JPH0652508U - Light wearing shoes - Google Patents

Abstract

(57) [Abstract] [Purpose] In a light-mounted shoe that self-luminesces to increase the visibility of the pedestrian, it is possible to improve the lighting accuracy of the light and control the lighting time and the timing of lighting. An object of the present invention is to provide a light-mounted shoe that can control lighting of a light depending on whether light emission is necessary or not, does not unnecessarily drain a battery, and can prevent a trouble that prevents normal lighting. [Structure] The light-wearing shoe 1 of the present invention has a transparent circuit unit 2 in which a load sensor 7, a battery 6, a light emitting diode 8, a pulse lighting control device 9, an optical sensor 10 and a switching circuit 11 are incorporated in a casing 5. Alternatively, it is housed in a recessed portion 4 provided in a heel portion 3a having a transparent portion 3b formed of a semitransparent resin.

Description

[Detailed description of the device]

[0001]

[Industrial applications]

 The present invention relates to a shoe equipped with a light.

[0002]

[Prior art]

 Conventionally, when a pedestrian goes out at night, in order to prevent the accident by notifying the presence of the pedestrian to the running vehicle, etc., a reflection layered with a bead surface layer that reflects the light emitted from the vehicle etc. There are shoes with a sheet attached to the heel and the like. However, the seat does not emit light by itself and only reflects the light emitted from the vehicle.For example, a shoe with a reflective sheet attached may cause the vehicle to be unlit, or pedestrians to see it from the vehicle. The presence of pedestrians is difficult to confirm, such as when the person is located in a blind spot where the illuminated light does not reach.

In order to solve this point, one of the applicants proposed a shoe in which a light is arranged on the sole of the shoe and self-luminous by a load detection sensor based on a ground load during walking and running (actual application: 3-6078). In addition, as an improvement of the above invention, a light-wearing shoe having a wide light source recognition area is also proposed (Japanese Patent Application No. 3-106674).

[0004]

[Problems to be solved by the device]

 However, in all shoes equipped with lights, the lights are turned on according to the uniformly set ground load, and for example, the ground load on the shoes when touching the ground when wearing is different due to individual differences in weight. Therefore, there was a problem that the light was turned on or off depending on the set ground load, and the lighting accuracy was not good. In addition, the light remains on while the ground load exceeds the set value during walking and running.In addition, a person with a serious physical condition turns on the light regardless of whether he is standing still or walking or running. However, there is a problem that the battery life is short because it is difficult to control the lighting time.

In order to solve such a problem, the applicants of the present invention have proposed a light-wearing shoe incorporating a pulse lighting control device together with a light, a load sensor and the like (Japanese Patent Application No. 4-63572). The light-attached shoe instantaneously self-lumines for the time interval set by the ground load, and when the light emission ends, even if the load sensor is sensing the load, the ground load is released and the load is restored. If the load sensor does not detect the load, the light will not turn on and the battery life can be extended.

[0006] However, although the above-described shoe with light is improved in lighting accuracy of the light and the battery life can be extended by controlling the lighting time and the timing of lighting, it is not necessary to light the daytime. Even if you don't want to turn on the light, there was a problem that the light was constantly turned on due to the installation load when wearing it, and the battery was consumed more accordingly. Further, when it is not necessary to turn on the light, the load sensor may be set so as not to detect the load (for example, when the load sensor is provided on the upper surface or the lower surface of the circuit unit, the load sensor is provided). Set the circuit unit back on the sole so that the side faces down.) It is very annoying that the load sensor does not sense the load each time, and it is difficult to prevent it from lighting completely. There was a problem.

