KR101433884B1 - Electronic device powered by battery - Google Patents

Abstract

The present invention relates to a circuit board, A housing forming an internal space in which the circuit board is embedded; A pair of power supply terminals formed concavely on the outer surface of the housing and connected to the circuit board, both side walls on which the pair of power supply terminals are respectively installed, A battery receiving portion having a bottom formed to be varied; A user input unit installed on an outer surface of the housing to generate a signal electrically input to the circuit board; And a signal output unit controlled by the circuit board and outputting a control signal corresponding to the input signal to the outside, wherein the bottom has a first region biased to one of the two side walls; And a second region having a height and a shorter length than the first region and having a surface parallel to the surface of the first region, the second region being offset from the other of the two side walls and occupying the remaining region excluding the first region, ; And a corner portion connecting the first region and the second region, wherein the corner portion includes a rounded connection portion.

Description

[0001] ELECTRONIC DEVICE POWERED BY BATTERY [0002]

The present invention relates to an electronic device in which a battery is used as a power source.

Generally, small electronic devices such as a remote control, a mouse, a mini cassette, and a telephone are used for supplying power to a battery. A battery includes a primary battery that can be used only once, and a rechargeable secondary battery that is charged.

Such a battery is inserted into a receiving portion formed concavely on the outer surface of the stapler. Therefore, although it is not difficult to insert the battery into the receiving portion, it is not easy to remove it for replacement or charging. This is because the gap between the battery and the receptacle is not enough to insert a finger.

When I try to pull the battery out through a narrow gap, it can be complicated to damage the fingernail or find other tools.

It is an object of the present invention to provide a battery-operated electronic device which does not utilize other tools and which allows to take out the battery housed in the receptacle in a manner that is convenient for the fingers.

A battery-operated electronic device according to an embodiment of the present invention for realizing the above-mentioned problems includes: a circuit board operated by receiving power; A housing forming an internal space in which the circuit board is embedded; A pair of power supply terminals formed concavely on the outer surface of the housing and connected to the circuit board, both side walls on which the pair of power supply terminals are respectively installed, A battery receiving portion having a bottom formed to be varied; A user input unit installed on an outer surface of the housing to generate a signal electrically input to the circuit board; And a signal output unit controlled by the circuit board and outputting a control signal corresponding to the input signal to the outside, wherein the bottom has a first region biased to one of the two side walls; And a second region having a height and a shorter length than the first region and having a surface parallel to the surface of the first region, the second region being offset from the other of the two side walls and occupying the remaining region excluding the first region, ; And connecting the first region and the second region, and the corner portion may include a rounded connection portion.

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According to the battery-operated electronic apparatus according to the present invention configured as described above, it is possible to take out the battery accommodated in the accommodating portion in a manner that does not use any other tool and is comfortable to the fingers.

1 is a perspective view of an electronic device according to an embodiment of the present invention as viewed from the rear of the remote control 100. As shown in Fig.
Fig. 2 is a cross-sectional view taken along line II-II in Fig. 1;
FIG. 3 is a sectional view showing a state in which the battery B is mounted in the battery receiving portion 130 'according to the modification of FIG.
4 is a cross-sectional view showing a state in which the battery B is mounted in the battery accommodating portion 130 '' according to another modification of FIG.
FIG. 5 is a cross-sectional view showing a state in which the battery B is mounted in the battery receiving portion 130a according to the modification of FIG.

Hereinafter, a battery-operated electronic device according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings. In the present specification, the same or similar reference numerals are given to different embodiments in the same or similar configurations.

1 is a perspective view of an electronic device according to an embodiment of the present invention as viewed from the rear of the remote control 100. As shown in Fig.

Referring to the drawing, a remote controller 100 which is an electronic apparatus may include a circuit board 110, a housing 120, a battery receiving portion 130, and a signal output portion 140.

The circuit board 110 may have the form of a printed circuit board (PCB). Various electronic elements are mounted on the substrate, and they are electrically connected by a conductive line such as a copper foil. These electronic devices are powered by electricity and operate electrically.

