KR20170000041U - Electric chemi with variable brightness and on/off function - Google Patents

Abstract

The present invention relates to an electronic chemistry having a brightness control and an on / off function, and more particularly, to an electronic chemistry having a function of forming a linear electrode in an electronic chemical used for fishing, And an electronic chemistry having brightness control and on / off function for adjusting the brightness of the LED by changing the amount of current depending on the position.
According to the present invention, it is possible to prevent eye fatigue caused by excessively bright light at the beginning of use, and to control the use time of the electronic chemistry by controlling the amount of current when using an electronic chemistry having LEDs.

Description

ELECTRIC CHEMI WITH VARIABLE BRIGHTNESS AND ON / OFF FUNCTION WITH BRIGHTNESS CONTROL AND ON / OFF FUNCTION

The present invention relates to an electronic chemistry having a brightness control and an on / off function, and more particularly, to an electronic chemistry having a function of forming a linear electrode in an electronic chemical used for fishing, And an electronic chemistry having brightness control and on / off function for adjusting the brightness of the LED by changing the amount of current depending on the position.

"Chemie" (hereinafter abbreviated as "chemie") is a kind of ultra-small light emitting device. When it is fishing at night or in dark places, it attaches to the upper part of the fishing rod to illuminate the vicinity of the point or to attract fish, Means a device that is inserted into a hole.

There are two types of chemies: chemical chemistry, which contains chemicals that promote luminescence inside the body, and electron chemistry, which consists of a lithium polymer battery.

In the former case, when the body is broken, the chemical reaction of the internal chemical is promoted to emit light, and in the latter case, the + electrode and the - electrode are formed on the body so that the light generated by the voltage difference between the + .

In the case of the electronic chemistry, a power supply means and a light emitting means are provided therein to emit light for a certain period of time by the supply of current. An LED which is small in size and exhibits low power and high brightness performance is used.

FIG. 1 is an exploded perspective view showing the structure of an electronic chemi according to the related art, and FIG. 2 is a graph illustrating a phenomenon in which the brightness of an LED changes with time.

The general prior art electronic chemistry 10 is made to fit on the battery 20. The LED 12 is embedded in the cover 11 coupled to the battery 20, so that the LED 12 is lit by the current supplied from the battery 20.

However, as shown in FIG. 2, the electronic chemistry 10 of the related art does not have a function of controlling the brightness (brightness), so that it emits a constant brightness. Thus, although the brightness of the battery 20 is sufficiently large at the initial stage, the brightness of the battery 20 is reduced due to a decrease in the amount of current after a certain period of time.

As shown in FIG. 2, when the illuminance is higher than a predetermined intensity (L ₁ or more), it is too bright, which tears the eyes of the user who needs to look at the electronic chemistry 10 at night. And since it consumes too much current in the early stage (until T ₁ after operation), the use time of the electronic chemistry 10 is remarkably reduced.

KR 10-2003-0013511 A KR 20-2009-0001670 U

In order to solve the above-described problems, the present invention has a brightness adjusting unit for adjusting the amount of current in an electronic chemistry, and a brightness adjusting unit for adjusting the brightness of light emitted from the LED And to provide an electronic chemical having an on / off function.

The present invention also provides an electronic chemistry having a brightness control and an on / off function for facilitating the adjustment of the brightness according to the change of current by making the electrode which meets the spring switch into a circular shape and allowing the spring switch to move along the circumference The purpose.

The present invention, which is devised to solve the above-described problems, is an electronic chemistry which can adjust the brightness by changing the amount of current, and includes an upper cover 102 through which light is emitted; A lower cover 104 rotatably connected to the lower portion of the upper cover 102 and having a groove through which a battery 20 is inserted; A PCB (106) installed between or inside the upper cover (102) and the lower cover (104); An LED 108 mounted on the PCB 106 and emitting light; A brightness adjusting unit 110 for changing a magnitude of a current supplied to the LED 108 through a change in a resistance value; And a spring switch 112 which is moved in contact with an edge of the brightness adjusting unit 110 and is electrically connected to the battery 20 and the LED 108. The brightness adjusting unit 110, The spring switch 112 is moved in a state of being electrically connected to the electrode 110a and one side of the electrode 110a is connected to one side of the electrode 110a, And the spring switch 112 is electrically connected to the other polarity of the battery 20. The contact 110b is electrically connected to the polarity.