In addition, since the load sensor senses the ground load during walking and running, the light turns on, so that the grounding action can be performed even when wearing, for example, when riding a bicycle or a motorcycle. In the absence of light, the lights did not turn on, and even when it was necessary to turn on the night lights, there was a problem that the presence of the wearer could not be known due to self-luminous lighting. Further, the load sensor is composed of, for example, a switch plate whose one end is connected to the casing body of the circuit unit and whose rear surface has a terminal capable of coming into contact with a battery pole, and the switch plate is provided in a U-shape on the upper surface or the lower surface of the casing. If it is formed by slits, there is a risk that sand, mud, etc., that have entered the shoes when worn, may enter the inside of the circuit unit through the slits, causing contact failure and causing the light to not light properly. It was

The present invention has been made in order to solve the above-mentioned conventional drawbacks, and is a shoe with light attached to which a pedestrian self-lumines when a pedestrian goes out at night to enhance the visibility of the pedestrian. Therefore, it is possible to improve the lighting accuracy of the light and control the lighting time and the timing of lighting, and the lighting of the light can be controlled according to whether light emission is necessary or not, and the battery is unnecessary. It is an object of the present invention to provide light-equipped shoes that do not wear out and can prevent troubles that prevent normal lighting.

[0009]

[Means for Solving the Problems]

 The light wearing shoe of the present invention is characterized by incorporating a light emitting diode, a pulse lighting control device, a load sensor, an optical sensor and a battery. The light emitting diode, the pulse lighting control device, the load sensor, the light sensor and the battery which are incorporated in the light-fitting shoe of the present invention can be built in one circuit unit. Further, the pulse lighting control device, the load sensor, the optical sensor, and the battery can be built in the circuit unit, and the circuit unit and the light emitting diode can be electrically connected.

In addition, the light-wearing shoe of the present invention may incorporate a switching circuit in addition to the light emitting diode, the pulse lighting control device, the load sensor, the light sensor, and the battery. The light emitting diode, the pulse lighting control device, the load sensor, the optical sensor, the switching circuit and the battery can be built in one circuit unit. Further, the pulse lighting control device, the load sensor, the light sensor, the switching circuit, and the battery may be built in the circuit unit, and the circuit unit and the light emitting diode may be electrically connected.

Further, a load sensor having a switch plate, one end of which is connected to the casing body of the circuit unit and the other of which has a terminal capable of contacting the electrode of the battery, is provided on the back side, and the switch plate is provided on the upper or lower surface of the casing. It is also possible to form the slit with a V-shape and cover the slit with adhesive tape.

The above pulse lighting control device is preferably of a one-shot multivibrator type, and a transparent portion formed of transparent or translucent resin is provided on at least a part of the heel of the shoe sole. Is preferred. Further, it is preferable that the pulse lighting control device and the blinking switching circuit are integrated on the same substrate.

[0013]

【Example】

 An embodiment of the present invention will be described below with reference to the drawings. FIG. 1 is a cross-sectional view of a main part in the vicinity of the heel portion of an embodiment of the light-wearing shoe of the present invention, in which 1 is the light-wearing shoe of the present invention.

In the shoe 1 equipped with a light according to the present invention, a recessed portion 4 for accommodating a circuit unit 2 described below is formed in the inside of the shoe in a heel portion 3a of a sole 3 made of a flexible synthetic resin. Has been established. In addition, a transparent portion 3b formed of a transparent or translucent resin is provided on the heel portion 3a from the wall surface near the heel of the depressed portion 4 to the outer surface of the rear end of the heel portion 3a. It is provided so as to be exposed on at least a part of the wall surface of the and the outer surface of the rear end of the heel portion 3a. Further, a concave cutout portion 4a is formed on the wall surface of the transparent portion 3b forming the depressed portion 4 near the heel. The recessed portion 4 is preferably shielded by the insole 13.

As shown in FIGS. 2 and 3, the circuit unit 2 includes a casing 5 made of thin synthetic resin, a load sensor 7, a battery 6, a light emitting diode 8, a pulse lighting control device 9, an optical sensor 10 and a switching device. The light-emitting circuit 16 including the circuit 11 is built in, the circuit unit 2 is housed in the depression 4, and the light-emitting diode 8 projecting from the circuit unit 2 is depressed as shown in FIG. It is inserted into a concave cutout portion 4a formed in a transparent portion 3b on the wall surface of the portion 4. At this time, the light emitting diode 8 may or may not be brought into contact with the transparent portion 3b.

