JP6176806B1 - Subject toy gun - Google Patents

Abstract

An object to be ejected for a toy gun capable of emitting light without providing an illumination device or a light emitter in the toy gun is provided. A toy gun to-be-emitted object includes a light-transmitting casing, a light emitting section that is provided in the casing and emits light, and a detection section that is provided in the casing and detects a predetermined event. A control unit that is provided in the housing and controls light emission of the light emitting unit, and the control unit starts light emission of the light emitting unit when the predetermined event is detected by the detection unit The light emitting unit is controlled as follows. [Selection] Figure 1

Description

  The present invention relates to an object to be ejected for a toy gun.

  Conventionally, various toy guns for ejecting bullets and spheres have been provided. In order to improve the visibility of bullets and spheres, bullets and spheres are shined. There is known a configuration in which an illumination device is built in a magazine of a toy air gun and phosphorescent bullets loaded in the magazine are stored by illumination from the illumination device (for example, Patent Document 1). An air gun is known in which a light emitter that emits light toward a phosphorescent bullet that accumulates irradiated light is disposed inside the case body of the air gun (for example, Patent Document 2).

JP 2007-218522 A Utility Model Registration No. 3124634

  In the prior art, the photoluminescent bullet requires time for storing light, and it is necessary to provide an illuminating device and a light emitter for irradiating the photoluminescent bullet in the toy gun. This invention is made | formed in view of such a situation, and it aims at providing the to-be-emitted object for toy guns which can light-emit, without providing an illuminating device and a light-emitting body in a toy gun.

  The present invention adopts the following configuration in order to achieve the above-described object. In other words, the toy gun ejection object according to an aspect of the present invention includes a light-transmitting casing, a light-emitting unit that is provided in the casing and emits light, and is provided in the casing to detect a predetermined event. And a control unit that is provided in the housing and controls light emission of the light emitting unit, and when the predetermined event is detected by the detection unit, the control unit The light emitting unit is controlled so that light emission starts. According to the toy gun target, the detection unit detects a predetermined event when the toy gun target is ejected from a toy gun, so that the light emitting unit can start to emit light. it can.

  In the toy gun target according to an aspect of the present invention, the control unit stops light emission of the light emitting unit when the predetermined event is detected by the detection unit after light emission of the light emitting unit is started. The light emitting unit may be controlled as described above. According to the toy gun to-be-emitted object, the emission of the light-emitting unit can be stopped by the toy gun to-be-emitted object being ejected from the toy gun hitting the object.

  In the toy gun target according to an aspect of the present invention, the control unit emits light from the light emitting unit when the detection unit detects the predetermined event a plurality of times after the light emitting unit has started to emit light. The light emitting unit may be controlled to stop. According to the toy gun object to be ejected, the toy gun object to be ejected emitted from the toy gun hits the first object and can maintain the light emission of the light emitting section until it hits the second object.

In the toy gun ejection object according to an aspect of the present invention, the control unit blinks the light emitted from the light emitting unit when the predetermined event is detected by the detecting unit after the light emitting unit starts emitting light. The light emitting unit may be controlled as described above. According to the toy gun to-be-emitted object, after the toy gun to-be-emitted object is ejected from the toy gun, the light emitting unit starts to emit light, and the toy gun to-be-emitted object hits the object. The light emitted from the light emitting unit blinks.

  In the toy gun ejection target according to an aspect of the present invention, the control unit controls the light emitting unit to stop the light emission of the light emitting unit when a predetermined time has elapsed after the light emission of the light emitting unit has started. You may control. According to the toy gun object, the light emission of the light emitting unit is stopped when a predetermined time has elapsed after the light emission of the light emitting unit is started, thereby saving power consumption.

  The toy gun object to be ejected according to one aspect of the present invention may include a plurality of the light emitting units. In the toy gun object to be ejected according to one aspect of the present invention, the control unit may control the plurality of light emitting units such that light emission of the plurality of light emitting units starts simultaneously or at different timings. In the toy gun ejection target according to an aspect of the present invention, the control unit may control the plurality of light emitting units such that light emission of the plurality of light emitting units stops simultaneously or at different timings.

