KR20220033602A - Battery Pack For Electric Tool - Google Patents

Abstract

The present invention relates to a power tool battery pack mounted on a power tool to provide power to the power tool, including: a battery pack having a plurality of cells and a plurality of terminals electrically connecting the plurality of cells; and a dedicated terminal selectively coupled to the battery pack, wherein the battery pack includes a second contact terminal that is gradually released and short-circuited when the dedicated terminal is coupled to the battery pack. Therefore, the dedicated terminal is formed and coupled to the battery pack, and the output voltage of the battery pack can be changed, thereby facilitating a use.

Description

Battery Pack For Electric Tool

The present invention relates to a battery pack for a power tool, and more particularly, to a battery pack for a power tool capable of changing an output voltage of the battery pack as needed.

A power tool is a tool that has a built-in electric motor and is used to process metal or wood by using the torque. These power tools are supplied with power wirelessly through a wire or a battery. Recently, a wireless power tool equipped with a battery has been widely used for convenience of work and portability of the tool.

Power tools are driven using different voltages depending on the type of drill, screwdriver, hammer, etc., and power tools that implement the same function are also driven with different voltages depending on the working environment in which they are used.

Due to the characteristics of these power tools, conventional power tools use a dedicated battery pack, and different types of power tools cannot use the battery pack in common. As such, since a dedicated battery pack is required for each power tool, the manufacturer has to produce various battery packs for each output voltage, and there is a problem in that it is not easy to manage and the unit price is increased.

In addition, there is a problem in that the consumer has to be provided with several types of battery packs in accordance with the provision of various types of power tools, thereby increasing the cost.

An object of the present invention is to provide a battery pack for a power tool capable of changing the output voltage of the battery pack as devised to solve the problems of the prior art.

The present invention for achieving the above object, in order to provide power to the power tool, in a battery pack for a power tool mounted on the power tool, a plurality of cells are provided, and the plurality of cells are electrically connected a battery pack in which a plurality of terminals are formed; and a dedicated terminal selectively coupled to the battery pack, wherein the battery pack includes a second contact terminal that is gradually released and short-circuited when the dedicated terminal is coupled to the battery pack. .

Here, the output voltage of the battery pack is characterized in that it is different depending on whether the second contact terminal is short-circuited.

Also, the battery pack may further include a first contact terminal in which a contact state is maintained regardless of whether the dedicated terminal is coupled or not.

And, the second contact terminal, a fixing plate coupled to be fixed to the battery pack; and a floating plate coupled to the battery pack so as to be energized by being in contact with the fixed plate, and a part of the floating plate is short-circuited with the fixed plate while moving when the dedicated terminal is coupled to the battery pack.

In addition, the fixed plate, when the dedicated terminal is inserted into the battery pack, characterized in that it is arranged to be adjacent to the dedicated terminal rather than the movable plate.

In addition, the fixed plate is characterized in that one side that is in contact with the movable plate is cut and formed so that the dedicated terminal can pass therethrough.

And, the first contact terminal is characterized in that it is stacked on the upper side of the second contact terminal.

In addition, the first contact terminal, two plates spaced apart and disposed to face each other are formed, and the two plates are bent toward each other to form contact portions in contact with each other, so that electricity is conducted.

Here, the dedicated terminal may include: a terminal housing mounted on the battery pack; a short-circuit terminal protruding from one side of the terminal housing and having one end coupled to the second contact terminal; and a connection terminal formed through the terminal housing and having one end coupled to the first contact terminal.

In addition, the short-circuit terminal is formed of a non-conductive material, and when the dedicated terminal is coupled to the battery pack, the short-circuit terminal is coupled to the second contact terminal to release the contact state of the second contact terminal to short-circuit characterized by doing.

And, the connection terminal is formed of a material having a conductive property, and even when the dedicated terminal is coupled to the battery pack, the connection terminal is coupled to the first contact terminal to maintain the contact state of the first contact terminal characterized.

In addition, the connection terminal, the other end is formed to protrude to the other side of the terminal housing, when the battery pack for the power tool is mounted on the power tool, characterized in that coupled to the power tool is electrically connected.

