KR102107096B1 - Light Emitting Glove - Google Patents

Abstract

The present invention relates to lighting gloves. According to the present invention, when a user wears the lighting gloves and performs movement, such as clapping, waving, and the like, for cheering a sports game in a stadium, an impact lighting unit emits light by an external impulsive force generated during the movement of the lighting gloves, such that a lighting function can be performed without a separate lighting means. Moreover, an impact detection module is installed on the back portion of a glove main body, thereby being used without damage or inconvenience by the movement such as clapping and easily detecting an external impact. The lighting module is separately disposed to be easily exposed to the outside, thereby increasing a visual lighting effect and being conveniently used. Moreover, Moreover, the lighting gloves include a sensitivity adjustment unit, such that operation sensitivity can be adjusted in case of need and prevent a phenomenon that the lighting module emits light by unnecessary small impact to correctly emit light by only the impact force equal to or greater than predetermined strength, thereby being stably used.

Description

Light Emitting Glove

The present invention relates to luminescent gloves. In more detail, when a sports event is supported in the stadium, such as clapping hands or waving hands in both directions while wearing luminous gloves on the hands, the external impact force generated during the process of clapping or waving hands Since the light emitting unit emits light, the light emitting function can be performed without a separate light emitting means, and the shock sensing module is mounted on the back of the glove body, so it can be used without damage or discomfort caused by movement such as clapping of the hand. It is easy to detect the external impact, and the light emitting module is also separately arranged to be easily exposed to the outside, so that it is possible to improve the visual luminous effect and use it more conveniently, and by providing a sensitivity adjusting unit, the operating sensitivity can be adjusted according to the user's needs. There is a phenomenon in which the light emitting module emits light even in an unnecessary small impact. And not to emit light only exactly above a certain impact strength relates to a more stable using the light-emitting glove.

In general, the gloves are worn to protect the hands, and are formed integrally to fit the palms, hands, and wrists by inserting from the fingers.

Gloves are sometimes used to protect workers' hands from the risk of injury during work in the industrial field, or for washing dishes in the kitchen, and maintaining body temperature in low temperature environments such as cold winters. It is widely used in a variety of environments, such as used for.

Recently, as the standard of living has improved, there are more opportunities to enjoy various cultural life, and in particular, opportunities to participate directly are increasing.

In addition, many professional games such as professional baseball, professional soccer, professional basketball and professional volleyball are held in Korea, and the number of people participating in this game is also increasing. They also participate in cheering with others. In addition, performers and audiences respond in concert at various concerts.

When participating in such various events, various light emitting means are used to enhance the atmosphere of the event. Conventionally, candles or lighters have been used. Recently, a light emitting stick using chemiluminescence is used, and a small lamp or chemical combustion is used. Fireworks sticks are sometimes used.

However, these conventional light emitting means have a disadvantage in that it is extremely difficult for several audiences to simultaneously or simultaneously flash, and only a lot of lights are combined in one place to emit light. In addition, candles or lighters have the disadvantage that they cannot be used outdoors in bad weather, such as when there is a lot of wind.

Domestic utility model registration No. 20-0418507

The present invention was invented to solve the problems of the prior art, and the object of the present invention is to perform sports such as clapping hands or waving hands in both directions while wearing luminous gloves while cheering for a sports event in a stadium, It is to provide a light emitting glove capable of performing a light emitting function without a separate light emitting means because the light emitting unit emits light by an external impact force generated in the process of clapping or waving.

Another object of the present invention is that the shock detection module is mounted on the back of the glove body, so that it can be used without damage or discomfort caused by movement such as clapping of the hand. It is to provide a light-emitting glove that can be improved and can be used more conveniently by being arranged separately as possible.

Another object of the present invention is to provide a sensitivity control unit that can adjust the operating sensitivity of the striking light emitting unit, it is possible to adjust the operating sensitivity according to the user's needs, and prevent the phenomenon that the light emitting module emits light even in unnecessary small impact, and is It is to provide a light emitting glove that can be used more stably by allowing light emission only at an impact force higher than the intensity.