  The toy gun ejection object according to an aspect of the present invention further includes a sound output unit that is provided in the housing and outputs sound, and the control unit is configured to perform the detection by the detection unit after the light emission of the light emitting unit is started. When the predetermined event is detected, the sound output unit may be controlled so that the sound output of the sound output unit starts. The toy gun ejection object according to an aspect of the present invention further includes a flash unit that is provided in the housing and outputs a flash, and the control unit performs the detection by the detection unit after the light emission of the light emitting unit is started. When the predetermined event is detected, the flash unit may be controlled so that the flash unit starts outputting the flash. In the toy gun ejection target according to an aspect of the present invention, the predetermined event may include at least one of vibration, impact, and contact with the housing.

  According to one aspect of the present invention, it is possible to provide a to-be-gun to-be-emitted object capable of emitting light without providing an illumination device or a light emitter in the toy gun.

FIG. 1 is a configuration diagram illustrating an example of an injection target according to the embodiment. FIG. 2 is an explanatory view showing the internal structure of the injection apparatus. FIG. 3 is a configuration diagram illustrating an example of an injection target according to the embodiment. FIG. 4 is a schematic diagram illustrating an example of an injection target according to the embodiment. FIG. 5 is a schematic diagram illustrating an example of an injection target according to the embodiment. FIG. 6 is a configuration diagram illustrating an example of an injection target according to the embodiment.

  Embodiments of the present invention will be described below with reference to the drawings. The following embodiment is an exemplification, and the present invention is not limited to the configuration of the following embodiment.

FIG. 1 is a configuration diagram illustrating an example of an injection target 1 according to the embodiment. The object 1 includes a housing 2, and a light emitting unit 3, a detection unit 4, a control unit 5, a storage unit 6, and a power supply unit 7 provided in the housing 2. One or a plurality of detection units 4 may be provided on the surface of the housing 2. The injection target 1 is an example of a toy injection target. All of the components of the injection target 1 shown in FIG. 1 are not essential, and the components of the injection target 1 may be added or deleted as appropriate in realizing the injection target 1. The housing 2 is a soft plastic or hard plastic having light transparency. The housing 2 may have a spherical shape, an elliptical spherical shape, a cylindrical shape, a bullet shape, a disk shape, or a cubic shape, and the housing 2 may have a shape other than these shapes. The housing 2 may be colorless or colored. The light emitting unit 3 emits light upon receiving power supplied from the power supply unit 7. The light emitting unit 3 is, for example, a light emitting diode (LED). Various colors can be used as the emission color of the LED. The detection unit 4 detects a predetermined event. The predetermined event includes any one of vibration, shock, and contact with the housing 2. The detection unit 4 includes at least one of a vibration sensor (switch), an acceleration sensor, an angular velocity sensor, and a contact sensor (switch). For example, a pressure sensor, a microswitch, or an infrared distance sensor may be used as the contact sensor. For example, the detection unit 4 may detect vibration of the housing 2 and an impact applied to the housing 2 by including at least one of a vibration sensor, an acceleration sensor, and an angular velocity sensor. For example, the detection unit 4 may detect contact with the housing 2 by including the contact sensor.

The control unit 5 controls the light emission of the light emitting unit 3. The control unit 5 has a Central Processing Unit (C
PU) or Application Specific Integrated Circuit (ASIC). Control unit 5
May be configured by one CPU or the like, or may be configured by combining a plurality of CPUs or ASICs. The CPU is also called an MPU (Microprocessor) or processor. The CPU is not limited to a single processor, and may have a multiprocessor configuration. The control unit 5 executes various processes in accordance with a computer program that is executed in the storage unit 6 in an executable manner.

  The storage unit 6 includes a random access memory (RAM) or a read only memory (ROM). The storage unit 6 stores or temporarily stores a program executed by the control unit 5, data obtained by processing executed by the control unit 5, and the like. The control unit 5 and the storage unit 6 may be integrated. The power supply unit 7 supplies power to the light emitting unit 3, the detection unit 4, the control unit 5, and the storage unit 6. The power supply unit 7 includes a non-rechargeable primary battery or a rechargeable secondary battery.

  FIG. 2 is an explanatory diagram showing the internal structure of the injection apparatus 10 that injects the injection target 1. The injection device 10 is an example of a toy gun. As shown in FIG. 2A, when the object 1 is mounted in the barrel 11 of the injection apparatus 10, the spring 12 provided in the barrel 11 is compressed and the claw 14 of the trigger 13 is compressed. The object 1 is held in the barrel 11 by being caught by the injection unit 15. When the trigger 13 is operated in a state where the injection target 1 is held in the barrel 11, the claw 14 of the trigger 13 is removed from the injection portion 15 and the compression of the spring 12 is released. As shown in FIG. 2B, the compression of the spring 12 is released, and the injection target 15 is pushed out of the barrel 11 by the injection unit 15, whereby the injection target 1 is injected from the injection device 10.

