diagram shown in FIG. 1 simply shows a light emitting circuit. Further, although the number of light emitters is shown in a limited manner for the sake of illustration, a larger number of light emitters can be arranged on the flexible printed substrate. It was

In FIG. 1, the light emitting circuit 10 is configured to include a power supply 100, a current direction control circuit 110, a control unit 120, and a light emitting body unit 130. The power supply 100 supplies power for operating the light emitting circuit 10. The current direction control circuit 110 is a switching circuit that switches the direction of the current flowing through the light emitter unit 130 between the first direction and the second direction opposite to the first direction, and is a control signal from the control unit 120. It works according to. The control unit 120 supplies a control signal for controlling the operation of the current direction control circuit 110. The control unit 120 can be configured by a microcomputer, and for example, a control signal supplied to the current direction control circuit 110 is supplied so that the current flow direction is switched between the first direction and the second direction at a fixed time interval. Switch. It was

The light emitter unit 130 is composed of two LEDs having different colors, and includes a set of first LEDs having a first direction in the forward direction and a set of second LEDs having a second direction in the forward direction. It is arranged in parallel. In other words, in the light emitter unit 130, the first LED and the second LED are connected in parallel with their polarities reversed. Further, the first LED and the second LED have different emission colors. For example, when the first LED is red, the second LED can be green. It was

The color combination is not limited to the above, and may be any color combination. Further, the colors to be combined may be different depending on the part. For example, the arms and legs of the model may be a combination of red and green, and the body and head may be a combination of red and blue. Further, some of the light emitter units 130 may be a combination of LEDs of the same color. In that case, the emission color does not change in some parts. For example, the emission color may be maintained the same on the head of the model. It was

Further, in the light emitting body unit 130, a plurality of units are connected in series. Thereby, one current direction control circuit 110 can control the light emission of the light emitting body unit 130 for the entire model. It was

The input unit 140 is, for example, an operation input unit such as a switch or a button provided on the model, and the control unit 120 may switch the light emitting mode of the light emitting body unit 130 according to the input from the input unit 140. It was

FIG. 2 is a diagram showing an example of a configuration of a flexible printed circuit board which is a component of a light emitting effect unit corresponding to the present embodiment. Wiring 201 is laid inside the flexible printed substrate 200, and the wiring 201 is covered with a base film and a coverlay. A light emitter unit 130 is installed at an arbitrary position on the wiring 201. In the example shown in FIG. 2, the wiring 201 constitutes one wiring as a whole, the current direction control circuit 110 is connected to the positive electrode terminal 202 and the negative electrode terminal 203, and the direction of the current flowing through the wiring 201 is first. It can be switched between the direction of and the second direction. It was

The light emitting body unit 130 is arranged on the surface side of the flexible printed substrate 200, and the wiring 201 and the LED of the light emitting body unit 130 are connected to each other. For example, as shown in the area surrounded by the dotted line, the anode of the red LED and the cathode of the green LED are connected to the positive electrode side of the wiring 201, and the cathode of the red LED and the anode of the green LED are connected to the negative electrode side. Has been done. It was

The flexible printed board 200 is provided with an engaging hole 204 for fixing to the part of the model, and the position of the flexible printed board 200 is fixed by connecting the parts through the hole of the engaging hole 204. Can be done. Further, since the flexible printed substrate 200 can be arbitrarily bent, it can be attached by being bent or bent according to the shape of a doll toy or a model part. It was

Further, in the example shown in FIG. 2, the flexible printed substrate 200 is divided into a limb portion, a shoulder / arm portion, and a body / waist portion, as shown by being separated by a alternate long and short dash line. In the flexible printed substrate 200, the body / waist and shoulders / arms are connected, and the body / waist and limbs (legs) are connected. As a result, the flexible printed substrate 200 is arranged from the body / waist to the arm via the shoulder, and is arranged from the body / waist to the limb. It was

The flexible printed substrate 200 is arranged by penetrating or passing through the inside of parts constituting joint portions such as the neck, shoulders, elbows, hips, and knees. Therefore, it is desirable that the width of the flexible printed substrate 200 is as narrow as possible, and it is necessary to reduce the number of wirings. In the present embodiment, the number of wirings on the flexible printed board 200 can be two, so that the flexible printed board 200 can be configured with the minimum number of wirings. As an example, the width of the wiring portion of the flexible printed board is, for example, 4 mm at the narrowest point. However, the width of the wiring portion varies depending on the size of the model or the doll toy, and may be wider than 4 mm. Alternatively, it may be narrower than 4 mm. However, it is desirable to secure a width of 1 mm for each wiring and a width of 0.3 to 0.5 mm between the wirings in order to suppress noise. It was