And, the length of the short-circuit terminal protruding from one side of the terminal housing is formed to be longer than the length of the connection terminal, so that when the dedicated terminal is coupled to the battery pack, the short-circuit terminal is coupled to the second contact terminal. After the connection terminal is characterized in that it is coupled to the first contact terminal.

According to the problem solving means of the present invention, various effects including the following items can be expected.

First, by forming a dedicated terminal and coupling it to the battery pack, it is possible to change the output voltage of the battery pack, so that it is easy to use.

And, by having various types of dedicated terminals in one battery pack, it can be changed to various output voltages and used for power tools having different driving voltages.

That is, by having a dedicated terminal, the consumer can use various power tools with one battery pack, thereby reducing cost and facilitating storage.

In addition, the manufacturer can reduce the manufacturing cost of the battery pack, there is an effect that can reduce the production cost by easy product management.

It is not established that the present invention exhibits all of the above effects, and the various effects of the present invention are not limited to the above effects.

1 is a perspective view showing a battery pack for a power tool of the present invention.
FIG. 2 is an assembly view of the battery pack of FIG. 1 and a dedicated terminal;
3 is a perspective view of the battery pack with the cover of the battery pack of FIG. 2 removed.
4 is a perspective view of the first contact terminal and the second contact terminal of FIG. 3 .
FIG. 5 is a plan view of FIG. 4 .
FIG. 6 is a front view of FIG. 4 ;
7 is a perspective view of the dedicated terminal of FIG. 1 ;
8 is a side view of FIG. 7 ;
9 to 13 are side views and plan views illustrating a sequence in which dedicated terminals are fastened to the first and second contact terminals of FIG. 4 .

Hereinafter, a battery pack for a power tool according to an embodiment of the present invention will be described in detail based on the accompanying drawings.

1 to 13 are diagrams showing a battery pack for a power tool according to an embodiment, and FIG. 1 is a perspective view showing a battery pack for a power tool of the present invention, and FIG. 2 is a battery pack and a dedicated terminal of FIG. It is an assembly view, and FIG. 3 is a perspective view of the battery pack with the cover of the battery pack of FIG. 2 removed. 4 is a perspective view of the first and second contact terminals of FIG. 3 , FIG. 5 is a plan view of FIG. 4 , and FIG. 6 is a front view of FIG. 4 . Also, FIG. 7 is a perspective view of the dedicated terminal of FIG. 1 , and FIG. 8 is a side view of FIG. 7 . In addition, FIGS. 9 to 13 are side and plan views illustrating the order in which the dedicated terminal is fastened to the first and second contact terminals of FIG. 4 .

As shown in these drawings, in the battery pack for a power tool according to an embodiment of the present invention, a plurality of cells (not shown) are mounted, and a plurality of terminals for electrically connecting the plurality of cells are formed in the battery pack ( 100 ) and a dedicated terminal 200 coupled to the battery pack 100 .

In the present invention, a detailed description of the general configuration of the battery pack 100 will be omitted.

The battery pack 100 is mounted on the power tool to transmit power to the power tool, and a plurality of rechargeable cells are combined. The plurality of cells are provided in different numbers according to the capacity of the battery pack 100 , that is, the output voltage. In addition, the plurality of cells are electrically connected to a circuit of a printed circuit board (not shown) in various arrangement combinations. In addition, a plurality of terminals are disposed on the printed circuit board and electrically connected to the plurality of cells, thereby providing power in contact with external terminals.

The battery pack 100 is provided with a cover 110 in which a plurality of cells, a printed circuit board, and a plurality of terminals are protected from the outside. That is, a plurality of cells, a printed circuit board, a plurality of terminals, etc. are coupled and built in the cover 110 . In the cover 110 , a terminal opening 111 is formed so that a plurality of terminals coupled to the inside of the battery pack 100 can be electrically connected to an external terminal such as a power tool. The terminal opening 111 is a plurality of slits formed by cutting a part of the cover 110 , and is formed at a position where a plurality of terminals are disposed.