  When a predetermined event is detected by the detection unit 4, the control unit 5 controls the light emitting unit 3 so that the light emitting unit 3 starts to emit light. Further, when a predetermined event is detected by the detection unit 4, the control unit 5 controls the light emitting unit 3 so that the light emitting unit 3 starts to emit light, and the light emitting unit 3 so that the light emission of the light emitting unit 3 blinks. 3 may be controlled. For example, when the detection unit 4 detects vibration or impact when the injection target 1 is emitted from the injection device 10, the control unit 5 controls the light emitting unit 3 so that the light emitting unit 3 starts to emit light. Also good. For example, when the object 1 is ejected from the ejection device 10, when the detection unit 4 detects that the ejection device 10 is in contact with the housing 2, the control unit 5 starts to emit light from the light emitting unit 3. Alternatively, the light emitting unit 3 may be controlled. With the control as described above, the light emitting unit 3 starts to emit light when the injection target body 1 is ejected from the ejection device 10. Therefore, according to the to-be-emitted body 1 which concerns on embodiment, light emission of the light emission part 3 with which the to-be-emitted body 1 is provided is possible, without providing an illuminating device and a light-emitting body in the injection apparatus 10. FIG. As described above, the light emitting unit 3 included in the injection target 1 emitted from the injection device 10 emits light, so that it can be seen that the laser beam is emitted from the injection device 10.

When a predetermined event is detected by the detection unit 4 after the light emission of the light emission unit 3 is started, the control unit 5 controls the light emission unit 3 so that the light emission of the light emission unit 3 is stopped. For example, after the light emission of the light emitting unit 3 starts, when the detection unit 4 detects vibration or impact when the object 1 hits the object, the control unit 5 stops the light emission of the light emitting unit 3. Alternatively, the light emitting unit 3 may be controlled. For example, after the light emission of the light emitting unit 3 is started, when the detection unit 4 detects that an object is in contact with the casing 2 of the object 1 to be emitted, the control unit 5 stops the light emission of the light emitting unit 3. Alternatively, the light emitting unit 3 may be controlled. By such control, the light emission of the light emitting unit 3 stops when the object 1 emitted from the injection device 10 hits the object. Objects include people, animals, buildings, vehicles, the ground, and the like. The control unit 5 may control the light emitting unit 3 so that the light emission of the light emitting unit 3 does not start until a predetermined time elapses after the light emission of the light emitting unit 3 stops. Although any value of 1 to 5 seconds may be set as the predetermined time, the predetermined time may be any time and is not limited to these values.

  A case where a vibration sensor is used as the detection unit 4 will be described. The detection unit 4 outputs a detection signal to the control unit 5 and the power supply unit 7 when detecting a vibration of a predetermined value or more. When a detection signal is input to the power supply unit 7 in a state where no power is supplied to the light emitting unit 3, power is supplied from the power supply unit 7 to the light emitting unit 3. When the detection signal is input to the control unit 5, the control unit 5 controls the light emitting unit 3 so that the light emitting unit 3 starts to emit light. When a detection signal is input to the control unit 5 after the light emission of the light emitting unit 3 is started, the control unit 5 controls the light emitting unit 3 so that the light emission of the light emitting unit 3 is stopped. When the light emission of the light emitting unit 3 is stopped, the supply of power from the power source unit 7 to the light emitting unit 3 is stopped. Although the case where the vibration sensor is used as the detection unit 4 has been described, an acceleration sensor, an angular velocity sensor, or a contact sensor may be used as the detection unit 4.

  When power is not supplied to the light emitting unit 3, the control unit 5, and the storage unit 6, power is supplied to the light emitting unit 3, the control unit 5, and the storage unit 6 from the power supply unit 7 by inputting a detection signal to the power supply unit 7. May be supplied. In this case, a detection signal may be input from the power supply unit 7 to the control unit 5. When the light emission of the light emitting unit 3 stops, the supply of power from the power supply unit 7 to the light emitting unit 3, the control unit 5, and the storage unit 6 may be stopped. The control unit 5 and the power supply unit 7 may be integrated. The control unit 5, the storage unit 6, and the power supply unit 7 may be integrated.

