JP6617911B2 - Electric tool - Google Patents

Electric tool Download PDF

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Publication number
JP6617911B2
JP6617911B2 JP2015154072A JP2015154072A JP6617911B2 JP 6617911 B2 JP6617911 B2 JP 6617911B2 JP 2015154072 A JP2015154072 A JP 2015154072A JP 2015154072 A JP2015154072 A JP 2015154072A JP 6617911 B2 JP6617911 B2 JP 6617911B2
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operation member
electrode portions
reverse
tool according
power tool
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JP2017030111A (en
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直規 鶴田
直規 鶴田
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Panasonic Intellectual Property Management Co Ltd
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Panasonic Intellectual Property Management Co Ltd
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Priority to JP2015154072A priority Critical patent/JP6617911B2/en
Priority to EP16180371.3A priority patent/EP3138662B1/en
Priority to CN201610580206.5A priority patent/CN106426008B/en
Publication of JP2017030111A publication Critical patent/JP2017030111A/en
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B25HAND TOOLS; PORTABLE POWER-DRIVEN TOOLS; MANIPULATORS
    • B25FCOMBINATION OR MULTI-PURPOSE TOOLS NOT OTHERWISE PROVIDED FOR; DETAILS OR COMPONENTS OF PORTABLE POWER-DRIVEN TOOLS NOT PARTICULARLY RELATED TO THE OPERATIONS PERFORMED AND NOT OTHERWISE PROVIDED FOR
    • B25F5/00Details or components of portable power-driven tools not particularly related to the operations performed and not otherwise provided for
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01HELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
    • H01H9/00Details of switching devices, not covered by groups H01H1/00 - H01H7/00
    • H01H9/02Bases, casings, or covers
    • H01H9/06Casing of switch constituted by a handle serving a purpose other than the actuation of the switch, e.g. by the handle of a vacuum cleaner
    • H01H9/061Casing of switch constituted by a handle serving a purpose other than the actuation of the switch, e.g. by the handle of a vacuum cleaner enclosing a continuously variable impedance

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Portable Power Tools In General (AREA)

Description

本発明は、電動工具に関する。   The present invention relates to a power tool.

従来、電動工具としては、正逆方向に回動操作可能な操作部材を備え、その操作部材と一体的に回動する接点が回路基板上に設けられた可変抵抗部としての印刷抵抗に摺接されることで、操作部材の操作量(回動量)に応じた電圧値信号が生成されるものがある。この電動工具の回路基板には、操作部材が操作される正逆方向の両方向に対応した位置にそれぞれ可変抵抗部(印刷抵抗)が設けられている(例えば、特許文献1参照)。即ち、回路基板には、操作部材を正方向に回動操作した場合に接点が摺接する可変抵抗部(印刷抵抗)と、操作部材を逆方向に回動操作した場合に接点が摺接する可変抵抗部(印刷抵抗)とが設けられている。これにより、操作部材を正逆どちらに操作しても、その操作量(回動量)に応じた電圧値信号を生成することができ、その電圧値信号に応じて駆動源を駆動させることができる。   Conventionally, an electric tool has an operation member that can be rotated in forward and reverse directions, and a contact that rotates integrally with the operation member is in sliding contact with a printing resistor as a variable resistance portion provided on a circuit board. As a result, a voltage value signal corresponding to the operation amount (rotation amount) of the operation member is generated. The circuit board of the electric tool is provided with variable resistance portions (printing resistances) at positions corresponding to both the forward and reverse directions in which the operation member is operated (see, for example, Patent Document 1). That is, the circuit board includes a variable resistance portion (printing resistance) that contacts when the operating member is rotated in the forward direction and a variable resistance that contacts when the operating member is rotated in the reverse direction. Part (printing resistance). As a result, regardless of whether the operating member is operated forward or backward, a voltage value signal corresponding to the operation amount (rotation amount) can be generated, and the drive source can be driven according to the voltage value signal. .

特開2010−155295号公報JP 2010-155295 A

しかしながら、上記した電動工具では、操作部材を操作する方向毎に可変抵抗部(印刷抵抗)が必要で無駄が多いという問題があった。
本発明は、上記課題を解決するためになされたものであって、その目的は、回路基板における無駄が少ない電動工具を提供することにある。
However, the above-described electric tool has a problem that a variable resistance portion (printing resistance) is required for each direction in which the operation member is operated, which is wasteful.
The present invention has been made to solve the above-described problems, and an object of the present invention is to provide an electric tool with little waste in a circuit board.

上記課題を解決する電動工具は、可動接点を有し正逆方向に操作可能な操作部材と、前記可動接点が摺接され、前記操作部材の操作量に応じた電圧値信号を生成可能な回路基板とを備えた電動工具であって、前記回路基板は、前記正逆方向の両方向に対応した位置に、それぞれ前記操作部材の操作量に応じて前記可動接点と接触する複数の電極部を有し、正方向の複数の電極部と逆方向の複数の電極部とは、共通の可変抵抗部に電気的に接続される。   An electric power tool that solves the above-described problem includes an operation member that has a movable contact and can be operated in the forward and reverse directions, and a circuit that can slide the movable contact and generate a voltage value signal corresponding to the operation amount of the operation member. The circuit board has a plurality of electrode portions that are in contact with the movable contact in accordance with the operation amount of the operation member, at positions corresponding to both the forward and reverse directions. The plurality of positive electrode portions and the plurality of reverse electrode portions are electrically connected to a common variable resistance portion.