As such, the plurality of terminals electrically connected to the external terminal through the terminal opening 111 are coupled to the inside of the battery pack 100 as shown in FIG. 3 . Here, the plurality of terminals includes a first contact terminal 120 and a second contact terminal 130 .

The first contact terminal 120 is always maintained in a contact state, and two plates (not shown) are spaced apart and disposed to face each other. At this time, the two plates are bent toward each other to form a contact portion 121 in contact with each other. In more detail, the two plates are formed in a longitudinal direction toward the terminal opening 111 of the cover 110 , and a portion of one side adjacent to the terminal opening 111 is bent. At this time, the contact portion 121 is formed by making contact with the other plates facing each other. In this way, the two plates of the first contact terminal 120 are electrically connected by being interviewed through the contact portion 121 to conduct electricity. At this time, it is preferable that the two plates have sufficient elasticity so that the contact portion 121 is contacted with each other while being pressed with a predetermined force to stably maintain an electrical connection. In this way, a connection terminal 230 of a dedicated terminal 200 to be described later is inserted into the contact portion 121 that is in contact with the surface, so that the first contact terminal 120 and the connection terminal 230 are electrically connected.

The second contact terminal 130 is short-circuited when a dedicated terminal 200 to be described later is coupled to the battery pack 100 , and is disposed below the first contact terminal 120 . In more detail, the second contact terminal 130 is composed of a fixed plate 131 coupled to be fixed to the battery pack 100 and a movable plate 132 coupled so that a part thereof can flow.

The fixed plate 131 is energized by being in contact with a portion of the flow plate 132 , and at this time, one side that is in contact with the flow plate 132 is cut and formed. In detail, as shown in the drawings, one side in contact with the flow plate 132 is cut to form a U-shape. Here, the cut-out position is a position where the short-circuit terminal 220 of the dedicated terminal 200 to be described later is inserted, and the short-circuit terminal 220 passes through the fixing plate 131 . Accordingly, in the present invention, as shown in the drawings, it is described as being cut and formed in a U-shape as an example, but it may be formed in a hole shape through which the short-circuit terminal 220 can pass. That is, if the short-circuit terminal 220 is formed so as to only pass through the fixing plate 131, its shape is not limited.

The floating plate 132 is coupled to be energized by being in contact with the fixed plate 131 as mentioned above, and is coupled to the battery pack 100 so that a part of the fixed plate 131 and the surface of the fixed plate 131 can flow. As shown by the dotted line in FIG. 5 , the floating plate 132 is partly interviewed with the fixed plate 131 , and the interviewed part flows. At this time, the movable part is interviewed with one side of the fixed plate 131 through which the short-circuit terminal 220 passes. And, when the short-circuit terminal 220 of the dedicated terminal 200 penetrates the fixed plate 131 and presses the floating plate 132, it is pushed out as shown by the dotted line in the figure and is short-circuited with the fixed plate 131. Conversely, when the dedicated terminal 200 is separated from the battery pack 100 , the movable plate 132 is energized by interviewing the fixed plate 131 while returning as shown by the solid line in the figure. Therefore, it is preferable that the movable plate 132 has a predetermined elasticity to move toward the fixed plate 131 so that, when the dedicated terminal 200 is separated, it is possible to stably maintain electricity.

In addition, one side of the movable plate 132 in contact with the short-circuit terminal 220 may be bent to form an inclined surface. When the inclined surface is formed on the flow plate 132 , the end of the short circuit terminal 220 stably presses the flow plate 132 so that the flow plate 132 can be short-circuited away from the fixed plate 131 .

As described, the second contact terminal 130 is fixed while the dedicated terminal 200 is coupled to the battery pack 100 and the short-circuit terminal 220 is coupled to the short-circuit terminal 220 while pressing the movable plate 132 . The plate 131 and the flow plate 132 are separated from each other and short-circuited. Accordingly, the second contact terminal 130 is preferably arranged so that the fixed plate 131 is adjacent to the dedicated terminal 200 rather than the movable plate 132 . That is, the fixing plate 131 is disposed closer to one side into which the dedicated terminal 200 is inserted.