  After the light emission of the light emitting unit 3 is started, the control unit 5 may control the light emitting unit 3 so that the light emission of the light emitting unit 3 stops when a predetermined event is detected a plurality of times by the detection unit 4. . After the light emission of the light emitting unit 3 is started, the detection unit 4 detects vibration and impact when the object 1 hits a first object (for example, a person), and then the object 1 is detected as the second object. When the detection unit 4 detects vibration or impact when it hits an object (for example, the ground), the control unit 5 may control the light emitting unit 3 so that the light emission of the light emitting unit 3 stops. After the light emission of the light emitting unit 3 is started, the detection unit 4 detects that the first target object has come into contact with the casing 2 of the target object 1, and then the second target object is the casing 2 of the target target object 1. When the detecting unit 4 detects that the light emitting unit 3 is touched, the control unit 5 may control the light emitting unit 3 so that the light emitting unit 3 stops light emission. By such control, for example, light emission of the light emitting unit 3 is maintained after the object 1 is ejected from the injection device 10 until the object 1 hits a person and the object 1 falls to the ground.

  When a predetermined event is detected by the detection unit 4 after the light emission of the light emission unit 3 is started, the control unit 5 may control the light emission unit 3 so that the light emission of the light emission unit 3 blinks. By such control, for example, light emission from the light emitting unit 3 starts when the injection target 1 is emitted from the injection device 10, and light emission from the light emission unit 3 blinks after the emission target 1 hits the object. .

When a predetermined event is detected a plurality of times by the detection unit 4 after the light emission of the light emission unit 3 is started, the control unit 5 may control the light emission unit 3 so that the light emission of the light emission unit 3 blinks. . After the light emission of the light emitting unit 3 is started, the detection unit 4 detects vibration and impact when the object 1 hits a first object (for example, a person), and then the object 1 is detected as the second object. When the detection unit 4 detects vibration or impact when hitting an object (for example, the ground), the control unit 5 may control the light emitting unit 3 so that the light emission of the light emitting unit 3 blinks. After the light emission of the light emitting unit 3 is started, the detection unit 4 detects that the first target object has come into contact with the casing 2 of the target object 1, and then the second target object is the casing 2 of the target target object 1. When the detection unit 4 detects that the light emitting unit 3 is touched, the control unit 5 may control the light emitting unit 3 so that the light emission of the light emitting unit 3 blinks. By such control, for example, the emission object 1 is emitted from the injection device 10 to start light emission of the light emitting unit 3, and the emission object 1 hits the first object and hits the second object. Later, the light emission of the light emitting unit 3 blinks.

  When the first predetermined event is detected by the detection unit 4 after the light emission of the light emission unit 3 is started, the control unit 5 controls the light emission unit 3 so that the light emission of the light emission unit 3 blinks and detects When the second predetermined event is detected by the unit 4, the control unit 5 may control the light emitting unit 3 so that the light emission of the light emitting unit 3 stops. By such control, for example, the light emitting unit 3 starts to emit light when the emitting object 1 is emitted from the injection device 10, and when the emitted object 1 hits a first object (for example, a person), the light emitting unit 3. When the emitted object 1 falls on the second object (for example, the ground), the light emission of the light emitting unit 3 stops.

  When a predetermined time has elapsed after the light emission of the light emitting unit 3 starts, the control unit 5 may control the light emitting unit 3 so that the light emission of the light emitting unit 3 stops. Any value of 1 to 30 seconds may be set as the predetermined time, but the predetermined time may be any time and is not limited to these values. The power consumption can be saved by stopping the light emission of the light emitting unit 3 when a predetermined time has elapsed after the light emission of the light emitting unit 3 has started. For example, even if a predetermined event is not detected by the detection unit 4 after the light emission of the light emitting unit 3 is started, the light emitting unit 3 is used when a predetermined time has elapsed after the light emission of the light emitting unit 3 has started. By stopping the light emission, the light emission of the light emitting unit 3 can be stopped reliably. Further, the control unit 5 may control the light emitting unit 3 to stop the light emission of the light emitting unit 3 when a predetermined time has elapsed after the blinking of the light emission of the light emitting unit 3 has started.

