JP3096006U - Shoe lamp structure - Google Patents

Abstract

(57) [Summary] [PROBLEMS] To provide a shoe lamp structure capable of generating a brilliant effect of diversified colors in a shoe lamp structure when walking with shoes when affected by external force. SOLUTION: A power source comprising a battery of a first potential and a battery of a second potential connected in series, and a light emitting means electrically connected to the power source and comprising a plurality of light emitting chips of different colors. A vibration switch electrically connected to the power supply; and a power switch electrically connected to the power supply, the light-emitting means, and the vibration switch, and the light-emitting means emits light when the vibration switch detects vibration. And a control IC for performing control.

Description

[Detailed description of the device]

[0001]

[Technical field to which the device belongs]

  The present invention relates to a shoe lamp structure, in particular, it is disposed inside the shoe body and has a mixed color light emitting diode. Shoe lamp structure that displays multiple kinds of vivid color changes depending on iodine It is a thing.

[0002]

[Prior art]

  Conventional shoes are worn on the foot to provide protection, but to date, humans In addition to the basic functions of wearing shoes, it also has a combination of entertainment and decorative properties. It demands comfort and safety, which is why some shoes are particularly sporty. In the case of shoe boots, the luminous body is placed on the sides and the foot and other obvious places. When a user wears these luminous shoes on their feet, they can walk or run. Light up the shoes to achieve the purpose of safety warning and also have a decorative effect. So, the application of those kinds of shoes is already welcomed by consumers.

[0003]   As shown in Fig. 1, the shoe lamp structure in the figure is mounted inside the shoe body. (Not shown), the shoe lamp device mainly includes the vibration switch 1a and the control unit 2a. Connected to the input terminal of a plurality of single color light emitting diodes 3a (these are Attached to the visible part) to the output of the control unit 2a and The battery 4a is used as the power source for the shoe lamp structure. The electric circuit inside the control unit 2a The trigger signal from the dynamic switch 1a is received, and the light emitting diode 3a is reciprocated in four types. Execute the flash method and perform 1 second to 5 seconds between the two flashes. When to stop. When a person walks wearing shoes having a shoe lamp structure, The vibration activates the vibration switch to generate the trigger signal, which causes the control unit 2a to It drives the light emitting diode 3a based on the trigger signal received by the internal electric circuit. And let it shine like a two-way flash.

[0004]   However, the shoe lamp structure described above adopts a single battery and the whole shoe lamp structure is adopted. The power supply of the body is used, and the life of the battery is obviously long. It cannot be used for business. And the voltage used by the light emitting diodes 3a of different colors Are different levels, for example, the work voltage required for a blue light emitting diode is Higher than red or green light emitting diode and more than one monochromatic LED It is too simple to change the flash light emission by 3d It is not possible to exhibit vivid color changes of several color systems.

[0005]   Besides, in recent years, the research and development of mixed color light emitting diodes has become more and more mature, Therefore, a light source of all colors can be realized, and a light source with rich colors can be provided. The application of the present invention has become widespread, and therefore the inventor of the present invention has Considering that there are many problems in surgery, we will promote research and development as well as academic operation. Introducing mixed color light emitting diode, the design is rational and the above problems are solved effectively. The present invention that can be erased has been submitted.

[0006]

[Problems to be solved by the device]

  In the present invention, a vibration switch is attached to a color mixing light emitting diode, and the influence of external force (for example, vibration) When wearing shoes, the shoe lamp structure has diversified colors and vivid colors. Its main purpose is to provide a shoe lamp structure capable of producing a kana effect.

[0007]   Also, the present invention uses two batteries as a voltage supply means for a shoe lamp device, Can effectively extend the life of the battery, and can emit two or more different voltage levels. It is another object to provide a shoe lamp structure that can be supplied to a cord.

[0008]

[Means for Solving the Problems]

  To this end, the present invention provides a battery with a first potential and a battery with a second potential. And a light source that is electrically connected to the power source. A vibration switch electrically connected to the power source, the power source and the light emitting means, When electrically connected to the vibration switch, the vibration switch detects the vibration. In the case of a shoelace, at least a control IC for controlling the light emitting means to emit light. Provide a pump structure.

[0009]   In order to achieve the above purpose, the present invention also provides a power source and an electrical connection to the power source. A plurality of light emitting chips each having a different color, and A vibration switch electrically connected to the power source, the power supply, the light emitting means, and the vibration switch. Switch is electrically connected to the switch and the vibration switch detects vibration, A shoe lamp structure having at least a control IC for controlling the light means to emit light. provide.