The spring switch 112 is fixed to the upper cover 102 and rotates together with the upper cover 102.

According to the present invention, it is possible to prevent eye fatigue caused by excessively bright light at the beginning of use, and to control the use time of the electronic chemistry by controlling the amount of current when using an electronic chemistry having LEDs.

In addition, it is necessary to adjust the brightness to a maximum brightness since the visibility of the crucible is lowered at sunrise or sunset. In the middle of the night, it is necessary to adjust the illuminance appropriately in order to prevent glare and it is possible to control the difference in visibility according to the length and the illuminance of the fishing rod .

It also has the advantage of turning the electronic chemistry on and off without disassembling the battery and LED.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an exploded perspective view showing a structure of an electronic chemi according to the prior art; FIG.
FIG. 2 is a graph showing a phenomenon in which brightness of an LED varies with time. FIG.
3 is a perspective view showing the structure of an electronic chemical according to an embodiment of the present invention;
FIG. 4 is an exploded perspective view showing the internal structure of the electronic chemistry of FIG. 3; FIG.
Fig. 5 is a cross-sectional view showing the internal structure of the electronic chemistry of Fig. 3; Fig.
6 is a plan view showing a structure of a brightness adjusting unit;
7 is a plan view showing a brightness adjusting method through movement of a spring switch.
8 is a graph showing a change in brightness of an LED in an electronic chemistry according to the present invention.

Hereinafter, an electronic chemistry having brightness control and on / off functions (hereinafter referred to as " electronic chemistry ") according to an embodiment of the present invention will be described with reference to the drawings.

3 is an exploded perspective view showing the internal structure of the electronic chemical in FIG. 3, FIG. 5 is a sectional view showing the internal structure of the electronic chemical in FIG. 3, and FIG. FIG. 6 is a plan view showing the structure of the brightness adjusting part, FIG. 7 is a plan view showing a brightness adjusting method through movement of the spring switch, and FIG. 8 is a graph showing a change in brightness of the LED in the electronic chemistry of the present invention.

The electronic chemistry 100 of the present invention is coupled to the battery 20 as in the prior art. The battery 20 is preferably made of a lithium-based high-energy battery.

An electronic chemistry 100 coupled to the upper end of the battery 20 is divided into an upper cover 102 and a lower cover 104. A groove for inserting the battery 20 is formed on the bottom surface of the lower cover 104. Light emitting means, control means and brightness adjusting means are mounted inside the upper cover 102 or the lower cover 104.

The upper cover 102 is made of a transparent or semi-transparent material so that the light generated from the LED 108 can spread out well. It is also desirable to apply a specific color so as to facilitate identification depending on the use purpose or place.

The upper cover 102 and the lower cover 104 are coupled to each other in such a manner that they are screwed or tightly fitted, and the upper cover 102 is rotatably fixed to the lower cover 104. In addition, the means for adjusting the brightness of the LED 108 may be fixed to the upper cover 102 to rotate the upper cover 102 to adjust the brightness or turn the operation on / off. Currently, the battery part and the LED part are separated or combined to turn the electronic chemistry on and off. In this process, a lot of inconvenience occurs, and there is a great possibility that small parts are lost.

A PCB 106 is installed in or between the upper cover 102 and the lower cover 104 and an LED 108 is installed on the PCB 106. The LED 108 is the same as a semiconductor device used as general lighting means, and means a device emitting light according to the supply of DC power.

In addition, the brightness adjusting unit 110 is installed inside the electronic chemical 100. The brightness adjusting unit 110 is suitably formed to match the shape and size of the electronic chemical 100, and preferably has a flat plate shape.

An electrode 110a is formed on the surface of the brightness adjusting unit 110. [ The electrode 110a is linearly formed along the surface of the brightness adjusting unit 110. The electrode 110a may have an arc shape along the circumference of the edge of the disc-shaped brightness adjusting unit 110 as in the present invention. And may be linearly formed along the edge of the rectangular brightness adjusting unit 110 as the case may be.

A contact 110b is formed at one end of the electrode 110a. The contact 110b is electrically connected to one polarity of the battery 20 and the remaining polarity of the battery 20 is electrically connected to the spring switch 112. [

An off-period 110c is formed in a region other than the region where the electrode 110a is formed in the brightness adjusting portion 110. [ The off period 110c is a period in which no conductive material is applied and current supplied from the battery 20 is not transmitted.