  A minute cavity or unevenness may be provided in a part of the inside of the housing 2. The light emitted from the light emitting unit 3 is diffusely reflected by the cavities and irregularities, and the light is emitted to the outside of the housing 2. By irregularly reflecting the light inside the housing 2, the light emitted to the outside of the housing 2 can be expanded.

  The object 1 may include a plurality of light emitting units 3. By emitting light from the plurality of light emitting units 3, it can be seen as if a laser beam is emitted from the emission device 10. FIG. 3 is a configuration diagram illustrating an example of the injection target 1 according to the embodiment. The object 1 includes a housing 2, and light emitting units 3 </ b> A to 3 </ b> C provided in the housing 2, a detection unit 4, a control unit 5, a storage unit 6, and a power supply unit 7. The configuration of the light emitting units 3 </ b> A to 3 </ b> C is the same as the configuration of the light emitting unit 3. Not all the components of the injection target 1 shown in FIG. 3 are essential, and the components of the injection target 1 may be added or deleted as appropriate in realizing the injection target 1. FIG. 3 shows three light emitting units 3 (3A to 3C). However, the light emitting unit 1 is not limited to the emitted object 1 shown in FIG. 3, and the emitted object 1 may include two light emitting units 3. In addition, four or more light emitting units 3 may be provided. The arrangement of the plurality of light emitting units 3 provided in the housing 2 is determined so that characters or pictures are displayed in the air by the light emission of the light emitting unit 3 when the object 1 is emitted from the injection device 10. May be.

  The control unit 5 may control the light emitting units 3A to 3C so that light emission from the light emitting units 3A to 3C starts simultaneously or at different timings. By controlling the light emitting units 3A to 3C so that the light emitting units 3A to 3C start to emit light simultaneously, the light emitting units 3A to 3C start to emit light simultaneously. Since the light emitting units 3A to 3C are controlled so that the light emission from the light emitting units 3A to 3C starts at different timings, the light emission units 3A to 3C start light emission differently, and the light emission units 3A to 3C emit light. The start of is a time difference. The light emitting units 3A and 3B are controlled so that light emission from the light emitting units 3A and 3B starts simultaneously, and the light emitting unit 3C is controlled so that the start of light emission in the light emitting unit 3C is different from the start of light emission in the light emitting units 3A and 3B. You may control.

  The control unit 5 may control the light emitting units 3A to 3C so that light emission in the light emitting units 3A to 3C stops simultaneously or at different timings. By controlling the light emitting units 3A to 3C so that the light emission in the light emitting units 3A to 3C is stopped simultaneously, the light emission of the light emitting units 3A to 3C is stopped simultaneously. Since the light emitting units 3A to 3C are controlled so that the light emission in the light emitting units 3A to 3C stops at different timings, the light emission of the light emitting units 3A to 3C is different from each other, and the light emission of the light emitting units 3A to 3C is different. The stop will be a time difference. The light emitting units 3A and 3B are controlled so that the light emission in the light emitting units 3A and 3B stops simultaneously, and the light emitting unit 3C is controlled so that the light emission in the light emitting unit 3C is stopped at a different timing from the light emission in the light emitting units 3A and 3B. You may control.

  FIG. 4 is a schematic diagram illustrating an example of the injection target 1 according to the embodiment. 4 includes a spherical housing 2 and light emitting units 3A to 3C. In FIG. 4, illustration of the detection unit 4, the control unit 5, the storage unit 6, and the power supply unit 7 is omitted. As shown in FIG. 4, the light emitting units 3A to 3C may be arranged at equal intervals, but the arrangement of the light emitting units 3A to 3C is arbitrary. For example, the light emitting units 3 </ b> A to 3 </ b> C may be disposed on the upper portion of the housing 2, and the detection unit 4, the control unit 5, the storage unit 6, and the power supply unit 7 may be disposed on the lower portion of the housing 2. Thereby, the light emission of the light emitting units 3 </ b> A to 3 </ b> C can be seen well from above and from the left and right of the housing 2.

