JP2011222171A - Battery for tool - Google Patents

Abstract

PROBLEM TO BE SOLVED: To prevent significant increase of the size of a cell group when the capacity of a battery for a tool is increased and to suppress the manufacturing cost therefor.SOLUTION: A battery for a tool according to the present invention is configured to be coupled with a battery coupling part of the body of an electric tool by being slid in a predetermined direction with respect to the battery coupling part. The battery comprises a plurality of columnar cells S housed in a battery housing 32. The lengthwise dimension of the cells S is configured to be equal to or greater than 75 mm.

Description

  The present invention relates to a tool battery configured to be connected by being slid in a certain direction with respect to a battery connecting portion of an electric power tool body.

A tool battery related to this is described in Patent Document 1.
The tool battery described in Patent Document 1 is configured to be coupled to the electric tool body by being slid in a fixed direction in a fitted state with respect to the battery coupling portion of the electric tool body.
The tool battery is an 18V battery in which five 3.6V cylindrical cells are connected in series so that the axis of each cell is perpendicular to the slide direction of the tool battery (sideways). Has been placed. Here, as shown in Patent Document 2, the standard size of the cell is set such that the diameter dimension is 18 mm and the length dimension is 65 mm. Therefore, the vertical and horizontal sizes of the cell assembly (cell group) of the tool battery are 90 mm (18 mm × 5) in the vertical direction (sliding direction) and 65 mm in the horizontal (width direction). In the market for this tool battery, further capacity increase is desired.
As a method for increasing the capacity of a tool battery, as shown in Patent Document 3, a technique is disclosed in which two cells are connected in parallel and five sets of the parallel cells are connected in series. This doubles the capacity of the tool battery.

JP 2008-010315 A JP 2006-302759 A JP 2003-142051 A

However, with the method of connecting two cells in parallel and connecting 5 parallel cells in series, the size of the tool battery cell group increases and the weight doubles. Sex is reduced. In the market, it is not necessary to increase the capacity of the tool battery up to twice, but there is a demand for minimizing the size and weight of the tool battery.
For this reason, it is conceivable to increase the cell diameter as a method of increasing the capacity of the tool battery by a method other than doubling the number of cells. However, according to this method, it is necessary to remodel the cell production equipment, and it is also necessary to newly manufacture cell terminals, which increases costs.

  The present invention has been made to solve the above-described problems, and the problem to be solved by the present invention is to prevent the size of the cell group from significantly increasing when the capacity of the tool battery is increased. And helping to reduce costs.

The above-described problems are solved by the inventions of the claims.
The invention of claim 1 is a tool battery having a configuration in which the battery is connected by being slid in a fixed direction with respect to the battery connecting portion of the electric power tool body, and a plurality of columnar cells housed in the battery housing. The length dimension of the cell is set to 75 mm or more.

According to the present invention, the cell length dimension is set to 75 mm or more, and the capacity of each cell can be made larger than that of a standard cell (hereinafter, standard cell (length dimension is 65 mm)). For this reason, when increasing the capacity of the tool battery, even if the number of cells must be increased in a general tool battery using standard cells, the capacity should be increased without changing the number of cells. Is possible.
Furthermore, since only the length of the cell is increased, there is little modification of the cell production equipment, and it is not necessary to newly manufacture terminals, so that the cost can be reduced.
For this reason, even when the capacity of the tool battery is increased, the battery housing is not increased in size so that the capacity of the tool battery can be increased economically.

According to a second aspect of the present invention, the battery is arranged in a state where the axial direction of the cells coincides with the sliding direction of the battery housing and the cells are arranged in the lateral direction and the vertical direction so as not to be coaxial. It is housed in a housing.
For this reason, if the length dimension of the cell is increased for the purpose of increasing the capacity of the tool battery, the battery housing becomes longer in the sliding direction. The tool battery slide direction is provided with a space for sliding the tool battery into the power tool body, so there is always room for it, and even if the battery housing becomes longer in the slide direction, handle the power tool. There is no decline in sex.