本発明の電動工具によれば、回路基板における無駄を少なくすることができる。   According to the electric tool of the present invention, waste in the circuit board can be reduced.

一実施形態における電動工具の側面図である。It is a side view of the electric tool in one embodiment. (a)(b)は一実施形態における回路基板の両面図である。(A) (b) is a double-side view of the circuit board in one embodiment. 一実施形態における電動工具の回路構成図である。It is a circuit block diagram of the electric tool in one Embodiment. 別例における電動工具の回路構成図である。It is a circuit block diagram of the electric tool in another example.

以下、電動工具の一実施形態を図1〜図3に従って説明する。
図1に示すように、電動工具10は、電動工具本体11と、電動工具本体11に対して回動可能な把持部12とを有する。
Hereinafter, an embodiment of an electric power tool will be described with reference to FIGS.
As shown in FIG. 1, the electric tool 10 includes an electric tool main body 11 and a grip portion 12 that can rotate with respect to the electric tool main body 11.

電動工具本体11は、その先端(前端)にドライバービットやタップ等の先端工具が装着される工具装着部13が設けられ、基端側には正逆方向に回動操作可能な操作部材14が設けられている。   The power tool main body 11 is provided with a tool mounting portion 13 on which a front end tool such as a driver bit or a tap is mounted at the front end (front end), and an operation member 14 that can be rotated in the forward and reverse directions on the base end side. Is provided.

図1及び図2(b)に示すように、操作部材14は、円筒状の外周に操作レバー14aが凸設された形状に形成され、電動工具本体11の幅方向両側に形成された開口部11aから操作レバー14aが突出するように設けられている。この操作部材14は、図示しない付勢部材によって、操作レバー14aが開口部11aにおける中間位置と対応した位置(中立位置)に付勢された状態で回動可能に支持され、その中立位置から正逆方向に回動操作可能とされている。   As shown in FIGS. 1 and 2B, the operation member 14 is formed in a shape in which an operation lever 14 a is protruded on a cylindrical outer periphery, and is formed on both sides in the width direction of the power tool body 11. The operation lever 14a protrudes from 11a. The operation member 14 is rotatably supported by a biasing member (not shown) in a state where the operation lever 14a is biased to a position (neutral position) corresponding to the intermediate position in the opening 11a. It can be rotated in the opposite direction.

又、図2(b)に模式的に示すように、操作部材14は、回動操作されると一体的に回動する第1可動接点14b及び第2可動接点14cを有している。
そして、電動工具本体11は、操作部材14の回動軸方向に、前記第1及び第2可動接点14b,14cが摺接され、操作部材14の操作量(回動量)に応じた電圧値信号Sを生成可能な回路基板15を備えている。
Further, as schematically shown in FIG. 2B, the operation member 14 has a first movable contact 14b and a second movable contact 14c that rotate integrally when being rotated.
The power tool body 11 is slidably contacted with the first and second movable contacts 14b and 14c in the direction of the rotation axis of the operation member 14, and a voltage value signal corresponding to the operation amount (rotation amount) of the operation member 14. A circuit board 15 capable of generating S is provided.

また、図1に示すように、電動工具本体11は、前記電圧値信号Sに応じてPWM制御される直流モータMを備え、前記工具装着部13は、直流モータMに動力伝達機構を介して連結されて該直流モータMの回転駆動力によって回転駆動されることになる。   As shown in FIG. 1, the electric tool main body 11 includes a DC motor M that is PWM-controlled according to the voltage value signal S, and the tool mounting portion 13 is connected to the DC motor M via a power transmission mechanism. It is connected and is rotationally driven by the rotational driving force of the DC motor M.

ここで、図2(b)に示すように、回路基板15は、その一方の面において操作部材14の(中立位置からの)正逆方向の両方向に対応した位置に、それぞれ操作部材14の操作量に応じて第1可動接点14bと接触する複数の電極部P1a,P1b,P2a,P2b,P3a,P3b,P4a,P4b,P5a,P5b,PZa,PZbを有する。詳しくは、回路基板15の一方の面には、中立位置にある第1可動接点14bから正方向側に電極部P1a,P2a,P3a,P4a,P5a,PZaがこの順で並設されている。また、回路基板15の一方の面には、中立位置にある第1可動接点14bから逆方向側に電極部P1b,P2b,P3b,P4b,P5b,PZbがこの順で並設されている。これにより、第1可動接点14bは、操作部材14が正方向に操作されると、その操作量に応じて電極部P1a,P2a,P3a,P4a,P5a,PZaとこの順で順次接触することになる。また、第1可動接点14bは、操作部材14が逆方向に操作されると、その操作量に応じて電極部P1b,P2b,P3b,P4b,P5b,PZbとこの順で順次接触することになる。また、回路基板15は、その一方の面に、操作部材14が中立位置にある状態で、第1可動接点14bと接触する中立時電極部PGNDを有している。また、回路基板15は、その一方の面に、操作部材14の(操作可能範囲内の)操作量に関わらず第1可動接点14bと接触する第1共通電極部PK1を有している。   Here, as shown in FIG. 2 (b), the circuit board 15 operates the operating member 14 at positions corresponding to both the forward and reverse directions (from the neutral position) of the operating member 14 on one surface thereof. A plurality of electrode portions P1a, P1b, P2a, P2b, P3a, P3b, P4a, P4b, P5a, P5b, PZa, and PZb are brought into contact with the first movable contact 14b according to the amount. Specifically, on one surface of the circuit board 15, electrode portions P1a, P2a, P3a, P4a, P5a, and PZa are arranged in parallel in this order from the first movable contact 14b in the neutral position to the positive direction side. Further, on one surface of the circuit board 15, electrode portions P1b, P2b, P3b, P4b, P5b, and PZb are arranged in parallel in this order from the first movable contact 14b in the neutral position to the opposite direction side. Thus, when the operation member 14 is operated in the forward direction, the first movable contact 14b sequentially contacts the electrode portions P1a, P2a, P3a, P4a, P5a, and PZa in this order according to the operation amount. Become. Further, when the operation member 14 is operated in the reverse direction, the first movable contact 14b sequentially contacts the electrode portions P1b, P2b, P3b, P4b, P5b, and PZb in this order according to the operation amount. . Further, the circuit board 15 has a neutral electrode portion PGND that contacts the first movable contact 14b in a state where the operation member 14 is in a neutral position on one surface thereof. Further, the circuit board 15 has a first common electrode portion PK1 that is in contact with the first movable contact 14b regardless of the operation amount (within the operable range) of the operation member 14 on one surface thereof.