Such a second contact terminal 130 may be disposed below the first contact terminal 120 , to be precise, the contact portion 121 of the first contact terminal 120 and the fixed plate 131 and the flow. The position where the plate 132 is interviewed is located on the same line as the direction in which the dedicated terminal 200 is inserted. As such, the contact points of the first contact terminal 120 and the second contact terminal 130 are positioned on the same line as the coupling direction of the dedicated terminal 200, so that energization and short circuiting can be performed stably. In this regard, it will be described in more detail later.

In addition, in order to allow the contact points of the first contact terminal 120 and the second contact terminal 130 to be located on the same line, the first contact terminal 120 and the second contact terminal 130 are stacked vertically. The first contact terminal 120 and the second contact terminal 130 may be formed in a plurality of numbers depending on the combination of cells of the battery pack 100, and the number is not limited. .

In this way, by making the two terminals stacked up and down, the space inside the battery pack 100 can be efficiently utilized by disposing the terminals in a small area. Therefore, it is possible to downsize the battery pack 100, and there is an effect of reducing the weight,

In addition, by arranging the contact points of the first contact terminal 120 and the second contact terminal 130 to be located on the same line, the short-circuit terminal 220 and the connection terminal 230 of the dedicated terminal 200 to be described later are also As it is formed on the same line, it is possible to match the exact position, so that the design is easy.

However, in the present invention, the contact points of the first contact terminal 120 and the second contact terminal 130 are located on the same line and arranged vertically for efficient conduction and short circuit, but the function described in the present invention is not provided. The arrangement is not limited as long as it can be performed.

As described above, the dedicated terminal 200 is coupled to the battery pack 100 in which the first contact terminal 120 and the second contact terminal 130 stacked up and down are formed. The dedicated terminal 200 allows the output voltage of the battery pack 100 to be changed, and as shown in FIGS. 7 and 8 , a terminal housing 210 , a short circuit terminal 220 and a connection terminal 230 . is composed

The terminal housing 210 is a body of the dedicated terminal 200 that is seated on the battery pack 100 , and a short-circuit terminal 220 and a connection terminal 230 are formed therein. More specifically, the terminal housing 210 is formed in a 'L' shape to sufficiently cover the terminal opening 111 of the cover 110 . In this way, when the terminal housing 210 is made to cover the terminal opening 111 , after the dedicated terminal 200 is coupled to the battery pack 100 as necessary, unintentional electrical power is generated through the terminal opening 111 . By preventing a connection from occurring, safety can be improved.

In such a terminal housing 210, a connection terminal 230 and a short-circuit terminal 220 inserted into the terminal opening 111 and respectively coupled to the first contact terminal 120 and the second contact terminal 130 are formed. do.

The short-circuit terminal 220 is protruded from one side of the terminal housing 210 facing the terminal opening 111 , and is inserted into the battery pack 100 to be coupled to the second contact terminal 130 . formed of sufficient length. In detail, the short-circuit terminal 220 inserted into the battery pack 100 passes through the fixed plate 131 and presses and flows the floating plate 132 to form the fixed plate 131 and the floating plate 132 . ) are spaced apart from each other and short-circuited. As such, the short-circuit terminal 220 is formed of a non-conductive material, such as plastic, so that the fixed plate 131 and the movable plate 132 are not energized even when shake occurs due to an external impact or the like.

As such, when the dedicated terminal 200 is coupled to the battery pack 100 , the second contact terminal 130 is short-circuited by the short-circuit terminal 220 , thereby changing the output voltage of the battery pack 100 .

The connection terminal 230 is formed through the terminal housing 210, and in more detail, one end is formed to be elongated in the same direction as the short-circuit terminal 220, and the first contact terminal ( It is coupled to 120 , and the other end is formed to protrude toward the other side of the terminal housing 210 . When the dedicated terminal 200 is coupled to the battery pack 100 , the power tool is coupled to the exclusive terminal 200 rather than the battery pack 100 , in this case, the power tool is formed to be elongated to the other side of the terminal housing 210 . It is coupled to the protruding connection terminal 230 and is electrically connected to the battery pack 100 .