The present invention is a light emitting glove that performs a light emitting function when worn on a user's hand, the glove body capable of accommodating a human hand; And it is mounted on one side of the glove body, provides a light emitting glove characterized in that it comprises a shock emitting unit that operates to emit light by an external impact force of a certain intensity or more generated in the process of moving the glove body.

At this time, the impact light emitting unit, an impact detection module coupled to the back of the glove body to detect an external impact force to generate an electrical signal; And a light emitting module coupled to the glove body so as to be spaced apart from the shock sensing module and electrically connected to the shock sensing module to emit light according to the electrical signal of the shock sensing module.

In addition, the shock detection module, the case coupled to the back of the glove body; A PCB substrate disposed inside the case; And it is mounted on the PCB substrate may include a contact module for generating an electrical signal is the contact is electrically connected to the contact by an external impact force.

In addition, the light-emitting module, a light-emitting lamp connected to the PCB substrate by a wire to receive the electric signal of the contact module and emit light; And it is coupled to one side of the glove body may include a diffusion case for receiving the light emitting lamp therein to emit the display light of the light emitting lamp to the outside.

In addition, the contact module, one end is mounted on the PCB substrate and the other end is an elastic mobile terminal is formed to be elastically deformed in the vertical direction in the thickness direction of the armor body by an external impact force; And a fixed terminal mounted on the PCB board so that one side is spaced apart from the elastic moving terminal by a predetermined distance, and the elastic moving terminal is elastically deformed by an external impact force to generate electrical signals by contacting the fixed terminal. After that, it may be formed to return to the original shape to be spaced apart from the fixed terminal.

In addition, a sensitivity adjusting unit may be provided to adjust the operating sensitivity of the contact module in such a way that the size of the external impact force required for the elastic movable terminal to elastically contact the fixed terminal is adjusted.

In addition, the sensitivity adjusting unit may be formed to adjust the vertical distance between the elastic moving terminal and the fixed terminal.

In addition, the sensitivity control unit, the operation knob is mounted to the case so that the user can operate; And a pressure rod disposed inside the case to move by the operation of the operation knob, wherein the pressure rod is formed to gradually push upward the fixed terminal in a direction away from the elastic moving terminal when moving in one direction, When moving in the direction, it may be formed to gradually release the upward pressing state with respect to the fixed terminal.

According to the present invention, when performing sports such as clapping hands or waving hands in both directions while wearing a luminous glove on a hand when cheering for a sporting event in a stadium, the external impact force generated in the process of clapping or waving the hand Accordingly, the impact light emitting unit emits light, and thus has the effect of performing a light emitting function without additional light emitting means.

In addition, the shock detection module is mounted on the back of the glove body, so it can be used without damage or discomfort caused by motion such as clapping of the hands, and it is easy to detect external shocks. , It can improve the visual luminous effect and can be used more conveniently.

In addition, by providing a sensitivity adjusting unit capable of adjusting the operating sensitivity of the striking light emitting unit, it is possible to adjust the operating sensitivity according to the user's needs and prevent the phenomenon that the light emitting module emits light even in unnecessary small impacts, so that it is accurately applied only to impact power of a certain intensity or higher There is an effect that enables more stable use by emitting light.

1 and 2 is a perspective view schematically showing the appearance of different types of light emitting gloves according to an embodiment of the present invention,
3 is a partially exploded perspective view schematically showing a configuration of an impact light emitting unit of a light emitting glove according to an embodiment of the present invention,
4 is a view for explaining the principle of operation of the impact light emitting unit of the light emitting glove according to an embodiment of the present invention,
5 is a view for explaining the operating principle of the sensitivity control unit of the impact light emitting unit of the light emitting glove according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. First, when adding reference numerals to the components of each drawing, it should be noted that the same components have the same reference numerals as possible even though they are displayed on different drawings. In addition, in describing the present invention, when it is determined that detailed descriptions of related well-known configurations or functions may obscure the subject matter of the present invention, detailed descriptions thereof will be omitted.