また、回路基板15は、その一方の面において操作部材14の(中立位置からの)正逆方向の両方向に対応した位置に、それぞれ操作部材14が操作(中立位置から回動)されると第2可動接点14cと接触する操作時電極部P11a,P11bを有する。また、回路基板15は、その一方の面に、操作部材14の(操作可能範囲内の)操作量に関わらず第2可動接点14cと接触する第2共通電極部PK2を有する。   Further, when the operation member 14 is operated (rotated from the neutral position) to the position corresponding to both the forward and reverse directions (from the neutral position) of the operation member 14 on one surface thereof, the circuit board 15 is changed to the first position. 2 It has electrode part P11a, P11b at the time of operation which contacts the movable contact 14c. Further, the circuit board 15 has a second common electrode portion PK2 that is in contact with the second movable contact 14c regardless of the operation amount (within the operable range) of the operation member 14 on one surface thereof.

また、図2(a)に示すように、回路基板15の他方の面には、複数のダイオードD1〜D5と複数の抵抗素子R1〜R3が実装されている。尚、本実施形態では、直列に接続された抵抗部材としての抵抗素子R1及びダイオードD1〜D5によって可変抵抗部16(図3参照)が構成されている。   Further, as shown in FIG. 2A, a plurality of diodes D1 to D5 and a plurality of resistance elements R1 to R3 are mounted on the other surface of the circuit board 15. In the present embodiment, the variable resistor portion 16 (see FIG. 3) is configured by the resistor element R1 and the diodes D1 to D5 as resistor members connected in series.

また、回路基板15には、外部電源入力端子(コネクタ)VIN、操作検知端子SWIN、電源端子VCC、分圧端子VR、及びグランド端子GNDが設けられている。
次に、電動工具10の回路構成について図3に従って説明する。
In addition, the circuit board 15 is provided with an external power input terminal (connector) VIN, an operation detection terminal SWIN, a power supply terminal VCC, a voltage dividing terminal VR, and a ground terminal GND.
Next, the circuit configuration of the electric power tool 10 will be described with reference to FIG.

図3に示すように、電動工具10は、前記回路基板15と、前記直流モータMと、バッテリBと、切り替えスイッチSWと、制御部としての制御回路21と、スイッチング素子22とを備える。   As shown in FIG. 3, the electric tool 10 includes the circuit board 15, the DC motor M, a battery B, a changeover switch SW, a control circuit 21 as a control unit, and a switching element 22.

そして、図3に示すように、前記回路基板15は、外部電源入力端子VINが切り替えスイッチSWを介してバッテリBに接続され、操作検知端子SWIN、電源端子VCC、分圧端子VR、及びグランド端子GNDがそれぞれ制御回路21に接続されている。この制御回路21は、操作検知端子SWINからの電源供給に基づいて電源端子VCCに電源を供給し、分圧端子VRからの電圧値信号Sに応じたデューティ比のパルス信号をスイッチング素子22の制御端子に出力するものである。   As shown in FIG. 3, the circuit board 15 has an external power supply input terminal VIN connected to the battery B via the changeover switch SW, an operation detection terminal SWIN, a power supply terminal VCC, a voltage dividing terminal VR, and a ground terminal. Each GND is connected to the control circuit 21. The control circuit 21 supplies power to the power supply terminal VCC based on power supply from the operation detection terminal SWIN, and controls the switching element 22 to output a pulse signal having a duty ratio corresponding to the voltage value signal S from the voltage dividing terminal VR. Is output to the terminal.

前記回路基板15において、外部電源入力端子VINは操作時電極部P11a,P11bに接続され、第2共通電極部PK2は操作検知端子SWINに接続されている。これにより、操作部材14が操作(中立位置からいずれかの方向に回動)されると第2可動接点14cによって操作検知端子SWINが外部電源入力端子VIN(バッテリB)に接続されることになる。   In the circuit board 15, the external power input terminal VIN is connected to the operation electrode portions P11a and P11b, and the second common electrode portion PK2 is connected to the operation detection terminal SWIN. Thus, when the operation member 14 is operated (turned in any direction from the neutral position), the operation detection terminal SWIN is connected to the external power input terminal VIN (battery B) by the second movable contact 14c. .

