KR101626782B1 - Gender type device based on coupling battery charger for displaying charge-up current - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a gender type device based on a charge device coupling for realizing a charge current amount. The present invention is characterized in that the charging body 1a and the charging wire 1b of the charging apparatus 1 are combined using the protruding interface terminal 10a and the insertion interface terminal 10b, The current value transmitted to the smartphone battery through the charging line 1b is detected and implemented through the LED indicator 14 formed outside the product.
This not only displays the amount of current to be charged, but also provides the effect of informing the replacement time for replacement of the charging wire in the case of disconnection of the charging wire.
In addition, the present invention solves the problem of a cost burden owing to the independent use of the conventional current measuring device and a product in which the current measuring device is miniaturized to at least 5 cm x 5 cm or more, and is formed integrally in the gender type device, Not only can the existing charging device be used as it is, but it is also effective to maximize mobility.

Description

[0001] The present invention relates to a gender type device based on a charging device for realizing a charging current amount,

[0001] The present invention relates to a gender-type device based on a charging device for realizing a charging current amount, and more particularly, to a gender-type device for charging a charging device, To a charging device coupling-type gender-type device for realizing a charging current amount for notifying a user of a charging current.

1 is a view showing a disconnection line when charging a smartphone. Referring to FIG. 1, when a smartphone is used, a user often experiences disconnection between the charging line of the charger and the charging terminal of the smartphone during charging. However, as shown in FIG. 1, even when the casing of the charging line is peeled off, the charging can not be normally performed because the confirmation can not be made by eyes until the disconnection substantially progresses. More specifically, the high failure rate of the low-cost charging line and the unauthorized charging line are frequently unfilled due to the disconnection due to the increase in fatigue.

In addition, unless the disconnection has progressed to such an extent as to be visually recognizable, there is a limit in that it is impossible to determine whether the faulty portion is a charger, a charging line, a smart phone, or a terminal contact failure.

In addition, since the allowable current values are different depending on the length of the charging wire or the same length, there is no way to check the amount of charged current, There is a limit for setting.

[Related Technical Literature]

1. Method for monitoring a capacitive filter of a battery charger (Patent Application No. 10-2014-7006754)

2. Deterioration Detection Method and Residual Capacity Detection Method of Electrochemical Device, and Charger and Discharge Control Device Using the Same, Patent Application (Patent Pending) No. 10-2001-7001683)

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems and it is an object of the present invention to provide a gender type based on a charging device for realizing a charging current amount for notifying a replacement time point for charging line replacement, Device.

In addition, the present invention solves the problem of a cost burden due to the independent use of the conventional current measuring device and a limitation of a product in which the current measuring device is miniaturized to at least 5 cm x 5 cm or more, so that it is integrally formed in a gender type device, In addition, the present invention is to provide a gender-type device based on a charging device for realizing a charging current amount for providing the charging device in a form capable of being coupled to the charging device.

However, the objects of the present invention are not limited to the above-mentioned objects, and other objects not mentioned can be clearly understood by those skilled in the art from the following description.

In order to achieve the above object, a gender type device based on a charging device for realizing a charging current amount according to an embodiment of the present invention is characterized in that a protruding type device is provided between a charging main body 1a of a charging device 1 and a charging wire 1b The current value transmitted to the smartphone battery through the charging body 1a is combined with the interface terminal 10a and the insertion type interface terminal 10b to detect the value of current transmitted to the smartphone battery, (14). ≪ / RTI >

The LED display and data line on / off button area 10c, which are located at the front end of the upper surface of the housing 10d and on which the data line on / off button 11 and the LED indicator 14 are formed, ; .

In addition, the present invention receives a data line on selection signal and a data line off selection signal in accordance with a user's crossing input to the data line on / off button 11, and generates a data line off selection signal A microcontroller 13 for causing the gender type device 10 based on the charging device combination to operate in a charging mode at a time; .

The protruding interface terminal 10a and the charging main body 1a are separated from each other and the protruding interface terminal 10a is connected to an input interface terminal (not shown) of the user terminal It is preferable that rapid charging be performed.

In the present invention, the protruding type interface terminal 10a is a USB (male) terminal protruding in a small size toward the front of the housing 10d, and is mounted as a USB (female) terminal of the charging main body 1a of the charging device 1 And the insertion type interface terminal 10b has a configuration for inserting a USB terminal of the charging line 1b of the charging device 1 into a USB (female) terminal formed at an obtuse angle to the rear portion of the housing 10d Element.

The microcontroller 13 senses the amount of charge current charged by the battery of the smartphone via the charge line 1b from the charge main body 1a via the current detection sensor 12 and then detects the amount of charge current flowing through the housing 10d It is preferable to implement the LED display 14 located at the front end of the upper surface.

The microcontroller 13 receives the data line off selection signal from the data line on / off button 11 and performs control on the data line on / off output unit 15 It is preferable that the data line of the insertion type interface terminal 10b connected to the charging line 1b is stopped by software.