1 and 2 are perspective views schematically showing appearances of different types of light emitting gloves according to an embodiment of the present invention, and FIG. 3 is a shock light emitting unit of the light emitting gloves according to an embodiment of the present invention. Partly exploded perspective view schematically showing the configuration, Figure 4 is a view for explaining the principle of operation of the impact light emitting unit of the light emitting glove according to an embodiment of the present invention, Figure 5 is a light emitting according to an embodiment of the present invention It is a view for explaining the principle of operation of the sensitivity adjusting unit of the impact light emitting unit of the glove.

The light emitting glove according to an embodiment of the present invention is worn on the user's hand to perform a light emitting function, and is mounted on one side of the glove body 10 and the glove body 10 to accommodate a human hand, and the glove The main body 10 is configured to include an impact light emitting unit 20 that operates to emit light by an external impact force of a predetermined intensity or more generated in the process of moving the user's hand together.

Such a luminous glove, for example, when cheering for a sporting event in a stadium, wear a luminous glove on your hand or shake your hand in both directions, the impact luminous unit is generated by an external impact force generated during the clapping or waving process. The 20 emits light, and accordingly, it is possible to perform a light emitting function without a separate light emitting means at a cheer or event.

The shock emitting unit 20 is coupled to the back portion of the glove body 10 and senses an external impact force to generate an electric signal, and the shock detection module 21 and the glove body to be spaced apart from the shock detection module 21 It is configured to include a light emitting module 22 coupled to (10) and electrically connected to the shock sensing module 21 to emit light according to the electrical signal of the shock sensing module 21.

As shown in FIG. 1, the glove body 10 may have a glove body in the form of a mitten, or a glove body in the form of a finger glove as shown in FIG. 2.

The shock detection module 21 is preferably coupled to the back of the glove body 10 so that the external impact force is easily detected and there is no damage or discomfort caused by hand gestures such as applause, and the light emitting module 22 is such a shock detection module Since it is spaced apart from (21), the light emitting effect may be disposed at a position where it is well exposed to the outside.

For example, in the case where the glove body 10 is in the form of a mitten, the light emitting module 22 may be formed in one integrated form at a finger tip portion of the glove body 10, as shown in FIG. 1, As shown in FIG. 2, when the glove body 10 is in the form of a finger glove, it may be arranged in an independent form at each joint node where the finger starts.

The light emitting module 22 is disposed at a position spaced apart from the shock detection module 21 and can be connected through a separate wire 23. When an electric signal is generated by the shock detection module 21, light emission is performed accordingly The module 22 can be configured to emit light.

The shock detection module 21 is mounted on the case 100 coupled to the back of the glove body 10, the PCB substrate 200 disposed inside the case 100, and the PCB substrate 200, and is external It may be configured to include a contact module 400 for generating an electrical signal so that the light emitting module 22 emits light when the contact is electrically contacted by an impact force.

The case 100 may be formed to be separated into a lower case 101 and an upper case 102 so that an accommodation space is formed therein, and the lower end may be arranged to contact the back of the glove body 10 and the upper end to be exposed to the outside. You can.

The PCB 210 is equipped with a battery 210 for supplying power, and the light emitting module 22 is connected to the PCB board 200 by a wire 23, and when an electrical signal of the contact module 400 occurs, from the battery The light emitting module 22 may be configured to emit light by receiving power.

The contact module 400 is configured such that the contact is electrically contacted by an external impact force generated by the movement of the glove body 10 during hand operation, and when the contact is connected, the battery 210 through the circuit of the PCB board 200 ) Is configured to supply power to the light emitting module 22.

The light emitting module 22 is electrically connected to the PCB substrate 200 and is coupled to the light emitting lamp 310 that emits light by receiving an electrical signal from the contact module 400, and the light emitting lamp 310 is coupled to the glove body 10. It comprises a diffusion case 320 for receiving the inside and emitting the display light of the light emitting lamp 310 to the outside.

The light emitting lamp 310 may be provided as a LED lamp and provided with a plurality of light emitting lamps 310, as shown in FIG. 1, when the glove body 10 is in the form of mittens, a plurality of light emitting lamps 310 on one light emitting substrate 311 ) May be configured to be accommodated inside one diffusion case 320 in a mounted form. As shown in FIG. 2, when the glove body 10 is in the form of a finger glove, each light emitting lamp 310 is respectively accommodated inside the plurality of diffusion cases 320 and is configured to be disposed at independent positions. It might be.