また、回路基板15において、前記電源端子VCCは、可変抵抗部16(詳しくは抵抗素子R1、ダイオードD1、ダイオードD2、ダイオードD3、ダイオードD4、及びダイオードD5)を介してグランド端子GNDに接続されている。   In the circuit board 15, the power supply terminal VCC is connected to the ground terminal GND via the variable resistor 16 (specifically, the resistor element R 1, the diode D 1, the diode D 2, the diode D 3, the diode D 4, and the diode D 5). Yes.

また、回路基板15において、前記中立時電極部PGNDは、ダイオードD5のカソード、即ちグランド端子GNDに接続されている。また、前記電極部P1a,P1bは、ダイオードD4のカソードに接続されている。また、前記電極部P2a,P2bは、ダイオードD3のカソードに接続されている。また、前記電極部P3a,P3bは、ダイオードD2のカソードに接続されている。また、前記電極部P4a,P4bは、ダイオードD1のカソードに接続されている。また、前記電極部P5a,P5bは、ダイオードD1のアノードに接続されている。また、前記電極部PZa,PZbは、電流を一定の値に制限するための抵抗素子R2を介して前記電源端子VCCに接続されている。   In the circuit board 15, the neutral electrode portion PGND is connected to the cathode of the diode D5, that is, to the ground terminal GND. The electrode portions P1a and P1b are connected to the cathode of the diode D4. The electrode portions P2a and P2b are connected to the cathode of the diode D3. The electrode portions P3a and P3b are connected to the cathode of the diode D2. The electrode portions P4a and P4b are connected to the cathode of the diode D1. The electrode portions P5a and P5b are connected to the anode of the diode D1. The electrode portions PZa and PZb are connected to the power supply terminal VCC via a resistance element R2 for limiting the current to a constant value.

また、回路基板15において、前記第1共通電極部PK1は、保護用の抵抗素子R3を介して前記分圧端子VRに接続されている。
上記構成により、操作部材14が中立位置にある場合では、第1可動接点14bによって分圧端子VRが中立時電極部PGND(即ちグランド)に接続され、制御回路21からスイッチング素子22にパルス信号が出力されることはない。
In the circuit board 15, the first common electrode portion PK1 is connected to the voltage dividing terminal VR via a protective resistance element R3.
With the above configuration, when the operation member 14 is in the neutral position, the voltage dividing terminal VR is connected to the neutral electrode portion PGND (that is, the ground) by the first movable contact 14b, and a pulse signal is transmitted from the control circuit 21 to the switching element 22. It is never output.

そして、操作部材14が中立位置から操作(回動)されるとその操作量に応じて第1可動接点14bによって分圧端子VRがいずれかの電極部P1a,P1b,P2a,P2b,P3a,P3b,P4a,P4b,P5a,P5b,PZa,PZbに接続される。これにより、制御回路21には、分圧端子VRから可変抵抗部16(抵抗素子R1及びダイオードD1〜D5)によって生成された電圧値信号Sが入力され、制御回路21から電圧値信号Sに応じたデューティ比のパルス信号がスイッチング素子22に出力される。   When the operation member 14 is operated (turned) from the neutral position, the voltage dividing terminal VR is set to one of the electrode portions P1a, P1b, P2a, P2b, P3a, P3b by the first movable contact 14b according to the operation amount. , P4a, P4b, P5a, P5b, PZa, PZb. As a result, the voltage value signal S generated by the variable resistor 16 (resistive element R1 and diodes D1 to D5) is input to the control circuit 21 from the voltage dividing terminal VR, and the control circuit 21 responds to the voltage value signal S. The pulse signal having the duty ratio is output to the switching element 22.

切り替えスイッチSWは、操作部材14の操作方向に応じて直流モータMの回転方向を正逆切り替えるためのスイッチであって、電動工具本体11における操作部材14の近傍に設けられている。切り替えスイッチSWは、操作部材14が正方向に操作されると直流モータMの第1端子22aをバッテリBに接続するスイッチSWaと、操作部材14が逆方向に操作されると直流モータMの第2端子22bをバッテリBに接続するスイッチSWbとを有する。スイッチSWaは、操作部材14が正方向に操作されていないと前記第1端子22aをスイッチング素子22を介してグランドに接続する。また、スイッチSWbは、操作部材14が逆方向に操作されていないと前記第2端子22bをスイッチング素子22を介してグランドに接続する。   The change-over switch SW is a switch for switching the rotation direction of the DC motor M forward and reverse according to the operation direction of the operation member 14, and is provided in the vicinity of the operation member 14 in the electric tool main body 11. The change-over switch SW includes a switch SWa that connects the first terminal 22a of the DC motor M to the battery B when the operation member 14 is operated in the forward direction, and a switch SWa that connects the first terminal 22a of the DC motor M to the battery B. And a switch SWb for connecting the two terminals 22b to the battery B. The switch SWa connects the first terminal 22a to the ground via the switching element 22 when the operation member 14 is not operated in the forward direction. Further, the switch SWb connects the second terminal 22b to the ground via the switching element 22 when the operation member 14 is not operated in the reverse direction.

次に、上記のように構成された電動工具10の作用について説明する。
例えば、操作部材14が正方向に操作されると、直流モータMの第1端子22aはバッテリBに接続され、第2端子22bはスイッチング素子22を介してグランドに接続される。
Next, the operation of the electric power tool 10 configured as described above will be described.
For example, when the operation member 14 is operated in the forward direction, the first terminal 22 a of the DC motor M is connected to the battery B, and the second terminal 22 b is connected to the ground via the switching element 22.