Next, the light emitting circuit 16 will be described in detail. FIG. 5 is a conceptual diagram of the light emitting circuit 16. The light-equipped shoe 1 of the present invention includes a load sensor 7, a battery 6, a light-emitting diode 8, and a light-emitting diode 8 for detecting the light-emitting circuit 16 and controlling the energization to the light-emitting circuit 16 by detecting the ground load when wearing the shoe. A major feature is that the circuit configuration includes a pulse lighting control device 9 for controlling the lighting of the light source, and an optical sensor 10 for sensing the light and darkness of the surroundings when wearing shoes and controlling the energization to the light emitting circuit 16. Is. Further, in the present invention, a switching circuit 11 for performing a switch operation for switching the lighting method of the light emitting diode 8 can be added to these circuit configurations. In the present invention, it is preferable that the light emitting circuit 16 built in the circuit unit 2 as described above is housed in the shoe sole recess 4 and the light emitting circuit 16 is incorporated in the shoe from the viewpoint of durability and the like. For example, the light emitting circuit 16 can be directly embedded in the shoe sole 3a.

As the pulse lighting control device 9 for controlling the lighting of the light emitting diode 8, a one-shot multivibrator type device can be used. By using the one-shot multivibrator type pulse lighting control device 9, the light-equipped shoe 1 of the present invention instantaneously lights the light-emitting diode 8 for a set time interval without being influenced by the energization time. Can be made. Moreover, the load sensor 7 is actuated by the ground load, the light emitting circuit 16 is energized, the light emitting diode 8 is momentarily turned on, and when the lighting of the light emitting diode 8 is finished, the load sensor 7 is activated. Even if it remains as it is, the light emitting diode 8 does not light up because the control device 9 cuts off the power supply to the light emitting circuit 16. In order for the light emitting diode 8 to be turned on again, the ground load must be released and the load sensor 7 must once be deactivated and then activated again. Therefore, in the light-mounted shoe 1 of the present invention, the light-emitting diode 8 lights up for the set time interval each time the load sensor 7 is applied with the ground load, so that the lighting time of the light-emitting diode 8 can be controlled. Can extend the limited battery life.

As the optical sensor 10 that senses the surrounding light and shade when wearing shoes, any known sensor that controls the current / voltage in the light emitting circuit 16 by the sensed light may be used. CdS, phototransistors, amorphous solar cells, etc. can be exemplified. The illuminance range in which the light sensor 10 senses the light and dark is 300 LX or less, more preferably 100 LX or less, and the light emitting circuit 16 is energized in such an illuminance range. Power to 16 is cut off. By incorporating the optical sensor 10 as described above, it is not particularly necessary to keep the load sensor 7 from operating even when the surroundings are bright and light emission is not necessary in the daytime, etc. Even if the sensor operates, the light emitting diode 8 does not light up because the light sensor 10 automatically shuts off the power supply to the light emitting circuit 16. Therefore, the battery can be prevented from being consumed unnecessarily, and the life of the battery can be further maximized.

According to the experiments conducted by the present inventors, when a person walks 10,000 steps a day, a conventional light-wearing shoe incorporating a one-shot multivibrator type pulse lighting control device has a battery life of about 6 months. Compared with the above, the light-equipped shoes of the present invention, which incorporate the optical sensor 10 in addition to the above pulse lighting control device, have a battery life of about 10 to 12 months, depending on the time of day to go out and the weather at that time. It was confirmed that it extended to a certain extent.