Next, with reference to FIG. 3, the light emission control of the light emitting body unit 130 by the control unit 120 will be described. The control unit 120 can control the voltage supplied to the light emitter unit 130 through the current direction control circuit by PWM (Pulse Width Modulation). FIG. 3 shows an example of control, and the vertical axis of the graph shows the brightness of the LED by the ratio (unit:%) in which the voltage pulse per unit time is turned on in the duty ratio. Both the red LED and the green LED increase the brightness from the off state by increasing the duty ratio from 0% to 90% in the first 3 seconds. It was

After that, when the duty ratio reaches 90%, it is once reduced to 50% over about 3 seconds to reduce the brightness. After that, 50% to 90% is repeated four times in a cycle of about 6 seconds, and the brightness is increased or decreased accordingly. By reducing the brightness from 50% to 0% in the last 3 seconds of the end of the production, the brightness is gradually lowered and the light is turned off. The red LED and the green LED are turned on alternately, and the above control is repeated. The switching interval between the red LED and the green LED can be, for example, about 10 seconds, but may be shorter or longer. It was

The above control method is only an example, and the duty ratio can be controlled or the lighting time can be controlled by other methods. Further, the red LED or the green LED may be switched and turned on according to the operation input from the input unit 140. Further, a plurality of buttons are prepared in the input unit 140, and the light emitting body unit 130 may emit light with different duty ratios and light emission times depending on the type of the operated button. Further, the switch of the input unit 140 is arranged in the joint portion, for example, and the switch may be turned on by moving the joint portion. For example, the switch may be turned on when the arm placed on the arm joint is posed to swing up. It was

Further, the model can be manually or automatically transformed from the first aspect to the second aspect, and the illuminant unit 130 is hidden in the first aspect, but the illuminant unit 130 is hidden in the second aspect. May be configured to be exposed. In that case, in the first aspect, a part or the whole of the parts covering the light emitting body unit 130 may be made of a light-shielding member. The light-shielding member may be configured by, for example, using a molded part having a color that absorbs light, attaching a reflective sticker, or the like. It was

In the present embodiment, the flexible printed substrate 200 is arranged so as to pass through the inside of the model, specifically, the body and the arm, and the joint portion (for example, the elbow joint and the knee joint). As a result, the light emitter unit 130 arranged on the flexible printed substrate 200 can be arranged at a predetermined position of the model. Hereinafter, specific examples of the arrangement will be described with reference to FIGS. 4 to 6. It was

FIG. 4 shows an example of being arranged on the body / waist of the model. The part 401 of the flexible printed circuit board is arranged inside the clear part 402, and the emitted light of the LEDs at both ends passes through the clear part 402 and is irradiated to the outside. The clear part 402 is a member made of a transparent ABS resin having a predetermined color and transmits light. The clear part 402 is covered with the part 403 from above, but the part 403 is made of polystyrene that does not transmit light. However, the use of materials other than polystyrene (thermoplastic resins such as polyethylene and ABS, thermosetting resins, metals, etc.) is not excluded as the material for forming such parts that do not transmit light. Therefore, the emitted light from the LED arranged in the part 401 is emitted downward in the figure. The wiring portion 404 of the flexible printed board extends through the opening of the part 405 to other parts of the model. In this way, the wiring of the flexible printed circuit board 200 is arranged in the model (for example, the limb) through the parts of the model.

The part 406 is a connector for connecting the flexible printed circuit board 200 to an external device or a power supply part. It can be used for connecting to the current direction control circuit 110, the power supply 100, the control unit 120, the input unit 140, etc. shown in FIG. In the present embodiment, the current direction control circuit 110, the power supply 100, the control unit 120, and the input unit 140 are arranged as a battery box in the base on which the model is installed, and are connected to the connector by a predetermined wiring. However, the embodiment is merely an example, and the current direction control circuit 110, the power supply 100, the control unit 120, and the input unit 140 may all be mounted inside the model, or at least a part of them, for example, a current. Only the direction control circuit 110 may be equipped with the current direction control circuit 110, the control unit 120, and the input unit 140, and the remaining portion may be arranged in the base for installation. It was

Next, FIG. 5 shows an example of the configuration of the legs of the model. The part 501 in which the LED of the flexible printed circuit board is arranged is arranged inside the surface light emitting part 502. The surface emitting parts are made of GP (high impact PS) as a material, and the material has a milky white color. The above-mentioned clear parts 402 are composed of a transparent color that is transparent, whereas the surface-emitting parts are milky white like frosted glass or translucent to diffuse light so as not to let light escape. The entire light emitting surface is made to shine uniformly. It was