A spring switch 112 is provided on the electrode 110a. The spring switch 112 is made of an elastic conductive material and is electrically connected to the electrode 110a. The spring switch 112 is configured to be able to move its position in contact with the electrode 110a. Preferably, an elastic spring is used to hold the electrode 110a up and down, so that the contact with the electrode 110a is maintained by elasticity while the user moves in a direction to be turned by hand. For this purpose, the spring switch 112 is formed in a substantially C shape so as to grasp the upper surface and the lower surface of the electrode 110a at the same time.

Since both the contact point 110b and the electrode 110a are connected to the two polarities of the battery 20, the battery 20, the contact point 110b, and the electrode 110a constitute one closed circuit and current flows.

The spring switch 112 is preferably exposed to the outside of the upper cover 102 and the lower cover 104 and may be installed in the body of the electronic chemistry 100 as the case may be, An additional handle, etc. can be connected. When the upper cover 102 is rotated by engaging the upper cover 102 with the spring switch 112, the spring switch 112 is also rotated. The user can adjust the brightness or turn on / off the LED 108 by turning the top cover 102 clockwise or counterclockwise.

6 and 7, the current supplied from the battery 20 is applied to the electrode 110a through the contact 110b and then to the LED 108 while passing through the spring switch 112 . Since the electrode 110a is a conductive material and has a resistance value, the resistance value changes according to the length of the current path of the current, and the current value changes accordingly.

When comparing the first state in which the spring switch 112 is rotated from the contact point 110b by D ₁ and the second state in which the spring switch 112 is rotated by D ₂ , since D ₂ is larger than D ₁ , 1 state. As a result, the magnitude of the current applied to the LED 108 is larger when the first state than the second state, and the brightness of the LED becomes brighter.

When the spring switch 112 is further rotated to come to the off section 110c, the electric current supplied from the battery 20 is not transmitted to the LED 108, and therefore the electronic chemistry 100 is turned off.

In this way, the brightness of the electronic chemistry 100 can be adjusted. When the battery 20 is first used, the user adjusts the spring switch 112 away from the contact 110b to raise the resistance value. As a result, the brightness of the LED 108 is reduced and the eye fatigue is reduced. When the amount of current of the battery 20 becomes small over time, the spring switch 112 is rotated in the direction of the contact point 110b to lower the resistance value. Then, the magnitude of the current supplied to the LED 108 becomes larger, so that the brightness becomes similar to the initial state.

As shown in FIG. 8, in the electronic thermometer 100 of the present invention, the brightness of the constant illuminance L ₁ can be maintained until the current of the battery 20 is almost consumed from the start of the initial operation.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the exemplary embodiments and constructions. As will be understood by those skilled in the art. Therefore, it should be understood that the embodiments described above are intended to be illustrative and non-restrictive in all aspects and that the scope of the present invention is indicated by the scope of claims for utility model registration described below rather than the above detailed description, It is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims.

10, 100: Electromemic 11: Cover
12: LED 20: Battery
102: upper cover 104: lower cover
106: PCB 108: LED
110: brightness adjusting unit 110a:
110b: Contact point 110c: Off section
112: Spring switch

Claims (2)

As an electronic chemi that can adjust the brightness by changing the amount of current,
An upper cover 102 through which light is emitted;
A lower cover 104 rotatably connected to the lower portion of the upper cover 102 and having a groove through which a battery 20 is inserted;
A PCB (106) installed between or inside the upper cover (102) and the lower cover (104);
An LED 108 mounted on the PCB 106 and emitting light;
A brightness adjusting unit 110 for changing a magnitude of a current supplied to the LED 108 through a change in a resistance value;
And a spring switch 112 which moves in contact with an edge of the brightness adjusting unit 110 and is electrically connected to the battery 20 and the LED 108,
An electrode 110a is linearly formed on a surface edge of the brightness adjusting unit 110,
The spring switch 112 is moved in a state of being electrically connected to the electrode 110a and a contact 110b electrically connected to one polarity of the battery 20 is formed on one side of the electrode 110a, Wherein the spring switch (112) is electrically connected to the other polarity of the battery (20). The method according to claim 1,
Wherein the spring switch (112) is fixed to the upper cover (102) and rotates together with the upper cover (102).

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