According to the invention of claim 3, the electric power tool body is a screw tightening tool, and the lateral direction so that the axial direction of the cell coincides with the axial direction of the screw tightening tool and each of the cells is not coaxial. The battery housing is housed in the battery housing in a state of being arranged in the vertical direction.
For this reason, a battery housing becomes long in the axial direction (front-back direction) of a screw fastening tool. Here, in the case of the screw tightening tool, since the tip tool portion protrudes in the axial direction, even if the tool battery becomes long in the axial direction of the screw tightening tool, the handleability of the screw tightening tool does not deteriorate.

According to a fourth aspect of the present invention, the cell has a cylindrical shape with a diameter of about 18 mm and has a length dimension set to 90 mm or less.
In the battery for tools, it is desirable to increase the capacity within the range that does not exceed the dimensions of the cell group of vertical (sliding direction) 90mm (18mm x 5) and horizontal (width direction) 65mm, which is the mainstream in the market. .
In the present invention, since the length of the cell is set to 90 mm or less, the length in the sliding direction of the tool battery, which is the mainstream in the market, is not exceeded.

The invention according to claim 5 is characterized in that the sum of the width dimensions of the cells arranged in the horizontal direction is smaller than 65 mm.
In the present invention, since the sum of the width dimensions of the cells arranged in the lateral direction is smaller than 65 mm, the battery for the tool which is mainstream in the market, that is, for a tool having a cell group of 90 mm in the sliding direction × 65 mm in the width direction. The width of the battery is not exceeded.

According to the invention of claim 6, the length dimension of the cell is set between 130 mm and 140 mm.
For this reason, as described in Japanese Patent Application Laid-Open No. 2007-109650, compared to a configuration in which two cells are arranged in the axial direction, it is possible to increase the capacity by the amount that electrode components at the connection portion of the cell can be omitted. it can. Furthermore, cost reduction can be achieved.

  According to the present invention, when the capacity of the tool battery is increased, the size of the cell group does not increase significantly. Furthermore, cost can be suppressed.

It is a perspective view (A figure) showing the state which opened the battery housing of the battery for tools concerning Embodiment 1 of the present invention, and a perspective view (B figure) showing arrangement of a cell in a battery housing. It is the whole tool battery perspective view. It is a whole perspective view of an electric tool provided with the battery for tools. It is a perspective view showing the state which connects an electric tool main body and the battery for tools.

[Embodiment 1]
The tool battery according to Embodiment 1 of the present invention will be described below with reference to FIGS.
In addition, the front and rear, right and left described in the figure, and the upper and lower sides correspond to the front and rear, right and left and upper and lower of an electric tool provided with the tool battery.

<About the outline of electric tools>
First, before describing the tool battery 30, the electric tool 10 including the tool battery 30 will be briefly described with reference to FIGS.
The electric tool 10 is a screw tightening tool, and includes an electric tool main body 20 and a tool battery 30. The electric power tool body 20 includes a cylindrical housing portion 21 and a grip portion 22 formed so as to protrude downward from the lower surface side of the housing portion 21. A trigger-type switch lever 23 is provided at the upper end position (base end portion) of the grip portion 22. Further, a battery connecting portion 26 to which the tool battery 30 is connected is provided at the lower end portion (tip portion) of the grip portion 22. The battery connecting portion 26 is configured to be connected to the power tool main body 20 by the relative sliding of the tool battery 30 from the front to the rear.
In the housing part 21 of the electric power tool body 20, a motor (not shown) as a drive source and a tool rotating mechanism (not shown) that rotates the tool in response to the rotational force of the motor are accommodated coaxially. A chuck portion 25 for mounting a driver bit, a socket bit or the like (not shown) on the output shaft of the tool rotation mechanism protruding from the tip of the housing portion 21 is provided.
In other words, the axial direction of the electric power tool main body 20 matches the front-rear direction of the electric power tool main body 20, and further matches the sliding direction of the tool battery 30.