[0010]   Further, in order to achieve the above purpose, the present invention provides a battery having a first potential and a battery having a second potential. A power source that is connected in series with a battery and a power source that is electrically connected to the power source A light emitting means consisting of several light emitting chips of different colors and an electric power source for the power source. Electrically connected to the vibration switch, the power source, the light emitting means, and the vibration switch When the vibration switch detects vibration, the light emitting means is electrically connected to PROBLEM TO BE SOLVED: To provide a shoe lamp structure having at least a control IC for controlling to emit light. .

[0011]   The technical means and effects that can achieve the object of the present invention are described below. Preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. The specific structure according to the detailed description of the present invention is merely a possible embodiment of the present invention. It does not limit the structure of the device in a narrow sense.

[0012]

[Embodiment of device]

  FIG. 2 is a perspective view showing the present invention. The present invention provides a shoe lamp structure, The shoe lamp structure includes a casing 1, a power source 2, a substrate 3, and a mixed color light emitting diode 4. And a vibration switch 5 and a control IC 6, of which one is provided in the casing 1. The power source 2 is formed by connecting a battery having a first potential and a battery having a second potential in series 4 ． It is a means of voltage of 5V or 6V, and when the power supply 2 is 4.5V, A 3V battery and a 1.5V battery with a second potential are connected in series. Among them, the 3V means is a lithium battery (type of lithium battery Number is any one of CR-2032, CR-2450, CR-2060) , And adopts Ag13 battery or No. 6 battery as a means of 1.5V, and ． Connect two CR-2032 batteries in parallel as a 5V voltage combination and then two Connected in series with Ag13 connected in parallel, or two CR-2032 in parallel After connecting, connect in series with one No. 6 battery, or one CR-2060 and 2 Connect in series with two Ag13s connected in parallel, or one CR-2060 and one It is possible to adopt a plurality of types of matching methods, such as connecting a No. 6 battery in series. Also , If the power supply is 6V, form two 3V lithium batteries connected in series May be.

[0013]   Therefore, connecting two potentials in series provides two different voltage levels. If the power supply 2 is 4.5V, two different voltage levels of 3V and 4.5V are available. Bell, and if the power supply 2 is 6V, there are two types of voltage level, 3V and 6V. Also, the power supplies shown in the figure all connect two batteries in series. The following is an explanation of the case. The wire 11 is pulled out from the substrate 3 and Exposed from the housing 1, and the other end of the wire 11 is connected to the light emitting means 4 to emit light. The means 4 is electrically connected to the power source 2, and the light emitting means 4 emits a 3- or 4-pin mixed color light. It adopts a photodiode, which has three light emitting chips of red, green and blue (R, G, B). Is provided so that light beams of different colors in a plurality of color systems can be emitted by mixing colors.

[0014]   The vibration switch 5 and the control IC 6 are arranged on the substrate 3, and the vibration switch 5 and the control IC 6 are Is electrically connected to the power source 2, and the control IC 6 supplies the light emitting means 4 and the vibration switch 5 with electricity. When the casing 1 is electrically connected and is affected by external force every time (for example, vibration Control IC6 is triggered through the vibration switch 5, and the control IC6 After receiving the trigger signal generated by the vibration switch 5, the drive signal is generated and the light emitting hand is generated. Various changes occur within the flash time that is driving the stage 4.

[0015]   When the work cycle of the light emitting means 4 is changed by the control IC 6, the color of any light source can be changed. It can be changed and the emitted light of the light emitting means 4 is harmonized with different colors, It can produce various rich color effects and emits three different colors of red, blue and green. The light rays emitted from the chip can mix and form light rays of various colors, and different light emission orders By virtue of this, it is possible to form a multicolored bright color combination in accordance with the light emission change of the light emitting means 4. it can.

[0016]   As shown in FIG. 3, the control IC 6, the power source 2, the light emitting means 4, the vibration switch 5, and the vibration resistance. The anti-R is electrically connected and drives the light emitting means 4 so as to emit light normally. Therefore, it is necessary to adopt a voltage of at least 4.5V or 6V. But Naga In order to increase the change in the shoe lamp structure, the control IC 6 other than the main light of the light emitting means 4 is used. Furthermore, an auxiliary lamp consisting of a plurality of light emitting diodes 7 (Monochrome LED) is electrically connected. You may connect.