The switching circuit 11 that performs a switch operation for switching the lighting method of the light emitting diode 8 includes, for example, 1) an operation for controlling the lighting of the light emitting diode by the optical sensor 10 and the load sensor 7 by the changeover switch 11a, and 2) an optical sensor. 10 and a circuit for performing a switch operation capable of switching the operation of continuously blinking the light emitting diode without the control of the load sensor 7, or 3) the operation of not turning on the light emitting diode in any case. In the present invention, the switching circuit 11 is preferably integrated on the same substrate as the pulse lighting control device as shown in the figure.

By incorporating the switching circuit 11 as described above, for example, the switching switch 11a is operated to switch the switching circuit to the switching operation of the above 1) during normal wear to turn on the light emitting diode. Is controlled by the optical sensor 10 and the load sensor 7. If there is no load due to grounding, such as when riding a bicycle or motorcycle, switch to the switch operation of 2) above and let the light-emitting diode automatically blink continuously. Further, when it is not desired to turn on the light emitting diode, the lighting method of the light emitting diode can be switched according to the purpose of wearing by switching to the switch operation of the above 3).

As the load sensor 7 which senses a ground load when wearing shoes (ground load applied to the heel portion 3a at the time of heel strike) and energizes the light emitting circuit 16, for example, an electrode contact is contacted by the ground load. The mechanical method, a method using pressure-sensitive conductive rubber and the like can be mentioned. The load sensor 7 in the examples shown in FIGS. 2, 3 and 4 is formed by providing a slit 7a having a U-shape at the center of either the upper surface or the lower surface of the casing 5, and one end of the casing 5 main body. The switch plate 7b is provided with a terminal 7c that is connected to the back side and can contact one electrode of the battery 6. In the load sensor 7, the switch plate 7b is pushed downward (inward of the casing 5) by a ground load when walking or running, and the terminal 7c provided on the back surface of the switch plate 7b and one of the electrodes of the battery 6 are provided. That is, the electrode contacts come into contact with each other, and the light emitting circuit 16 is energized.

When the load sensor 7 of the embodiment as shown in the figure is provided in the casing 5, the gap portion of the slit 7a is covered with the adhesive tape 12, and the gap portion of the slit 7a causes troubles such as poor contact. It is preferable to prevent the intrusion of sand and mud. Examples of the tape base material of the adhesive tape 12 that covers the gaps of the slits 7 include polyvinyl chloride, cellophane, polyethylene, polypropylene tape, etc., but the OPP (biaxial axis) is strong and has excellent flexibility. Stretched polypropylene) tape is preferred. Also, as the adhesive, when the switch plate 7b is pushed downward by the ground load, the switch plate 7b is peeled off from the adhesive tape 12, while the ground load is released and the switch plate 7b returns to its original position. When the pressure is returned to, the adhesive is adjusted so that it is attached to the switch plate 7b again. In order to prevent the adhesive tape 12 from being easily peeled off from the end portion, as shown in FIG. 4, the end portion is clamped by a casing 5 configured to be separable into an upper portion and a lower portion as needed. It is preferable to attach it while it is being let down.

The position where the load sensor 7 is installed is located on the heel center (the center of the heel in the lateral width direction) from the rearmost end of the heel in the shoe to the nominal size of the shoe (generally called It is preferable that the size is within 1/4 of the shoe size), and it was confirmed that the ground contact load during walking and running at this position was the largest. Therefore, it is possible to clearly detect the ground load when walking and running.

The load sensor 7 in the conventional light-wearing shoe has a terminal 7c provided on the back surface of the switch plate 7b and a pole of the battery 6 when a pedestrian is wearing the light-fitting shoe 1 of the present invention and is standing and standing still. The terminals 7c are not in contact with each other (the light emitting diode 8 and the control device 9 are not energized), while the terminal 7c is in contact with the pole of the battery 6 due to the ground load during walking or running (the light emitting diode 8 and the control device 9). The electric strength of the resin forming the casing 5 is adjusted so that the electric current is supplied to the casing. Also in the present invention, it is preferable to use the load sensor 7 in which the elastic strength of the resin forming the casing 5 as described above is adjusted, but in the light-equipped shoe 1 of the present invention, the pulse lighting control device 9 is provided. , Even if the light emitting diode 8 lights up when the electrode contacts come into contact with the standing still, the light emitting diode 8 will not light again until the ground load is released, so the elastic strength of the resin must be strictly controlled. There is no need to adjust to.