According to this structure, when wearing a light emitting glove according to an embodiment of the present invention and clapping hands, such as cheering, or shaking a hand in both directions, a shock occurs in the process of hand movement, and the impact force is applied to the shock detection module 21 The electric signal is generated by sensing, and the light emitting module 22 emits light according to the electric signal.

Therefore, even if a light emitting means such as a candle or a lighter or a chemical light emitting means is not separately prepared, the light emitting function can be sufficiently exhibited by simply wearing a light emitting glove and clapping, so that it can be conveniently used.

Next, the configuration of the contact module 400 according to an embodiment of the present invention will be described in more detail.

3 and 4, the contact module 400 is formed such that one end is mounted on the PCB substrate 200 and the other end is elastically deformed in the vertical direction, which is the thickness direction of the armor body 10, by external impact force. It is configured to include an elastic movable terminal 410 and a fixed terminal 420 mounted on the PCB substrate 200 so that one side is spaced upwardly apart from the elastic movable terminal 410. One end of the elastic movable terminal 410 and one end of the fixed terminal 420 are respectively mounted on the PCB substrate 200 and connected to circuit contacts of the PCB substrate 200, and the elastic movable terminal 410 and the fixed terminal 420 ) Is in contact, it is configured to transmit the power of the battery to the light emitting module 22 by the circuit of the PCB substrate 200.

At this time, the elastic moving terminal 410 may be formed in the form of a coil spring, elastically deformed by an external impact force to generate an electrical signal by contacting the fixed terminal 420, and then return to the original state again by the elastic force to fix the terminal ( 420).

That is, as illustrated in FIG. 4, the elastic movable terminal 410 and the fixed terminal 420 are disposed in a vertically spaced distance d1 state, and the elastic movable terminal 410 is deformed upward by an external impact force to fix the fixed terminal 420. And the instantaneous contact, the power of the battery 210 is transmitted to the light emitting module 22 by the contact, so that the light emitting lamp 310 emits light. At this time, when the light emitting module 22 emits light only in the contact state of the elastic moving terminal 410 and the fixed terminal 420, since the light emission time is relatively short, the elastic moving terminal 410 and the fixed terminal 420 Upon contact, the light emitting module 22 may be configured to emit light for a relatively long time (approximately 1 to 2 seconds) by supplying power from the battery to the light emitting module 22 for a predetermined time according to the contact signal.

On the other hand, the elastic movement terminal 410 may contact the fixed terminal 420 by a relatively small impact force or the elastic movement terminal 410 may contact the fixed terminal 420 by a relatively large impact force, To this end, a sensitivity adjusting unit 500 for adjusting the operating sensitivity of the contact module 400 may be provided in such a way that the elastic moving terminal 410 adjusts the magnitude of the impact force required for elastic contact with the fixed terminal 420.

The sensitivity adjusting unit 500 may be configured in such a way as to adjust the vertical spacing distance d1 of the elastic moving terminal 410 and the fixed terminal 420.

For example, as illustrated in FIG. 5, the sensitivity adjusting unit 500 may be moved by the operation of the operation knob 510 and the operation knob 510 mounted on the case 100 so that the user can operate it. It is configured to include a pressing rod 520 disposed inside the case 100, and the pressing rod 520 is formed to gradually press the fixed terminal 420 in a direction away from the elastic moving terminal 410 when moving in one direction. It can be formed so as to gradually release the upward pressing state with respect to the fixed terminal 420 when moving in the other direction.

Therefore, as shown in FIG. 5, when the pressing rod 520 is moved to the right by operating the operation knob 510, the elastic moving terminal 410 moves upward to move the elastic moving terminal 410 and the fixed terminal ( 420) has a relatively large separation distance d2.

When the separation distance between the elastic moving terminal 410 and the fixed terminal 420 increases, a relatively large impact force is transmitted, so that the elastic moving terminal 410 and the fixed terminal 420 contact and the light emitting module 22 emits light. , When the separation distance between the elastic moving terminal 410 and the fixed terminal 420 decreases, even if a relatively small impact force is transmitted, the elastic moving terminal 410 and the fixed terminal 420 contact and the light emitting module 22 easily emits light. Is done.