また、第2可動接点14cによって操作検知端子SWINが外部電源入力端子VIN(バッテリB)に接続され、制御回路21に電源が供給され、制御回路21から電源端子VCCに電源が供給される。すると、操作部材14の操作量(回動量)に応じて、第1可動接点14bによって分圧端子VRがいずれかの電極部P1a,P2a,P3a,P4a,P5a,PZaに接続される。これにより、制御回路21には可変抵抗部16(抵抗素子R1及びダイオードD1〜D5)によって分圧されて生成された電圧値信号Sが入力される。すると、制御回路21から前記電圧値信号Sに応じたデューティ比のパルス信号がスイッチング素子22に出力され、該パルス信号に応じて直流モータMが正方向に回転駆動される。これにより、工具装着部13及び工具装着部13に装着されたドライバービットやタップ等の先端工具が正方向に回転駆動される。   Further, the operation detection terminal SWIN is connected to the external power input terminal VIN (battery B) by the second movable contact 14c, power is supplied to the control circuit 21, and power is supplied from the control circuit 21 to the power supply terminal VCC. Then, the voltage dividing terminal VR is connected to one of the electrode portions P1a, P2a, P3a, P4a, P5a, and PZa by the first movable contact 14b according to the operation amount (rotation amount) of the operation member 14. As a result, the control circuit 21 receives the voltage value signal S generated by voltage division by the variable resistor section 16 (the resistance element R1 and the diodes D1 to D5). Then, a pulse signal having a duty ratio corresponding to the voltage value signal S is output from the control circuit 21 to the switching element 22, and the DC motor M is rotationally driven in the positive direction according to the pulse signal. As a result, the tool mounting portion 13 and the tip tool such as a driver bit and a tap mounted on the tool mounting portion 13 are rotationally driven in the forward direction.

また例えば、操作部材14が逆方向に操作されると、直流モータMの第2端子22bはバッテリBに接続され、第1端子22aはスイッチング素子22を介してグランドに接続される。   For example, when the operation member 14 is operated in the reverse direction, the second terminal 22 b of the DC motor M is connected to the battery B, and the first terminal 22 a is connected to the ground via the switching element 22.

また、第2可動接点14cによって操作検知端子SWINが外部電源入力端子VIN(バッテリB)に接続され、制御回路21に電源が供給され、制御回路21から電源端子VCCに電源が供給される。すると、操作部材14の操作量(回動量)に応じて、第1可動接点14bによって分圧端子VRがいずれかの電極部P1b,P2b,P3b,P4b,P5b,PZbに接続される。これにより、制御回路21には可変抵抗部16(抵抗素子R1及びダイオードD1〜D5)によって分圧されて生成された電圧値信号Sが入力される。すると、制御回路21から前記電圧値信号Sに応じたデューティ比のパルス信号がスイッチング素子22に出力され、該パルス信号に応じて直流モータMが逆方向に回転駆動される。これにより、工具装着部13及び工具装着部13に装着されたドライバービットやタップ等の先端工具が逆方向に回転駆動される。   Further, the operation detection terminal SWIN is connected to the external power input terminal VIN (battery B) by the second movable contact 14c, power is supplied to the control circuit 21, and power is supplied from the control circuit 21 to the power supply terminal VCC. Then, the voltage dividing terminal VR is connected to one of the electrode portions P1b, P2b, P3b, P4b, P5b, and PZb by the first movable contact 14b according to the operation amount (rotation amount) of the operation member 14. As a result, the control circuit 21 receives the voltage value signal S generated by voltage division by the variable resistor section 16 (the resistance element R1 and the diodes D1 to D5). Then, a pulse signal having a duty ratio corresponding to the voltage value signal S is output from the control circuit 21 to the switching element 22, and the DC motor M is rotationally driven in the reverse direction according to the pulse signal. As a result, the tool mounting portion 13 and the tip tool such as a driver bit and a tap mounted on the tool mounting portion 13 are rotationally driven in the reverse direction.

次に、上記実施形態の特徴的な効果を以下に記載する。
(1)回路基板15は、操作部材14の正逆方向の両方向に対応した位置に、それぞれ操作部材14の操作量に応じて第1可動接点14bと接触する複数の電極部P1a,P1b,P2a,P2b,P3a,P3b,P4a,P4b,P5a,P5b,PZa,PZbを有する。そして、正方向の複数の電極部P1a,P2a,P3a,P4a,P5a,PZaと逆方向の複数の電極部P1b,P2b,P3b,P4b,P5b,PZbとは、共通の可変抵抗部16に電気的に接続される。よって、操作部材14を操作する方向毎に可変抵抗部を有するものに比べて、可変抵抗部16の数を減らすことができる。
Next, the characteristic effects of the above embodiment will be described below.
(1) The circuit board 15 has a plurality of electrode portions P1a, P1b, and P2a that are in contact with the first movable contact 14b according to the operation amount of the operation member 14 at positions corresponding to both the forward and reverse directions of the operation member 14, respectively. , P2b, P3a, P3b, P4a, P4b, P5a, P5b, PZa, PZb. The plurality of positive electrode portions P1a, P2a, P3a, P4a, P5a, and PZa and the plurality of electrode portions P1b, P2b, P3b, P4b, P5b, and PZb in the opposite direction are electrically connected to the common variable resistance portion 16. Connected. Therefore, the number of variable resistance portions 16 can be reduced as compared with the one having variable resistance portions for each direction in which the operation member 14 is operated.