The microcontroller 13 performs the sensing by the current detection sensor 12 of the first charging current amount charged through the protruding type interface terminal 10a from the charged body 1a and controls the insertion type interface terminal 10b The first charging current amount and the second charging current amount have a difference equal to or greater than a predetermined threshold value after receiving information on the second charging current amount charged by the battery of the smartphone via the charging line 1b through the charging line 1b It is preferable to implement the LED display 14 as a charge disconnection line.

The gender type device based on the charging device for realizing the charging current amount according to the embodiment of the present invention not only displays the amount of current to be charged but also provides an effect of informing the replacement time for replacement of the charging wire in the case of disconnection of the charging wire .

In addition, the gender-type device based on the charging device for realizing the charging current amount according to another embodiment of the present invention can be applied to a case where the current measuring device is at least 5 cm × 5 cm , The miniaturized products are solved to solve the limitations of the miniaturized products, so that they can be integrally formed in the gender type device to be miniaturized and can be combined with the charging device, thereby not only utilizing the existing charging device as it is, but also maximizing the mobility have.

1 is a view showing a disconnection line when charging a smartphone in the related art.
FIG. 2 is a view showing the concept of a gender type device 10 (hereinafter referred to as a gender type device based on a charge device combination) based on a charge device combination for realizing a charge current amount according to an embodiment of the present invention.
FIG. 3 is a perspective view (FIG. 3a) and a rear view (FIG. 3b) showing the external appearance of the gender type device 10 based on the charging device coupling of FIG.
FIG. 4 is a plan view (FIG. 4A) and a side view (FIG. 4B) showing the external appearance of the gender type device 10 based on the charging device coupling of FIG.
5 is a block diagram mainly showing the electronic configuration of the gender type device 10 based on the charging device coupling of FIG.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a detailed description of preferred embodiments of the present invention will be given with reference to the accompanying drawings. In the following description of the present invention, detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

In the present specification, when any one element 'transmits' data or signals to another element, the element can transmit the data or signal directly to the other element, and through at least one other element Data or signal can be transmitted to another component.

FIG. 2 is a view showing the concept of a gender type device 10 (hereinafter referred to as a gender type device based on a charge device combination) based on a charge device combination for realizing a charge current amount according to an embodiment of the present invention. FIG. 3 is a perspective view (FIG. 3a) and a rear view (FIG. 3b) showing the external appearance of the gender type device 10 based on the charging device coupling of FIG. FIG. 4 is a plan view (FIG. 4A) and a side view (FIG. 4B) showing the external appearance of the gender type device 10 based on the charging device coupling of FIG. 5 is a block diagram mainly showing the electronic configuration of the gender type device 10 based on the charging device coupling of FIG.

1 to 5, the gender type device 10 based on the charging device combination includes a data line on / off button 11, a current detection sensor 12, a microcontroller 13, an LED indicator 14 A data line on / off output section 15, a protruding interface terminal 10a, an insertion type interface terminal 10b, an LED indicator and a data line on / off button region 10c, and a housing 10d By using the protruding interface terminal 10a and the inserting interface terminal 10b between the charging main body 1a of the charging device 1 and the charging wire 1b, (1b), and informs the user of the current value in the range of 0 to 2A through the LED indicator (14) provided outside the product. The LED indicator and the data line on / off button region 10c are positioned on the front side of the upper surface of the housing 10d to form the data line on / off button 11 and the LED indicator 14.

The data line on / off button 11 generates a data line on selection signal and a data line off selection signal according to the user's cross input and transmits the data line on selection signal to the microcontroller 13, The gender type device 10 based on the charging device combination is operated in the charging mode under the control of the microcontroller 13 at the time of generating the signal. The gender type device 10 based on the charging device combination separates the protruding type interface terminal 10a from the charged main body 1a and connects the protruding type interface terminal 10a to the user terminal (Not shown) of a personal computer (e.g., a personal computer, a computer, etc.), thereby providing a quick chargeable effect.

On the other hand, the microcontroller 13 in the gender type device 10 based on the charging device combination receives the current detection value from the current detection sensor 12 and the data line ON / OFF from the data line ON / OFF button 11, OFF), and controls the operation inputted through the program module as a whole.

The protruding type interface terminal 10a is a USB (male) terminal protruding to a front side of the housing 10d to be a component for mounting the USB terminal of the charging main body 1a of the charging device 1, The insertion type interface terminal 10b is a component for inserting the USB (male) terminal of the charging wire 1b of the charging device 1 into a USB (female) terminal formed at an obtuse angle to the rear portion of the housing 10d, The ganged device 10 based on the charging device combination can be positioned between the charging device 1 by the interface terminal 10a and the insertion type interface terminal 10b.

The microcontroller 13 senses the amount of charge current charged from the battery main body 1a through the charging line 1b through the current detection sensor 12 and charges the battery of the smartphone, The amount of charge current that the user is currently charging can be intuitively and briefly confirmed through the LED indicator 14 located in the battery charger 14.

Here, the gender type device 10 based on the charging device combination has a simple structure of the LED indicator lamp 14 for the user to determine the amount of charging current rather than a precise amount of current measured by the microcontroller 13, .