  FIG. 5 is a schematic diagram illustrating an example of the injection target 1 according to the embodiment. An injection target 1 shown in FIG. 5 includes a cylindrical housing 2 and light emitting units 3A to 3C. In FIG. 5, the detection unit 4, the control unit 5, the storage unit 6, and the power supply unit 7 are not shown. A suction cup 20 having optical transparency is formed at the tip 21 of the housing 2. The suction cup 20 may be colorless or colored. By forming the suction cup 20 at the tip 21 of the housing 2, the safety when the object 1 hits the object is improved. As shown in FIG. 5, the light emitting units 3A to 3C may be arranged at equal intervals, but the arrangement of the light emitting units 3A to 3C is arbitrary. For example, the light emitting units 3 </ b> A to 3 </ b> C may be disposed near the tip 21 of the housing 2. Thereby, the light emission of the light emitting units 3 </ b> A to 3 </ b> C can be seen well from the front end 21 side of the housing 2. When a contact sensor is used as the detection unit 4, the first detection unit 4 may be disposed at the rear end 22 of the housing 2 and the second detection unit 4 may be disposed at the front end 21 of the housing 2. With such an arrangement of the detection unit 4, for example, when the injection target 1 is injected from the injection device 10, the first detection unit 4 detects that the injection unit 15 of the injection device 10 has contacted the housing 2. Then, the second detection unit can detect that the object has contacted the housing 2.

  As shown in FIG. 6, the subject 1 includes a light emitting unit 3, a detection unit 4, a control unit 5, a storage unit 6, and a power supply unit 7, and an audio output unit 8 and a flash provided in the housing 2. The unit 9 may be further provided. FIG. 6 is a configuration diagram illustrating an example of the injection target 1 according to the embodiment. The audio output unit 8 outputs audio. The audio output unit 8 is a recording device such as a voice recorder, for example. The flash unit 9 outputs a flash. The flash unit 9 is a high brightness LED. The luminance of the flash output from the flash unit 9 is higher than the luminance of the light emitted from the light emitting unit 3. All of the components of the injection target 1 shown in FIG. 6 are not essential, and the components of the injection target 1 may be added or deleted as appropriate in realizing the injection target 1. For example, the subject 1 may include the light emitting unit 3, the detection unit 4, the control unit 5, the storage unit 6, and the power supply unit 7, and may further include one of the audio output unit 8 and the flash unit 9. Moreover, the to-be-emitted body 1 shown in FIG.

Audio is recorded in the audio output unit 8 in advance. When a predetermined event is detected by the detection unit 4 after the light emission unit 3 has started to emit light, the control unit 5 controls the audio output unit 8 so that the audio output unit 8 starts outputting the audio. For example, after the light emission of the light emitting unit 3 is started, when the detection unit 4 detects vibration or impact when the object 1 hits the object, the control unit 5 outputs the audio from the audio output unit 8. The audio output unit 8 may be controlled to start. For example, when the detection unit 4 detects that an object has contacted the casing 2 of the emission target 1 after the light emission unit 3 has started to emit light, the control unit 5 outputs the audio from the audio output unit 8. The audio output unit 8 may be controlled to start. By such control, the sound output unit 8 outputs a sound when the object 1 injected from the injection apparatus 10 hits the object. The voice recorded in the voice output unit 8 may be, for example, an explosion sound or a voice message. When the audio output of the audio output unit 8 starts, power is supplied from the power supply unit 7 to the audio output unit 8, and when the audio output of the audio output unit 8 ends, the power from the power supply unit 7 to the audio output unit 8 Supply stops. The sound output time of the sound output unit 8 depends on the sound recording time recorded in the sound output unit 8.

  When a predetermined event is detected by the detection unit 4 after the light emission unit 3 starts to emit light, the control unit 5 controls the flash unit 9 so that the flash unit 9 starts to output the flash. For example, after the light emission of the light emitting unit 3 is started, when the detection unit 4 detects vibration or impact when the object 1 hits the object, the control unit 5 starts to output the flash of the flash unit 9. The flash unit 9 may be controlled as described above. For example, after the light emission of the light emitting unit 3 is started, when the detection unit 4 detects that an object is in contact with the casing 2 of the subject 1, the control unit 5 starts to output the flash of the flash unit 9. You may control the audio | voice output part 8 so that it may. Under such control, the flashing unit 9 outputs a flash when the object 1 injected from the injection device 10 hits the object. The color of the flash output from the flash unit 9 may be the same as the emission color of the light emitting unit 3 or may be different from the emission color of the light emitting unit 3. For example, the light emission color of the light emitting unit 3 may be white, and the color of the flash output from the flash unit 9 may be red. When the flash output of the flash unit 9 starts, power is supplied from the power supply unit 7 to the flash unit 9, and when the flash output of the flash unit 9 ends, the supply of power from the power supply unit 7 to the flash unit 9 is stopped. To do.