(2)可変抵抗部16は、複数の抵抗部材(抵抗素子R1及びダイオードD1〜D5)にて構成されるため、印刷抵抗を用いたもののように製造が困難とならず、容易に製造することができる。   (2) Since the variable resistance portion 16 is composed of a plurality of resistance members (the resistance element R1 and the diodes D1 to D5), the variable resistance portion 16 is easily manufactured without being difficult to manufacture like the one using the printing resistor. Can do.

上記実施形態は、以下のように変更してもよい。
・上記実施形態のように抵抗部材としてダイオードD1〜D5を用いた場合、制御回路21はダイオードD1〜D5の順方向電圧を取得し、該順方向電圧に基づいて電圧値信号Sのレベルを判定し、そのレベルに応じたパルス信号を出力するようにしてもよい。
The above embodiment may be modified as follows.
When the diodes D1 to D5 are used as the resistance members as in the above embodiment, the control circuit 21 acquires the forward voltage of the diodes D1 to D5 and determines the level of the voltage value signal S based on the forward voltage In addition, a pulse signal corresponding to the level may be output.

具体的には、図4に示すように、変更してもよい。この例では、回路基板15にダイオードD1のアノードに接続された順方向電圧検出用端子SETが追加され、該順方向電圧検出用端子SETが制御回路21に接続されている。そして、制御回路21は、操作検知端子SWINを介して電源が供給されると全てのダイオードD1〜D5の順方向電圧の合算値を所得し、その合算値に基づいて前記電圧値信号Sのレベルを判定する。即ち、ダイオードD1〜D5の順方向電圧(合算値)が大きいときには、電圧値信号Sも大きくなることを考慮して閾値を変更し、操作部材14の操作量のレベルを判定し、そのレベルに応じたデューティ比のパルス信号をスイッチング素子22に出力する。   Specifically, it may be changed as shown in FIG. In this example, a forward voltage detection terminal SET connected to the anode of the diode D 1 is added to the circuit board 15, and the forward voltage detection terminal SET is connected to the control circuit 21. When the power is supplied through the operation detection terminal SWIN, the control circuit 21 obtains the sum value of the forward voltages of all the diodes D1 to D5, and the level of the voltage value signal S based on the sum value. Determine. That is, when the forward voltage (total value) of the diodes D1 to D5 is large, the threshold value is changed in consideration of the fact that the voltage value signal S also becomes large, the level of the operation amount of the operation member 14 is determined, and the level is reached. A pulse signal with a corresponding duty ratio is output to the switching element 22.

このようにすると、温度変化によるダイオードD1〜D5の順方向電圧の変化の影響を除去して操作部材14の操作量(レベル)を高精度に判定することができる。その結果、温度に関わらず操作部材14の操作量に応じた直流モータMの駆動を行うことが可能となる。   In this way, the operation amount (level) of the operation member 14 can be determined with high accuracy by removing the influence of the change in the forward voltage of the diodes D1 to D5 due to the temperature change. As a result, it becomes possible to drive the DC motor M according to the operation amount of the operation member 14 regardless of the temperature.

また、この例の制御回路21は、全てのダイオードD1〜D5の順方向電圧の合算値を所得し、その合算値に基づいて電圧値信号Sのレベルを判定するため、例えば1つのダイオードの順方向電圧を取得して判定する場合に比べて、精度を向上させることができる。尚、勿論、制御回路21は、全てのダイオードD1〜D5の順方向電圧の合算値を所得しなくてもよい。例えば、順方向電圧検出用端子SETをダイオードD5のアノードに接続し、ダイオードD5の順方向電圧のみを取得して、該順方向電圧に基づいて電圧値信号Sのレベルを判定するように変更してもよい。   Further, the control circuit 21 of this example obtains the sum value of the forward voltages of all the diodes D1 to D5, and determines the level of the voltage value signal S based on the sum value. Compared with the case where the direction voltage is acquired and determined, the accuracy can be improved. Of course, the control circuit 21 does not have to obtain the sum of the forward voltages of all the diodes D1 to D5. For example, the forward voltage detection terminal SET is connected to the anode of the diode D5, only the forward voltage of the diode D5 is acquired, and the level of the voltage value signal S is determined based on the forward voltage. May be.

・上記実施形態では、可変抵抗部を、複数の抵抗部材(素子)にて構成し、抵抗部材を抵抗素子R1及びダイオードD1〜D5としたが、これに限定されず、他の構成の可変抵抗部に変更してもよい。例えば、可変抵抗部を印刷抵抗にて構成してもよい。また、抵抗部材を全て抵抗素子としてもよい。また、抵抗部材を全てダイオードとしてもよい。尚、抵抗部材を全てダイオードとする場合、それらダイオードと直列に電流を一定の値に制限するための抵抗素子を設けるといった必要がある。また、勿論、抵抗部材の数(ひいては電圧値信号Sの数)を変更した構成としてもよい。   In the above embodiment, the variable resistance portion is configured by a plurality of resistance members (elements), and the resistance members are the resistance element R1 and the diodes D1 to D5. You may change to a part. For example, the variable resistance unit may be configured with a printing resistor. Further, all the resistance members may be resistance elements. Further, all the resistance members may be diodes. When all the resistance members are diodes, it is necessary to provide a resistance element for limiting the current to a constant value in series with the diodes. Of course, the number of resistance members (and thus the number of voltage value signals S) may be changed.