[0017]   As shown in FIG. 4, the shoe lamp structure shown in FIG. To expose the visible part of the outside of the shoe 8 so that when the user wears the shoe 8 and walks, About the step of, the vibration is transmitted to the vibration switch 5 and the trigger signal is sent to the control IC 6 After the control IC 6 receives the trigger signal, the internal electric circuit emits light. The stage 4 is drive controlled to produce a vivid color change. For example, the light emitting means 4 Flash to blue, red, white, orange, green or other freshness of blue, red, white, purple, green It is possible to obtain the effect of sequentially emitting soft colors, and the light emitting means 4 can emit one color at a time. The color of the light may be emitted, and the color of the emitted light may be different each time, or When the vibrating switch 5 is vibrated by the light means 4, it is possible to generate various color changes. Alternatively, when the vibration switch 5 does not receive vibration, the light emitting means 4 emits monochromatic light. You may let me. When the user wears shoes 8 and walks, shoes 8 have a multi-colored lamp change effect. Fruits can be generated, the taste of the shoe 8 is improved, and bright eyes shine. The effect can be generated.

[0018]   Besides, the present invention may be arranged at any position, for example, on the side or front of a shoe. Other sports equipment, such as skate shoes, It can also be placed on a slide plate.

[Brief description of drawings]

FIG. 1 is a perspective view showing a conventional shoe lamp structure.

FIG. 2 is a perspective view showing the present invention.

FIG. 3 is an explanatory view showing a connection state of electric circuit leads of the control IC of the present invention.

FIG. 4 is an explanatory view showing a case where the present invention is attached to shoes.

[Explanation of symbols]

1 casing 2 power supplies 3 substrates 4 light emitting means 5 Vibration switch 6 control IC 7 Light emitting diode 8 shoes

Claims (21)

[Scope of utility model registration request] 1. A power source in which a battery of a first potential and a battery of a second potential are connected in series, a light emitting means electrically connected to the power source, and an electric connection to the power source. When a vibration switch is electrically connected to the power source, the light emitting means and the vibration switch, and the vibration switch detects vibration,
A shoe lamp structure comprising at least a control IC for controlling the light emitting means to emit light. 2. The shoe lamp structure according to claim 1, wherein 4.5V is adopted as the power source. 3. The shoe lamp structure according to claim 2, wherein a 3V lithium battery is adopted as the first potential and a 1.5V battery is adopted as the second potential. 4. CR-2032, CR-2450, as the first potential
The shoe lamp structure according to claim 3, wherein any one battery is adopted from CR-2060. 5. The shoe lamp structure according to claim 3, wherein an Ag13 battery or a No. 6 battery is adopted as the second potential. 6. The shoe lamp structure according to claim 1, wherein 6V means is used as the power source. 7. The shoe lamp structure according to claim 6, wherein as the 6V means, means for connecting two 3V lithium batteries in series is adopted. 8. The shoe lamp structure according to claim 7, wherein the type number of the lithium battery is any one of CR-2032, CR-2450, and CR-2060. 9. A power supply, a light emitting means electrically connected to the power supply, the light emitting means including a plurality of light emitting chips of different colors, a vibration switch electrically connected to the power supply, the power supply and the When electrically connected to the light emitting means and the vibration switch, the vibration switch detects vibration,
A shoe lamp structure comprising at least a control IC for controlling the light emitting means to emit light. 10. The shoe lamp structure according to claim 9, wherein a mixed color light emitting diode is adopted as the light emitting means. 11. The shoe lamp structure according to claim 10, wherein a 3-pin or 4-pin element is adopted as the color-mixed light emitting diode. 12. A power source in which a battery of a first potential and a battery of a second potential are connected in series, and light emission which is electrically connected to the power source and includes a plurality of light emitting chips of different colors. Means, a vibration switch electrically connected to the power source, electrically connected to the power source, the light emitting means and the vibration switch, when the vibration switch detects vibration,
A shoe lamp structure comprising at least a control IC for controlling the light emitting means to emit light. 13. The shoe lamp structure according to claim 12, wherein 4.5V is adopted as the power source. 14. The shoe lamp structure according to claim 13, wherein a 3V lithium battery is adopted as the first potential, and a 1.5V battery is adopted as the second potential. 15. CR-2032, CR-245 as the first potential
The shoe lamp structure according to claim 14, wherein any one battery of 0 and CR-2060 is adopted. 16. The Ag13 battery or the No. 6 battery is adopted as the second potential.
Shoe lamp structure described in. 17. The shoe lamp structure according to claim 12, wherein 6V means is adopted as the power source. 18. The shoe lamp structure according to claim 17, wherein two 6V lithium batteries are connected in series as the 6V means. 19. The shoe lamp structure of claim 18, wherein the type number of the lithium battery is any one of CR-2032, CR-2450, and CR-2060. 20. The shoe lamp structure according to claim 12, wherein a mixed color light emitting diode is adopted as the light emitting means. 21. The shoe lamp structure according to claim 20, wherein a 3-pin or 4-pin element is adopted as the color-mixed light emitting diode.