  When a predetermined time has elapsed after the flash output of the flash unit 9 has started, the control unit 5 may control the flash unit 9 so that the flash output of the flash unit 9 stops. Any value of 0.1 to 1 second may be set as the predetermined time, but the predetermined time may be any time and is not limited to these values. Power consumption can be saved by stopping the flash output of the flash unit 9 when a predetermined time has elapsed after the flash output of the flash unit 9 has started. The flash output time of the flash unit 9 may be shorter than the time during which the light emitting unit 3 emits light. Further, the flash output time of the flash unit 9 may be longer than the time during which the light emitting unit 3 emits light, or may be the same as the time during which the light emitting unit 3 emits light.

DESCRIPTION OF SYMBOLS 1 To-be-emitted body 2 Case 3, 3A, 3B, 3C Light emission part 4 Detection part 5 Control part 6 Storage part 7 Power supply part 8 Audio | voice output part 9 Flashing part 10 Injection apparatus

Claims (9)

A light-transmissive casing;
A light emitting unit provided in the housing and emitting light;
A detection unit provided in the housing for detecting a predetermined event;
A control unit provided in the housing for controlling light emission of the light emitting unit;
With
The control unit controls the light emitting unit to start light emission of the light emitting unit when the predetermined event is detected by the detection unit,
The control unit controls the light emitting unit to stop light emission of the light emitting unit when the predetermined event is detected by the detection unit after the light emission of the light emitting unit is started,
The toy gun object to be ejected is characterized in that the housing has a spherical shape, an elliptical spherical shape, a cylindrical shape, a bullet shape, or a cubic shape. Wherein, when a predetermined time period from after the light emission of the light emitting portion is started has elapsed, toy according to claim 1, characterized in that emission of the light emitting unit controls the light emitting unit to stop Gun target. A plurality of the light emitting units,
Wherein, the toy gun to be projectile according to claim 1 or 2 emission of the plurality of the light emitting unit controls a plurality of the light emitting portion to start at the same time or different times. A plurality of the light emitting units,
The said control part is a toy gun to-be-emitted body as described in any one of Claim 1 to 3 which controls the said several light emission part so that light emission of the said several light emission part may stop simultaneously or at a different timing. A voice output unit provided in the housing for outputting voice;
The control unit controls the sound output unit so that the sound output of the sound output unit starts when the predetermined event is detected by the detection unit after the light emission of the light emitting unit is started. The to-be-gun to-be-emitted object as described in any one of Claim 1 to 4 characterized by the above-mentioned. A flash unit that is provided in the housing and outputs a flash;
The control unit controls the flash unit so that when the predetermined event is detected by the detection unit after the light emission of the light emitting unit is started, output of flash of the flash unit is started. A toy gun object to be ejected according to any one of claims 1 to 5 . The toy gun ejection object according to any one of claims 1 to 6 , wherein the predetermined event includes at least one of vibration, impact, and contact with the housing. A light-transmissive casing;
A light emitting unit provided in the housing and emitting light;
A detection unit provided in the housing for detecting a predetermined event;
A control unit provided in the housing for controlling light emission of the light emitting unit;
With
The control unit controls the light emitting unit to start light emission of the light emitting unit when the predetermined event is detected by the detection unit,
The control unit controls the light emitting unit to stop light emission of the light emitting unit when the predetermined event is detected a plurality of times by the detection unit after the light emission of the light emitting unit is started,
The shape of the casing is a spherical shape, an elliptical spherical shape, a cylindrical shape, a bullet shape, or a cubic shape.
A toy gun object. A light-transmissive casing;
A light emitting unit provided in the housing and emitting light;
A detection unit provided in the housing for detecting a predetermined event;
A control unit provided in the housing for controlling light emission of the light emitting unit;
With
The control unit controls the light emitting unit to start light emission of the light emitting unit when the predetermined event is detected by the detection unit,
The control unit controls the light emitting unit so that the light emission of the light emitting unit blinks when the predetermined event is detected by the detection unit after the light emission of the light emitting unit is started.
The shape of the casing is a spherical shape, an elliptical spherical shape, a cylindrical shape, a bullet shape, or a cubic shape.
A toy gun object.

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