On the other hand, the display range of the current realized by the LED display 14 is displayed through a plurality of LED elements on the LED display 14 with a value between 0 and 2A. For example, when the number of LED elements of the LED indicator 14 is 10, 10 lights (100%) means that about 2A current flows, and the number of LED elements is designed to be at least 4 to 10 .

Meanwhile, although the housing 10d is a prototype, it is preferably a rectangular shape, but it is preferably formed as a design element in the form of a character such as a cat, a bear, or a lion in actual production.

The current detection sensor 12 analyzes the charging current when the charging device coupling-based gender type device 10 is coupled between the charging main body 1a for a smart phone and the charging wire 1b of the type to be connected by a USB terminal And provides the microcontroller 13 with a current value to be charged in real time.

Accordingly, the microcontroller 13 intuitively implements the amount of current to be charged in real time through the control of the LED indicator 14 corresponding to the charging current display LED bar, so that the user can check the charging current amount by the charging main body 1a And the amount of charging current by the charging line 1b can be individually confirmed by the battery capacity display function of the smartphone. Therefore, when the charging line 1b is disconnected, it can be confirmed immediately.

The protruding type interface terminal 10a is separated from the charging main body 1a while the insertion type interface terminal 10b of the gender type device 10 based on the charging device coupling is connected to the charging wire 1b, Computer, laptop computer, etc.) through the input interface terminal (USB terminal), it is possible to rapidly charge the smartphone connected to the charging line 1b. As described above, in order to perform the quick charge function, the microcontroller 13 receives the data line off selection signal from the data line on / off button 11 and then outputs the data line on / The data line of the insertion-type interface terminal 10b connected to the charging line 1b is controlled to be stopped by software.

On the other hand, the microcontroller 13 can implement the amount of current charged from the charging main body 1a as a color by the LED display 14, and when detecting the connection of the charging line 1b inserted into the insertion type interface terminal 10b A function of implementing the charging state (amount of current) only by the LED display 14 can be additionally performed.

The microcontroller 13 performs sensing by the current detection sensor 12 on the amount of the first charging current charged through the protruding type interface terminal 10a from the charged main body 1a, If the amount of the first charging current and the amount of the second charging current have a difference value equal to or greater than a preset threshold value after receiving information on the second charging current amount charged by the battery of the smartphone via the charging line 1b through the charging line 1b, And further performs a function of implementing the LED indicator 14 by disconnection.

As described above, preferred embodiments of the present invention have been disclosed in the present specification and drawings, and although specific terms have been used, they have been used only in a general sense to easily describe the technical contents of the present invention and to facilitate understanding of the invention , And are not intended to limit the scope of the present invention. It is to be understood by those skilled in the art that other modifications based on the technical idea of the present invention are possible in addition to the embodiments disclosed herein.

10: Gender type device based on charging device coupling
10a: protruding type interface terminal
10b: Insertable interface terminal
10c: LED indicator and data line on / off button area
10d: housing
11: Data line on / off button
12: Current detection sensor
13: Microcontroller
14: LED indicator
15: Data line on / off output section

Claims (8)

The charging main body 1a of the charging device 1 is connected to the charging wire 1b by using the protruding type interface terminal 10a and the insertion type terminal terminal 10b, The current value transmitted to the smartphone battery through the LED indicator 1b is detected and implemented through the LED indicator 14 provided outside the product,
The data line on selection signal and the data line off selection signal are received in accordance with the user's crossing input to the data line on / off button 11, and when the data line off selection signal is generated through the user's selection, And a microcontroller (13) for causing the coupling-based gender type device (10) to operate,
The microcontroller 13 performs sensing by the current detection sensor 12 of the first charging current amount charged through the protruding type interface terminal 10a from the charged main body 1a, If the first charge current amount and the second charge current amount have a difference value equal to or greater than a preset threshold value after receiving information on the second charge current amount charged by the battery of the smart phone via the charge line 1b And the LED display (14) is realized by charging disconnection. The charging device coupling based gender type device for implementing the charging current amount.
The method according to claim 1,
An LED indicator and a data line on / off button area 10c located at the front end of the upper surface of the housing 10d, in which a data line on / off button 11 and an LED indicator 14 are formed; Further comprising a charge device coupled to the gating device.
delete The method according to claim 1,
It is characterized in that the protruding type interface terminal 10a and the charging main body 1a are separated from each other and the protruding type interface terminal 10a is coupled to the input interface terminal of the user terminal A charging device coupling based gender type device for implementing a charging current amount.
The method of claim 4,
The protruding type interface terminal 10a is a USB (male) terminal protruding to a front side of the housing 10d to be a component for mounting the USB terminal of the charging main body 1a of the charging device 1,
The insertion type interface terminal 10b is a component for inserting a USB terminal of the charging line 1b of the charging device 1 into a USB (female) terminal formed at a rear portion of the housing 10d at an engraved A gender type device based on the combination of a charging device for implementing a charging current amount.
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