次に、上記実施形態及び別例から把握できる技術的思想を以下に追記する。
(付記1)可動接点を有し正逆方向に操作可能な操作部材と、前記可動接点が摺接され、前記操作部材の操作量に応じた電圧値信号を生成可能な回路基板とを備えた電動工具であって、
前記回路基板は、前記正逆方向の両方向に対応した位置に、それぞれ前記操作部材の操作量に応じて前記可動接点と接触する複数の電極部を有し、正方向の複数の電極部と逆方向の複数の電極部とは、共通の可変抵抗部に電気的に接続されたことを特徴とする電動工具。
Next, a technical idea that can be grasped from the above embodiment and another example will be added below.
(Supplementary Note 1) An operation member having a movable contact and operable in the forward and reverse directions, and a circuit board that is slidable in contact with the movable contact and can generate a voltage value signal corresponding to the operation amount of the operation member. An electric tool,
The circuit board has a plurality of electrode portions in contact with the movable contact according to the operation amount of the operation member at positions corresponding to both the forward and reverse directions, and is opposite to the forward electrode portions. The plurality of electrode portions in the direction are electrically connected to a common variable resistance portion.

(付記2)付記1に記載の電動工具において、前記可変抵抗部は、複数の抵抗部材にて構成されたことを特徴とする電動工具。
(付記3)付記2に記載の電動工具において、前記抵抗部材は、ダイオードを含むことを特徴とする電動工具。
(Additional remark 2) The electric tool of Additional remark 1 WHEREIN: The said variable resistance part was comprised with the some resistance member, The electric tool characterized by the above-mentioned.
(Additional remark 3) The electric tool of Additional remark 2 WHEREIN: The said resistance member contains a diode, The electric tool characterized by the above-mentioned.

(付記4)付記2又は付記3に記載の電動工具において、前記抵抗部材は、抵抗素子を含むことを特徴とする電動工具。
(付記5)付記3に記載の電動工具において、
前記ダイオードの順方向電圧を取得し、該順方向電圧に基づいて前記電圧値信号のレベルを判定する制御部を備えたことを特徴とする電動工具。
(Additional remark 4) The electric tool of Additional remark 2 or Additional remark 3 WHEREIN: The said resistance member contains a resistive element, The electric tool characterized by the above-mentioned.
(Additional remark 5) In the electric tool of Additional remark 3,
An electric tool comprising: a control unit that acquires a forward voltage of the diode and determines a level of the voltage value signal based on the forward voltage.

(付記6)付記5に記載の電動工具において、前記制御部は、前記可変抵抗部を構成する全てのダイオードの順方向電圧の合算値を所得して、その合算値に基づいて前記電圧値信号のレベルを判定することを特徴とする電動工具。   (Supplementary note 6) In the electric power tool according to supplementary note 5, the control unit obtains a sum value of forward voltages of all the diodes constituting the variable resistance portion, and the voltage value signal based on the sum value. A power tool characterized by determining the level of the power.

14…操作部材、14b…第1可動接点(可動接点)、D1〜D5…可変抵抗部を構成する抵抗部材としてのダイオード、R1…可変抵抗部を構成する抵抗部材としての抵抗素子、S…電圧値信号、P1a,P1b,P2a,P2b,P3a,P3b,P4a,P4b,P5a,P5b,PZa,PZb…電極部。   DESCRIPTION OF SYMBOLS 14 ... Operation member, 14b ... 1st movable contact (movable contact), D1-D5 ... Diode as a resistance member which comprises a variable resistance part, R1 ... Resistance element as a resistance member which comprises a variable resistance part, S ... Voltage Value signal, P1a, P1b, P2a, P2b, P3a, P3b, P4a, P4b, P5a, P5b, PZa, PZb...

Claims (10)