<About the tool battery 30>
As shown in FIGS. 1 and 2, the tool battery 30 includes an upper open housing body 32 that houses a plurality (5 in FIG. 2) of storage batteries S (hereinafter referred to as cells S), and a housing thereof. And a lid portion 34 that closes the opening of the main body portion 32. The housing main body portion 32 and the lid portion 34 are formed in a substantially rectangular shape, and the lid portion 34 can be screwed to the housing main body portion 32 at four locations. That is, the housing body 32 and the lid 34 correspond to the battery housing of the present invention.
As shown in FIG. 2, on the upper surface of the lid portion 34 of the tool battery 30, slide rails 36 used for connection with the battery connection portion 26 of the electric power tool body 20 extend in the front-rear direction on both the left and right sides. Is formed. The left and right slide rails 36 are composed of a rail main body portion 36m and a lateral ridge portion 36t that protrudes from the upper side surface of the rail main body portion 36m by a fixed dimension outward in the width direction. A stopper portion 36 u is formed at the rear end position of the left and right slide rails 36.

  A pair of left and right guide slits 37 in which a plate-like terminal (not shown) of the electric power tool main body 20 can be inserted from the front between the left and right slide rails 36 are formed on the front upper surface of the lid 34. It is formed in parallel with the slide rail 36. The positive electrode and the negative electrode of the tool battery 30 are installed inside the left and right guide slits 37. Further, an opening 34x is formed between the left and right guide slits 37, and the output connector 33 of the control circuit of the tool battery 30 projects from the opening 34x in a state of being directed rearward (see FIG. 4). ing.

  In order to connect the tool battery 30 to the electric tool body 20, as shown in FIG. 4, with respect to the ends of square grooves (not shown) formed on the left and right inner sides of the battery connecting portion 26 of the electric tool body 20. The ends of the lateral protrusions 36t formed on the left and right of the tool battery 30 are fitted. Next, the battery 30 for tools is slid back with respect to the electric tool main body 20 in the state which hold | maintained the said fitting state. As a result, the power tool body 20 and the tool battery 30 are mechanically coupled, and the left and right terminals (not shown) of the power tool body 20 are electrically connected to the positive electrode and the negative electrode of the tool battery 30, respectively. Connected.

<About Cell S of Tool Battery 30>
As shown in FIG. 1 and the like, the cell S is a lithium ion storage battery formed in a cylindrical shape, and is provided with a plus electrode Sp on one end side and a minus electrode Sn on the other end side. Further, the diameter of the cell S is set to 18 mm which is equal to the diameter of the standard cell, and the length dimension of the cell S is set to 90 mm or less. As a result, a current of 2 A (ampere) can flow in one cell S for about 1 hour (capacity = 2 Ah).
As shown in FIG. 1, five cells S are stored in a two-stage stack in the housing main body 32 of the tool battery 30. That is, the upper three cells S are arranged in parallel with their ends aligned, and the lower two cells S are also arranged in parallel with their ends aligned. ing. Then, the contact position between the upper cell S and the cell S overlaps the axial center position of the lower cell S, and the axial position of the upper cell S overlaps the contact position between the lower cell S and the cell S. Each cell S is positioned. Thereby, the height dimension of the cell S can be minimized while the five cells S are stacked in two stages.

Each cell S is housed in the housing body 32 so that the axial direction of the cells S coincides with the sliding direction of the tool battery 30 (the front-rear direction of the electric power tool body 20). That is, the size of the cell aggregate (cell group) is 90 mm or less in the length direction in the sliding direction, and the width dimension is 18 mm × 3 pieces = 54 mm.
For this reason, the length dimension (front-rear dimension) of the housing main body 32 does not exceed the length dimension of the battery housing when five standard cells (diameter 18 mm) are arranged side by side in the front-rear direction. Moreover, the width dimension (left-right dimension) of the housing main-body part 32 should just have a dimension which can arrange three cells S (diameter 18mm) side by side. That is, the width dimension (left-right dimension) of the housing body 32 is smaller than the width dimension of the battery housing when the standard cells (length dimension 65 mm) are arranged side by side in the front-rear direction.