As the battery 6, various types of batteries such as a manganese battery, a nickel-cadmium battery, an alkaline battery, and a lithium battery can be used, but a battery having a small size and a large capacity is preferable, and a button type battery is preferable. Lithium batteries are preferred. In addition, the casing 5 is configured so that the battery 6 can be easily replaced by, for example, detachably forming the upper and lower portions of the casing 5 or only attaching and detaching the battery 6. Is also good.

The light emitting diode 8 can be made of gallium / phosphorus, gallium / arsenic / phosphorus, gallium / aluminum / arsenic, or the like. Examples of the luminescent color include green, yellow-green, yellow, lemon yellow, sunset orange, red, blue, and the like, with high-luminance luminescence being preferred, and red system being preferred. The light emitting diode 8 may be detachably attached to the casing 5 via the plug 8a.

Examples of the transparent or semi-transparent resin forming the transparent portion 3b provided on the heel portion 3a include soft and semi-rigid polyvinyl chloride, acrylic resin, polyurethane resin, polyester resin, polycarbonate resin and the like. However, any resin may be used as long as it is transparent or translucent.

The transparent portion 3b may have a convex shape so as to have a lens effect, or may be cut so that light from the light source is scattered and reflected. By giving such a shape to the transparent portion 3b, light from the light emitting diode 8 as a light source is transmitted and refracted in the transparent portion 3b, and the light brightness in the light source recognition area can be increased. Further, since the transparent portion 3b is provided, the transparent portion 3b is recognized as a bright light emitting region, and thus the light source recognition region is widely recognized. In the light source recognition area, a light edge angle of 285 ° to 315 ° is obtained with the light emitting diode 8 as the center, and with respect to the light source recognition area 150 ° to 165 ° when the light emitting diode 8 alone is used as the point light source. A wide light edge angle can be obtained. As described above, in the case where the transparent portion 3b is formed in a convex shape to give a shape like a lens, if the light emitting diode 8 is installed at the focal position with respect to the outer peripheral curved surface of the heel portion 3, the lens effect can be most effectively expressed. .

The light-equipped shoe 1 of the present invention is provided separately from a circuit unit 2 having a battery 6, a pulse lighting control device 9, an optical sensor 10 and a switching circuit 11 in a casing 5 provided with a load sensor 7. It is also possible to electrically connect the light emitting diode 8 and the light emitting diode 8 to the light emitting diode 8 to be attached to the light wearing shoe 1. In this case, in the example shown in FIG. 6 as another embodiment, a communication hole 11 communicating with the outer surface of the rear end of the heel portion 3a to the depression 4 is provided in the transparent portion 3b, and the communication hole is provided. A light emitting diode 8 is embedded on the rear end side of the heel portion 3a of 11 so as to be exposed to the outside and contact the transparent portion 3b. The light emitting diode 8 and the circuit unit 2 housed in the depression 4 are connected by a lead wire 12 passed through a communication hole 11.

According to another embodiment of the lamp-equipped shoe 1 according to the present invention, the portion exposed to the outside of the light emitting diode 8 has a direct strong light source recognition, and at the same time, the portion contacting the transparent portion 3b. Then, the transparent portion 3b is transmitted and refracted, and the transparent portion 3b is recognized as a bright light emitting region similarly to the above-described embodiment, and a light peripheral angle of 285 ° to 315 ° is obtained with the light source of the light emitting diode 8 as the center.