The housing 120 forms an internal space for accommodating the circuit board 110. To this end, the housing 120 may be formed by coupling two covers to each other. In this figure, a rear surface of the housing 120 is shown, and a user input unit may be provided on the front surface of the housing 120. The user input unit is an interface for a user to input an electrical signal to the circuit board 110 through a pressing operation, and may include, for example, a keypad or a touchpad.

The battery accommodating portion 130 is recessed and formed on the back surface of the housing 120. The battery accommodating portion 130 has a shape corresponding to the shape of the battery B. One or two batteries (B) may be accommodated in the battery receiving part (130). The battery B is electrically connected to the circuit board 110 to supply power to the circuit board 110.

The signal output unit 140 is formed to be exposed on the outer surface of the housing 120. The signal output unit 140 is controlled by the circuit board 110 and outputs infrared rays as a control signal. Such a control signal is received by a receiver of various electronic devices such as a TV or a radio.

According to this configuration, when the user operates the user input unit, the circuit board 110 receives a signal according to the intention of the user. Thereby, the circuit board 110 transmits a control signal conforming to the intention of the user to the signal output unit 140. The signal output unit 140 outputs infrared rays in accordance with the control signal to change an adjustable element of a partner such as a TV.

The power supply for such operation is performed by the battery (B), and the battery (B) which has reached the end of its life must be replaced. The specific structure of the battery accommodating portion 130 for facilitating the replacement of the battery B will now be described with reference to Figs. 2 to 5. Fig.

Fig. 2 is a cross-sectional view taken along line II-II in Fig. 1;

Referring to this figure, the battery receiving portion 130 includes a side wall 131 and a bottom 133, and an upper open space is formed.

The side walls 131 are formed in pairs at substantially opposite ends to the bottom 133 at both ends of the bottom 133. A (+) terminal 121 and a (-) terminal 122 are provided on each of the pair of side walls 131. Each of the terminals 121 and 122 is connected to both terminals of the battery B in a state where the battery B is accommodated in the battery accommodating portion 130. [

The bottom 133 is positioned between the side walls 131 and is formed to vary in height. In this embodiment, the bottom 133 is formed to be inclined downward in the direction from the left side wall 131 toward the right side wall 131.

According to such a configuration, when the right side of the battery B is manually pressed, the right side of the battery B is lowered so as to come into contact with the lower portion of the bottom 133. As a result, the left portion of the battery B rises and rotates along the rotation direction R. [ Thereby, the user can hold the left portion of the battery B lifted up and take the battery B out of the battery receiving portion 130.

As a result, a portion of the battery B is pressed to hold the relatively raised portion without the difficulty or inconvenience of putting the nail into the battery B and the side wall 131 or inserting the tool, You can easily take it out.

FIG. 3 is a sectional view showing a state in which the battery B is mounted in the battery receiving portion 130 'according to the modification of FIG.

Referring to this figure, the bottom 133 'may include a first region 134 and a second region 135 having a lower height than the first region 134, .

In this embodiment, the first area 134 occupies the left side of the bottom 133 'and the second area 135 occupies the right side of the bottom 133'. The left side of the battery B is supported by the first region 134 and the right side of the battery B is floated above the second region 135. [ The height of the second region 135 is lower than that of the first region 134 but the surfaces of the first region 134 and the second region 135 may be parallel to each other.

The first region 134 and the second region 135 may be connected by a connecting portion 136. At this time, the connection portion 136 may be formed in a stepped shape. The connecting portion 136 may also have a rounded portion 136a deviating from the angled shape.

According to such a configuration, the user can apply a downward force F to the right side portion of the battery B in order to take out the battery B from the battery receiving portion 130 '. The battery B is rotated in the rotation direction R with the connecting portion 136 as a fulcrum.

As a result, the left side of the battery B rises above the battery receiving portion 130 ', and the user can take out the battery B by holding the rising portion of the battery B. If the rounded portion 136a is formed in the connecting portion 136, the possibility that the battery B may be finely caused to the battery B by the connecting portion 136 while receiving the force F .

4 is a cross-sectional view showing a state in which the battery B is mounted in the battery accommodating portion 130 '' according to another modification of FIG.

Referring to this figure, the bottom 133 '' may include a support projection 134 'as a first region and a flat portion 135' as a second region.