<Advantages of Tool Battery 30 According to this Embodiment>
According to the tool battery 30 according to the present embodiment, the length dimension of the cell S is set to 90 mm or less (75 mm or more), and the capacity of each cell S is set to a standard cell (hereinafter, standard cell (length) The dimension can be larger than the capacity of 65mm)). For this reason, when increasing the capacity of the tool battery, even if the number of cells must be increased in a general tool battery using standard cells, the capacity should be increased without changing the number of cells. Is possible.
Furthermore, since only the length dimension of the cell S is increased, the production facilities of the cell S are hardly modified, and it is not necessary to newly manufacture terminals, so that the cost can be suppressed.
For this reason, even when the capacity of the tool battery 30 is increased, the housing main body 32 (battery housing) is not so large, and the capacity of the tool battery 30 can be increased economically.
Further, in the tool battery 30, the axial direction of the cells S coincides with the sliding direction of the housing main body 32 (the front-rear direction of the electric power tool main body 20), and the respective cells S are not coaxial, The battery housings are stored in the battery housing in a state of being arranged in the vertical direction. For this reason, when the length dimension of the cell S is increased from the standard dimension (65 mm) for the purpose of increasing the capacity of the tool battery 30, the housing main body 32 becomes longer in the front-rear direction of the electric power tool main body 20. For this reason, compared with the case where the housing main-body part 32 becomes long in the width direction, the handleability of the electric tool 10 comes to be improved in the state which attached the battery 30 for tools to the electric tool main body 20. FIG.
In addition, the battery 30 for the tool increases the capacity within a range not exceeding the dimension based on a cell group having a length dimension of 90 mm (18 mm × 5) and a width dimension of 65 mm, which is the mainstream in the market. It is desirable.
The tool battery 30 of the present embodiment has a length dimension of the cell group in the sliding direction of 90 mm or less and a width dimension of 18 mm × 3 pieces = 54 mm, so that it can be made more compact than the mainstream tool battery in the market.

<Example of change>
Here, the present invention is not limited to the above-described embodiment, and can be modified without departing from the gist of the present invention. For example, in the present embodiment, the cell S is manufactured with a diameter of 18 mm and a length dimension of 90 mm or less. However, the cell S can be manufactured with a diameter of 18 mm and a length dimension of 130 mm to 140 mm. In this way, by connecting the length of one cell S to, for example, two standard cells, it is possible to eliminate the connection part of the terminal, etc., compared to using two standard cells (18mm x 65mm). Capacity can be increased as much as possible.
Further, in the present embodiment, an example in which the diameter of the cell S is set to 18 mm is shown, but the diameter of the cell S can be set to 14 mm, which is equal to that of an AA battery, or 10.3 mm, which is equal to that of an AAA battery. It is also possible to set to.
Moreover, in this embodiment, the case where the slide direction of the battery 30 for tools and the axial direction of the electric tool main body 20 (screw fastening tool) correspond was illustrated. However, if the sliding direction of the tool battery 30 does not match the axial direction of the screw tightening tool, the arrangement of the cells S is changed so that the axial direction of the cell S matches the axial direction of the screw tightening tool. It is also possible to do.

20 Electric Tool Body 26 Battery Connection 30 Tool Battery 32 Housing Body (Battery Housing)
34 Lid (battery housing)
S battery

Claims (6)

A battery for a tool configured to be connected by being slid in a certain direction with respect to a battery connecting portion of the electric power tool body,
It has a plurality of columnar cells housed in the battery housing,
A battery for a tool, wherein a length of the cell is set to 75 mm or more. The tool battery according to claim 1,
The cells are accommodated in the battery housing in a state in which the axial direction of the cells coincides with the sliding direction of the battery housing and the cells are arranged in the horizontal direction and the vertical direction so as not to be coaxial. A tool battery characterized by the above. The tool battery according to claim 1,
The power tool body is a screw tightening tool,
The cells are accommodated in the battery housing in a state where they are aligned in the lateral direction and the vertical direction so that the axial direction of the cells coincides with the axial direction of the screw tightening tool and each of the cells is not coaxial. The battery for tools characterized by the above-mentioned. The battery for a tool according to any one of claims 2 and 3,
The battery for a tool, wherein the cell has a cylindrical shape with a diameter of about 18 mm and a length dimension is set to 90 mm or less. The battery for a tool according to any one of claims 2 and 3,
A battery for a tool, characterized in that the sum of the widths of the cells arranged in the horizontal direction is smaller than 65 mm. The battery for a tool according to any one of claims 2 and 3,
A battery for a tool, wherein a length of the cell is set between 130 mm and 140 mm.

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