According to the experiments conducted by the present inventors, the transparent portion 3b of the shoe sole was colored with a red pigment and the light source of the light emitting diode was white light light. The transparent shoe sole was recognizable in red in the light peripheral angle range of 275 ° to 305 ° centering on the light emitting diode light source. When the transparent portion 3b was colored with a phosphorescent pigment and the light source of the light emitting diode was white light light, afterglow due to the light accumulation could be recognized even when the light emitting diode was turned off. The light-equipped shoe 1 of the present invention is not limited to providing the transparent portion 3b on the heel portion 3a as in the above embodiments, and the heel portion 3a may be entirely opaque. However, in this case, similarly to the example shown in FIG. 6, the light emitting diode 8 needs to be installed so that a part of the light emitting diode 8 is exposed to the outside. It is necessary to provide a communication hole or the like in the heel portion 3a so that the sensor 10 can sense the brightness of the surroundings.

To wear the light-equipped shoe 1 of the present invention, in order to turn on the light when wearing the shoe, the changeover switch 11a is operated to switch the switching circuit 11 to the switch operation of 1) described above, and the circuit unit 2 The circuit unit 2 is housed in the recess 4 with the surface provided with the load sensor 7 facing upward, and the insole 13 is laid on the inner sole of the shoe and then the shoe is put on. At this time, when the surroundings are bright and it is not necessary to emit light, the light sensor 10 automatically shuts off the power supply to the light emitting circuit 16, and the light emitting diode 8 is not constantly lit. When the surroundings are dark and it is necessary to emit light, the interruption of energization by the optical sensor 10 is automatically released, and the load sensor 7 is activated by the ground load applied to the heel portion 3a during walking or running and the light emitting circuit is activated. When electricity is supplied to 16, the light emitting diode 8 is momentarily turned on at a time interval set in the control device 9 every time it is grounded. If the ground load is released and the ground load is not applied again even if electricity is supplied, the light emitting diode 8 does not light even if a ground load more than the set level is applied. On the other hand, at the time of standing and standing still, even if the interruption of energization by the optical sensor 10 is released, the load sensor 7 does not operate and the light emitting circuit 16 is not energized, so that the light emitting diode 8 does not light.

When it is necessary to turn on the light when riding a bicycle, a motorcycle, etc., the switching circuit is switched to the switching operation of 2) described above. At this time, the light emitting diode will continue to blink automatically even if there is no load due to grounding. Further, when there is no need to turn on the light regardless of whether it is bright or dark in the surroundings, the switching circuit is switched to the switch operation of the above 3). At this time, the light emitting diode 8 does not light up in any case.

[0035]

[Effect of device]

 As described above, the light-equipped shoe of the present invention is self-luminous, which improves visibility for a third party at night and increases pedestrian safety. By incorporating an optical sensor, the energization of the light emitting circuit is controlled by the optical sensor, and the light emitting diode does not light up when the surroundings are bright and there is no need to emit light in the daytime. In this case, the pulse lighting control device can momentarily turn on the light emitting diode for the set time interval without being affected by the energization time to the circuit, and when the lighting of the light emitting diode ends, the load sensor Even if is still active, the control device cuts off the current to the circuit, releases the ground load of the light emitting diode, and the load sensor is temporarily inactive. After becoming the state, it does not light unless become again the operating state. Therefore, it is possible to control the lighting time and the lighting timing depending on whether the lighting is necessary or not, and it is possible to prevent the battery from being consumed unnecessarily. It can be stretched to the maximum in comparison with wearing shoes.

Furthermore, by incorporating a switching circuit, it is possible to switch the lighting method of the light emitting diode according to the purpose of wear. Further, a load sensor consisting of a switch plate having one end connected to the casing body and having a terminal capable of contacting the battery pole on the back side is provided in the circuit unit, and the U-shaped slit provided on the top or bottom surface of the casing with the switch plate. In the case of the light-emitting diode, by covering the slit gap with an adhesive tape, it is possible to prevent sand or mud from entering the slit gap, which may cause troubles such as poor contact. Can be kept lit. In addition, by facing the light emitting diode to a transparent or semitransparent resin, the viewing angle is significantly widened.