In this way, the operating sensitivity can be adjusted by adjusting the operation knob 510 according to the needs of the user, and through this, it is possible to prevent the light emitting module 22 from emitting light even in the case of unnecessary small impact, and the user has a certain intensity. As described above, it is possible to emit light only when a clapping or an impact-generating movement is performed.

On the other hand, the sensitivity adjusting unit 500 may be configured in a manner to adjust the separation distance between the elastic moving terminal 410 and the fixed terminal 420 as described above, but the elastic moving terminal 410 is fixed to the fixed terminal 420 ) It may be modified in various ways, such as having a magnet that pulls to the side and may be configured in such a way that the magnetic force strength of the magnet's elastic moving terminal 410 is adjusted.

The above description is merely illustrative of the technical idea of the present invention, and those skilled in the art to which the present invention pertains may make various modifications and variations without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are not intended to limit the technical spirit of the present invention, but to explain, and the scope of the technical spirit of the present invention is not limited by these embodiments. The scope of protection of the present invention should be interpreted by the claims below, and all technical spirits within the scope equivalent thereto should be interpreted as being included in the scope of the present invention.

10: armor body
20: shock emitting unit
21: shock detection module
22: light emitting module
23: Front
100: case
200: PCB substrate
210: battery
310: luminous lamp
320: diffusion case
400: contact module
410: elastic mobile terminal
420: fixed terminal
500: sensitivity control
510: operation knob
520: pressurized rod

Claims (8)

delete delete A light-emitting glove that performs light emission by wearing it in the user's hand,
A glove body capable of accommodating a human hand; And
Impact light emitting unit is mounted on one side of the glove body, and operates to emit light by an external impact force of a certain intensity or more generated in the process of moving the glove body
Including,
The impact light emitting unit
An impact detection module coupled to the back of the glove body and sensing an external impact force to generate an electrical signal; And
A light emitting module coupled to the glove body so as to be spaced apart from the shock sensing module and electrically connected to the shock sensing module to emit light according to the electrical signal of the shock sensing module
Including,
The shock detection module
A case coupled to the back part of the glove body;
A PCB substrate disposed inside the case; And
A contact module that is mounted on the PCB board and contacts are electrically contacted by external impact forces to generate electrical signals.
Including,
The contact module
An elastic mobile terminal having one end mounted on the PCB substrate and the other end elastically deformed in an up and down direction, which is a thickness direction of the armor body, by an external impact force; And
A fixed terminal mounted on the PCB substrate so that one side is spaced apart from the elastic moving terminal by a predetermined distance upward
Including, wherein the elastic mobile terminal is elastically deformed by an external impact force to generate an electrical signal by contact with the fixed terminal, and then return to the original shape is formed to be spaced apart from the fixed terminal.
The method of claim 3,
The light emitting module
A light emitting lamp connected to the PCB board by a wire and receiving an electric signal of the contact module to emit light; And
A diffusion case coupled to one side of the glove body and receiving the light emitting lamp therein to emit the display light of the light emitting lamp to the outside
Light-emitting gloves comprising a.
delete The method of claim 3,
A light-emitting glove, characterized in that a sensitivity adjustment unit for adjusting the operation sensitivity of the contact module is provided in such a way that the size of the external impact force required for the elastic mobile terminal to elastically contact the fixed terminal is adjusted.
The method of claim 6,
The sensitivity adjusting unit is a light emitting glove, characterized in that formed to adjust the vertical distance between the elastic moving terminal and the fixed terminal.
The method of claim 7,
The sensitivity control unit
An operation knob mounted on the case to allow a user to operate; And
Pressurizing rod disposed inside the case to move by the operation of the operation knob
Including, the pressing rod is formed to gradually press the fixed terminal in a direction away from the elastic moving terminal when moving in one direction, and is formed to gradually release the upward pressing state to the fixed terminal when moving in the other direction Luminous gloves, characterized in that.

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