To this end, the connection terminal 230 is formed of a conductive material, and one end and the other end are respectively connected to the first contact terminal 120 and the power tool, thereby electrically connecting the battery pack 100 and the power tool to power to be supplied.

Although the drawing of the present invention shows that the connection terminal 230 is formed in a plate shape and coupled through the terminal housing 210, the present invention is not limited thereto. For example, one end protruding from one side of the terminal housing 210 and inserted into the terminal opening 111 and the other end connected to the power tool may not be formed on the same line. More specifically, the plate may be bent at one point to form a curved plate, and one end and the other end may be formed on different lines, and the bent portion may be embedded in the terminal housing 210 to be integrally formed. Alternatively, one end and the other end may be separated and coupled to the terminal housing 210, respectively, and then formed to be electrically connected.

That is, as long as one end of the connection terminal 230 is electrically connected to the first contact terminal 120 of the battery pack 100 and the other end is electrically connected to the power tool, the shape is not limited.

As described above, both the short-circuit terminal 220 and the connection terminal 230 are inserted into the battery pack 100 through the terminal opening 111. At this time, the short-circuit terminal 220 is formed longer than the connection terminal 230, First, it is preferable to be inserted into the battery pack 100 .

That is, when the dedicated terminal 200 is coupled to the battery pack 100 as shown in FIGS. 9 to 13 , the short-circuit terminal 220 is first inserted into the battery pack 100 and the first contact terminal ( 120) and enters the lower part. And, when it is adjacent to the second contact terminal 130, the second contact terminal 130 is short-circuited by penetrating the fixed plate 131 and pressing the movable plate 132 to the contact state of the second contact terminal 130. to be released.

And, when the short-circuit terminal 220 is coupled and the contact state of the second contact terminal 130 is released, the end of the connection terminal 230 is inserted into the contact portion 121 of the first contact terminal 120 to make the first It is electrically connected to the contact terminal 120 .

In this way, after the second contact terminal 130 is short-circuited first, and then the first contact terminal 120 and the connection terminal 230 are electrically connected, the output voltage of the battery pack 100 can be changed safely. there is. In addition, when the dedicated terminal 200 is first coupled to the battery pack 100 and then the power tool is not coupled, the exclusive terminal 200 is first coupled to the power tool and then coupled to the battery pack 100 . , The second contact terminal 130 is short-circuited first to release the contact state, and then is electrically connected to the first contact terminal 120 to supply power, thereby preventing the problem of transmitting an output voltage that is not suitable for the power tool. can have an effect.

In the present invention, as described above, the contact point of the first contact terminal 120 and the second contact terminal 130 is formed on the same line, and the contact point of the first contact terminal 120 is the second contact terminal 130 . ) is disposed so as to be adjacent to the terminal opening 111 rather than the contact point. And, in the dedicated terminal 200, the short-circuit terminal 220 is formed longer than the connection terminal 230, so that the second contact terminal 130 is short-circuited first before being energized with the first contact terminal 120.

However, this is only one design example for ease of design and arrangement of terminals, and when the dedicated terminal 200 is coupled to the battery pack 100, the first contact terminal 120 is short-circuited first, and then the second contact terminal ( If 130) is energized, the position of the contact point of the first contact terminal 120 and the second contact terminal 130 and the length of the short-circuit terminal 220 and the connection terminal 230 are not limited and can be freely designed. there is.

As described above, in the present invention, the output voltage of the battery pack 100 can be changed by forming the dedicated terminal 200 and coupling it to the battery pack 100 . Accordingly, by providing various types of dedicated terminals 200 in one battery pack 100 , it is possible to change the output voltage to various output voltages and use it for power tools having different driving voltages.

That is, by having the dedicated terminal 200 , the consumer can use various power tools with one battery pack 100 , thereby reducing cost and facilitating storage.

In addition, the manufacturer can reduce the manufacturing cost of the battery pack 100, and it is easy to manage the product, thereby reducing the production cost.