[Brief description of drawings]

FIG. 1 is a cross-sectional view of essential parts near the heel of a shoe equipped with a light according to an embodiment of the present invention.

FIG. 2 is a perspective view of a circuit unit housed in the light-wearing shoe of the present invention.

3 is a vertical cross-sectional view taken along the line III-III in FIG.

FIG. 4 is a vertical cross-sectional view taken along the line IV-IV of FIG.

FIG. 5 is a conceptual diagram of a light emitting circuit.

FIG. 6 is a cross-sectional view of an essential part of a heel portion of a shoe equipped with a light according to another embodiment of the present invention.

[Explanation of symbols]

 1 Light wearing shoes. 2 circuit unit 3 shoe sole 3a heel part 3b transparent part 5 casing 6 battery 7 load sensor 7a slit 7b switch plate 7c terminal 8 light emitting diode 9 pulse lighting control device 10 optical sensor 11 switching circuit 12 adhesive tape 14 lead wire

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[Procedure amendment]

[Submission date] February 12, 1993

[Procedure Amendment 1]

[Document name to be corrected] Drawing

[Name of item to be corrected] Figure 2

[Correction method] Change

[Correction content]

[Fig. 2]

[Procedure Amendment 2]

[Document name to be corrected] Drawing

[Name of item to be corrected] Figure 3

[Correction method] Change

[Correction content]

[Figure 3]

Claims (10)

[Scope of utility model registration request] 1. A light emitting diode, a pulse lighting control device for controlling lighting of the light emitting diode, a load sensor for sensing a ground load to control energization, an optical sensor for sensing energization by sensing ambient light and dark, and a battery. Light-equipped shoes characterized by being incorporated. 2. The light-mounted shoe according to claim 1, wherein the light emitting diode, the pulse lighting control device, the load sensor, the light sensor, and the battery are built in the circuit unit. 3. The light-wearing shoe according to claim 1, wherein the pulse lighting control device, the load sensor, the light sensor and the battery are built in a circuit unit, and the circuit unit and the light emitting diode are electrically connected. 4. A light emitting diode, a pulse lighting control device for controlling lighting of the light emitting diode, a load sensor for sensing energization by controlling a ground load, an optical sensor for sensing energization by sensing ambient light and dark, and a light emitting diode. A shoe equipped with a light, which incorporates a switching circuit for performing a switching operation for switching the lighting method of and a battery. 5. The light-wearing shoe according to claim 4, wherein the light emitting diode, the pulse lighting control device, the load sensor, the light sensor, the switching circuit and the battery are built in the circuit unit. 6. The light-wearing shoe according to claim 4, wherein the pulse lighting control device, the load sensor, the light sensor, the switching circuit and the battery are built in the circuit unit, and the circuit unit and the light emitting diode are electrically connected. 7. A load sensor comprising a switch plate, one end of which is connected to the casing body of the circuit unit, and the other side of which has a terminal capable of contacting a battery electrode. The switch plate is provided on a casing upper surface or lower surface. The light-wearing shoe according to claim 2, 3, 5 or 6, wherein the shoe is formed by a V-shaped slit, and the slit is covered with an adhesive tape. 8. The pulse lighting control device is of a one-shot multivibrator system, 1, 2.
Light-wearing shoes according to 4, 5, 6 or 7. 9. The shoe according to claim 1, wherein at least a part of the heel portion of the shoe sole is provided with a transparent portion made of a transparent or translucent resin.
Light-attached shoes according to 3, 4, 5, 6, 7 or 8. 10. A pulse lighting control device and a blinking switching circuit are integrated on the same substrate.
Light-wearing shoes according to 6, 7, 8 or 9.