The flat portion 135 'occupies most of the area of the bottom 133' '. The supporting protrusion 134' protrudes from the central portion of the flat portion 135 'to support the battery B. Thereby, The central portion of the battery B is supported by the support protrusion 134 ', but most of the remaining portion of the battery B is floated above the flat portion 135'.

According to this configuration, when the user removes the battery B, the user can press the corresponding portion without being concerned with the left side or the right side of the battery B. When the right side of the battery B is pushed, the situation as shown in Fig. 3 will be reproduced. When the force F is applied to the left side of the battery B, the support projection 134 'becomes the center of rotation of the battery B, and the right side of the battery B rotates in the rotation direction S. Thereby, the right side of the battery B rises above the battery receiving portion 130 ", and the user can easily take out the battery B by gripping the bulged portion.

Here, the support protrusion 134 'can be formed at a position corresponding to the center C (also the center of the bottom 133) of the battery B, whereby the support protrusion 134' B are connected to the electrode terminals 121 and 122 in a stable state and ensures that the other side of the battery B can rise to the same level even if either side of the battery B is pressed.

Alternatively, the support protrusion 134 'may be located away from the center C of the battery B. [ In this case, when the battery B receives a force close to the support protrusion 134 ', the other side is raised higher than the previous case.

FIG. 5 is a cross-sectional view showing a state in which the battery B is mounted in the battery receiving portion 130a according to the modification of FIG.

Referring to this figure, the bottom 133a of the battery receiving portion 130a may include two projections 137 and 138 and a flat portion 135a. Here, the two projections 137 and 138 become the first region as a portion higher than the flat portion 135a, and the flat portion 135a becomes the second region.

The two protrusions 137 and 138 are divided into a first protrusion 137 and a second protrusion 138 and the first protrusion 137 and the second protrusion 138 are disposed apart from each other. The first protrusion 137 and the second protrusion 138 may be disposed at the center of the flat portion 135a. Specifically, the first protrusion 137 and the second protrusion 138 may be spaced apart from each other at the center C of the bottom 133a.

According to such a configuration, when the force F ₁ is applied downward to the right side of the battery B, the battery B rotates in the first direction R ₁ with the second protrusion 138 as a fulcrum. As a result, the left side of the battery B rises above the battery receiving portion 130a.

On the other hand, when the force F ₂ is applied downward to the left side of the battery B, the battery B rotates in the second direction R ₂ with the first protrusion 137 as a fulcrum. As a result, the right side of the battery B rises above the battery receiving portion 130a.

As a result, the battery B can be easily removed by pressing either the left side or the right side of the battery B. If the first protrusion 137 or the second protrusion 138 which is a supporting point in the rotation of the battery B is displaced from the center C of the battery B, The angle of rotation of the swing arm will become larger, and it will be easier to catch the swung-up portion.

Further, since the battery B is supported by the two projections 137 and 138, the state in which the battery B is connected to the terminals 121 and 122 can be stably maintained.

The battery-operated electronic device as described above is not limited to the configuration and operation of the embodiments described above. The embodiments may be configured so that all or some of the embodiments may be selectively combined so that various modifications may be made.

100: remote control 110: circuit board
120: housing 121, 122: electrode terminal
130, 130 ', 130 ", 130a: battery accommodating 131: side wall
133, 133 ', 133 ", 133a: bottom 134, 134', 134a:
135, 135 ', 135a: second region 136:
136a: Round section 137: First projection
138: second projection 140: signal output section

Claims (11)

A circuit board operated by receiving power;
A housing forming an internal space in which the circuit board is embedded;
A pair of power supply terminals formed concavely on the outer surface of the housing and connected to the circuit board, both side walls on which the pair of power supply terminals are respectively installed, A battery receiving portion having a bottom formed to be varied;
A user input unit installed on an outer surface of the housing to generate a signal electrically input to the circuit board; And
And a signal output unit controlled by the circuit board and externally outputting a control signal corresponding to the input signal,
Wherein the bottom has a first region biased to one of the two side walls; And a second region having a height and a shorter length than the first region and having a surface parallel to the surface of the first region, the second region being offset from the other of the two side walls and occupying the remaining region excluding the first region, ; And a corner portion connecting the first region and the second region, wherein the corner portion includes a rounded connection. delete delete delete delete delete delete delete delete delete delete

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