Since the above has only been described with respect to a part of one preferred embodiment that can be implemented by the present invention, the scope of the present invention as noted should not be construed as being limited to one embodiment, and the present invention described above It will be said that the technical idea and the technical idea accompanying the fundamental are all included in the scope of the present invention.

100: battery pack 110: cover
111: terminal opening 120: first contact terminal
121: contact unit 130: second contact terminal
131: fixed plate 132: floating plate
200: dedicated terminal 210: terminal housing
220: short-circuit terminal 230: connection terminal

Claims (13)

In the power tool battery pack mounted on the power tool to provide power to the power tool,
a battery pack 100 having a plurality of cells and having a plurality of terminals electrically connecting the plurality of cells; and
a dedicated terminal 200 selectively coupled to the battery pack 100;
including,
The battery pack 100,
a second contact terminal 130 that is gradually released and short-circuited when the dedicated terminal 200 is coupled to the battery pack 100;
A battery pack for power tools comprising a.
The method according to claim 1,
The battery pack for a power tool, characterized in that the output voltage of the battery pack (100) is different depending on whether the second contact terminal (130) is short-circuited.
The method according to claim 1,
The battery pack 100,
a first contact terminal 120 that maintains a contact state regardless of whether the dedicated terminal 200 is coupled;
Battery pack for power tools, characterized in that it further comprises.
4. The method according to claim 3,
The second contact terminal 130,
a fixing plate 131 coupled to be fixed to the battery pack 100; and
It is coupled to the battery pack 100 so as to be energized by being in contact with the fixing plate 131 , but when the dedicated terminal 200 is coupled to the battery pack 100 , a part is moved and shorted with the fixing plate 131 . being a floating plate 132;
A battery pack for power tools comprising a.
5. The method according to claim 4,
The fixed plate 131 is for power tools, characterized in that when the dedicated terminal 200 is inserted into the battery pack 100, it is arranged to be adjacent to the dedicated terminal 200 rather than the movable plate 132. battery pack.
6. The method of claim 5,
The fixed plate 131 is a battery pack for a power tool, characterized in that formed by cutting one side that faces the movable plate 132 so that the dedicated terminal 200 can pass therethrough.
7. The method of claim 6,
The first contact terminal (120) is a battery pack for a power tool, characterized in that it is stacked on the upper side of the second contact terminal (130).
7. The method of claim 6,
The first contact terminal 120,
Two plates spaced apart and disposed to face are formed,
The two plates are bent toward each other to form a contact portion 121 in contact with each other, whereby electricity is supplied to the battery pack for a power tool.
9. The method according to any one of claims 3 to 8,
The dedicated terminal 200,
a terminal housing 210 mounted on the battery pack 100;
a short-circuit terminal 220 protruding from one side of the terminal housing 210 and having one end coupled to the second contact terminal 130; and
a connection terminal 230 formed through the terminal housing 210 and having one end coupled to the first contact terminal 120 ;
A battery pack for power tools comprising a.
10. The method of claim 9,
The short-circuit terminal 220 is formed of a non-conductive material,
When the dedicated terminal 200 is coupled to the battery pack 100, the short-circuit terminal 220 is coupled to the second contact terminal 130 to release the contact state of the second contact terminal 130, Battery pack for power tools, characterized in that the short circuit.
10. The method of claim 9,
The connection terminal 230 is formed of a conductive material,
Even when the dedicated terminal 200 is coupled to the battery pack 100 , the connection terminal 230 is coupled to the first contact terminal 120 to maintain the contact state of the first contact terminal 120 . Battery pack for power tools, characterized in that.
12. The method of claim 11,
The connection terminal 230 is,
The other end is formed to protrude toward the other side of the terminal housing 210,
When the battery pack for the power tool is mounted on the power tool, the battery pack for a power tool, characterized in that it is coupled to the power tool and electrically connected.
10. The method of claim 9,
The length of the short-circuit terminal 220 protruding to one side of the terminal housing 210 is longer than the length of the connection terminal 230,
When the dedicated terminal 200 is coupled to the battery pack 100,
After the shorting terminal 220 is coupled to the second contact terminal 130 , the connection terminal 230 is coupled to the first contact terminal 120 .

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