A light-shielding part 503 that does not transmit light is arranged on the outside of the surface-emitting part 502, and the surface-emitting part 502 is concealed by the light-shielding part 503, and the surface-emitting part 502 is partially exposed. It is configured in combination with other parts so that the position of the part 503 can be shifted. Since the mechanism for shifting the position of the light-shielding part 503 is a general mechanism, the description thereof will be omitted. Thereby, the light generated by the lighting of the LED can be confirmed from the gap of the light-shielding part 503 via the surface light emitting part 502. It was

In the above, the case where the surface emitting part directly receives the light from the LED is described, but as shown in the exemplary cross-sectional view of FIG. 6, the light may be diffused by the surface emitting part through the clear part. .. In FIG. 6, the emitted light from the LED 601 is transmitted to the surface emitting part 605 via the clear parts 602 and 603 and diffused. Since the outside of the clear part is covered with the light-shielding part 604 that does not transmit light, the light is not diffused in the left-right direction but is transmitted in the direction of the part 605. By using the clear parts in this way, it is possible to adjust the diffusion direction and range of the light according to the size and thickness of the clear parts and further by combining with the light-shielding parts. It was

As described above, according to the present embodiment, it is possible to alternately or selectively emit a plurality of LEDs having different emission colors by controlling the direction of the current flowing through the wiring. In the exemplary embodiment, the red LED emits light when the current is flowing in the first direction, and the green LED is emitted when the current is flowing in the second direction opposite to the first direction. It emits light. It was

In the present embodiment, the number of wirings can be minimized by connecting LEDs having different emission colors in parallel in opposite directions. As a result, the width of the flexible printed circuit board can be minimized, and the LED can be arranged at an arbitrary position through the inside of the model part to produce an effect by light. It was

Further, in the present embodiment, by combining a light emitting body (LED) which is a light source, a transparent part that transmits light, and a surface light emitting part that diffuses light, the light from the light source can be obtained at an arbitrary position of the model. Allows it to be transmitted to and diffused. It was

The invention is not limited to the above embodiment, and various modifications and changes can be made within the scope of the gist of the invention.

Claims (12)

1. It is a light emitting effect unit arranged inside a doll toy, and includes a flexible printed board with wiring and a plurality of light emitting body units arranged on the wiring of the flexible printed board, and the plurality of light emitting bodies. Each of the units includes a first LED of a first color and a second LED of a second color, and the first LED and the second LED have their polarities reversed and the wiring is performed in parallel. When the direction of the current flowing from the power supply to the wiring is controlled, the first LED emits light in the first direction of the current, and the direction of the current is the first direction. A light emitting effect unit in which the second LED emits light in the opposite second direction, and the plurality of light emitting body units are connected in series by the wiring.
2. The light emitting effect unit according to claim 1, wherein the first color and the second color are different colors.
3. The light emitting effect unit according to claim 1, wherein at least one of the plurality of light emitting body units is the same color as the first color and the second color.
4. At least one of the plurality of light emitter units includes a third LED of a third color and a fourth LED of the fourth color, wherein the third color and the fourth color are: The light emitting effect unit according to any one of claims 1 to 3, which is a color different from at least one of the first color and the second color.
5. The flexible printed board is configured by connecting a portion arranged on the arm of the doll toy and a portion arranged on the limb of the doll toy to a portion arranged inside the body of the doll toy. The light emitting effect unit according to any one of claims 1 to 4.
6. The light emitting effect unit according to any one of claims 1 to 5, wherein the width of the flexible printed circuit board is 4 mm.
7. Claims 1 to 6 further include a connector connected to the wiring of the flexible printed board, and are connected to the power supply and a control unit that controls the direction of the current flowing from the power supply to the wiring via the connector. The light emitting effect unit described in any one of the above.
8. A doll toy in which the light emitting effect unit according to any one of claims 1 to 7 is arranged.
9. The doll toy according to claim 8, wherein each of the plurality of light emitter units is fixed to a predetermined portion of the doll toy by arranging the flexible printed substrate inside the doll toy.
10. The doll toy according to claim 9, wherein at least one of the plurality of light emitter units is arranged inside at least one limb of the doll toy to emit light at a predetermined position of the limb.
11. The doll toy according to claim 10, wherein the limb has a bendable joint mechanism, and the flexible printed substrate is arranged inside the limb so as to pass through the joint mechanism.
12. The doll toy according to any one of claims 8 to 11, wherein the flexible printed substrate is arranged from the inside of the body of the doll toy to the inside of at least one limb.

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