電動工具を正方向に駆動する正操作方向、および、電動工具を逆方向に駆動する逆操作方向に操作可能な操作部材と、
前記正操作方向または前記逆操作方向における前記操作部材の操作量に応じた電圧値信号を生成可能な回路基板とを備え、
前記操作部材は可動接点を有し、
前記回路基板は前記正操作方向における前記操作部材の操作量に応じて前記可動接点と接触するようにそれぞれ異なる位置に設けられる複数の正電極部と、前記逆操作方向における前記操作部材の操作量に応じて前記可動接点と接触するようにそれぞれ異なる位置に設けられる複数の逆電極部と、前記複数の正電極部および前記複数の逆電極部のそれぞれに電気的に接続された共通の可変抵抗部とを有する
電動工具。
An operation member operable in a normal operation direction for driving the electric tool in a normal direction and a reverse operation direction for driving the electric tool in a reverse direction;
A circuit board capable of generating a voltage value signal according to an operation amount of the operation member in the normal operation direction or the reverse operation direction,
The operating member has a movable contact,
The circuit board has a plurality of positive electrode portions provided at different positions so as to come into contact with the movable contact according to an operation amount of the operation member in the forward operation direction, and an operation amount of the operation member in the reverse operation direction. A plurality of reverse electrode portions provided at different positions so as to come into contact with the movable contact, and a common variable resistor electrically connected to each of the plurality of positive electrode portions and the plurality of reverse electrode portions. A power tool having a portion.
前記回路基板は第1面、および、前記第1面とは反対側に位置する第2面を含み、
前記複数の正電極部および前記複数の逆電極部は前記第1面および前記第2面の一方に設けられ、
前記可変抵抗部は前記第1面および前記第2面の他方に設けられている
請求項1に記載の電動工具。
The circuit board includes a first surface and a second surface located on the opposite side of the first surface;
The plurality of positive electrode portions and the plurality of reverse electrode portions are provided on one of the first surface and the second surface,
The electric tool according to claim 1, wherein the variable resistance portion is provided on the other of the first surface and the second surface.
前記操作部材は前記操作部材の回転中心軸まわりで回動可能であり、
前記正操作方向は前記操作部材の回転中心軸まわりにおける一方の回動方向であり、
前記逆操作方向は前記操作部材の回転中心軸まわりにおける他方の回動方向であり、
前記複数の正電極部および前記複数の逆電極部は前記操作部材の回動中心軸に対して周方向に並ぶように設けられている
請求項1または2に記載の電動工具。
The operation member is rotatable about a rotation center axis of the operation member;
The normal operation direction is one rotation direction around the rotation center axis of the operation member,
The reverse operation direction is the other rotation direction around the rotation center axis of the operation member,
The power tool according to claim 1 or 2, wherein the plurality of positive electrode portions and the plurality of reverse electrode portions are provided so as to be arranged in a circumferential direction with respect to a rotation center axis of the operation member.
前記複数の正電極部および前記複数の逆電極部の少なくとも一方は、前記操作部材の回動中心軸の周方向において間隔を空けて隣り合う第1電極部および第2電極部、ならびに、前記間隔に対して前記操作部材の回動中心軸の径方向の外側または内側に設けられる第3電極部を少なくとも含む
請求項3に記載の電動工具。
At least one of the plurality of positive electrode portions and the plurality of reverse electrode portions includes a first electrode portion and a second electrode portion that are adjacent to each other with a gap in the circumferential direction of the rotation center axis of the operation member, and the gap The power tool according to claim 3, further comprising at least a third electrode portion provided on the outer side or the inner side in the radial direction of the rotation center axis of the operation member.
前記回路基板は前記可変抵抗部に電気的に接続される分圧端子、および、前記分圧端子に電気的に接続される共通電極部をさらに有し、
前記共通電極部は前記電動工具を正方向または逆方向に駆動する前記操作部材の操作範囲において前記操作部材の操作量に関わらず前記可動接点と接触するように構成されている
請求項1〜4のいずれか一項に記載の電動工具。
The circuit board further includes a voltage dividing terminal electrically connected to the variable resistance portion, and a common electrode portion electrically connected to the voltage dividing terminal,
The common electrode portion is configured to contact the movable contact regardless of an operation amount of the operation member in an operation range of the operation member for driving the electric tool in a forward direction or a reverse direction. The power tool according to any one of the above.
前記可変抵抗部は複数の抵抗部材を含む
請求項1〜5のいずれか一項に記載の電動工具。
The power tool according to claim 1, wherein the variable resistance portion includes a plurality of resistance members.
前記抵抗部材は1または複数のダイオードを含む
請求項6に記載の電動工具。
The power tool according to claim 6, wherein the resistance member includes one or a plurality of diodes.
前記ダイオードの順方向電圧に基づいて前記電圧値信号のレベルを判定する制御部をさらに備えている
請求項7に記載の電動工具。
The power tool according to claim 7, further comprising a control unit that determines a level of the voltage value signal based on a forward voltage of the diode.
前記制御部は前記可変抵抗部に含まれる複数のダイオードの順方向電圧の合算値に基づいて前記電圧値信号のレベルを判定する
請求項8に記載の電動工具。
The power tool according to claim 8, wherein the control unit determines a level of the voltage value signal based on a sum value of forward voltages of a plurality of diodes included in the variable resistance unit.
前記抵抗部材は抵抗素子を含む
請求項6〜9のいずれか一項に記載の電動工具。
The electric tool according to claim 6, wherein the resistance member includes a resistance element.
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Family Cites Families (12)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS60184228U (en) * 1984-05-17 1985-12-06 カシオ計算機株式会社 Rotary switch automatic return mechanism
ES2062799T3 (en) * 1990-06-27 1994-12-16 Marquardt Gmbh DISPOSITION OF SWITCHES WITH ADJUSTABLE RESISTOR.
DE4335715A1 (en) * 1993-08-29 1995-03-02 Duerrwaechter E Dr Doduco Potentiometer
DE4410312C2 (en) * 1994-03-25 2000-01-13 Bosch Gmbh Robert Electric hand tool with potentiometer and method for adjusting the potentiometer
DE102005042873A1 (en) * 2005-09-08 2007-03-22 Ebe Elektro-Bau-Elemente Gmbh Potentiometer e.g. film potentiometer, has resistance strip suitable for switching within electric circuit between circuit points at different electrical potential
JP5262701B2 (en) * 2008-12-26 2013-08-14 オムロン株式会社 Power tool switch
JP2011185884A (en) * 2010-03-11 2011-09-22 Murata Mfg Co Ltd Method and apparatus for measuring dc bias-capacitance characteristic
JP2012196732A (en) * 2011-03-22 2012-10-18 Satori S-Tech Co Ltd Switch for electric power tool
US8493172B2 (en) * 2011-09-30 2013-07-23 Snap-On Incorporated Variable speed toggle trigger
AU2013200917A1 (en) * 2012-03-22 2013-10-10 Ethicon Endo-Surgery, Inc. Activation feature for surgical instrument with pencil grip
EP2688080B1 (en) * 2012-07-16 2019-05-29 Black & Decker Inc. Electronic switching module for a power tool
JP6004226B2 (en) * 2012-09-13 2016-10-05 パナソニックIpマネジメント株式会社 Trigger switch and power tool

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EP3138662A1 (en) 2017-03-08
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EP3138662B1 (en) 2018-12-19
CN106426008B (en) 2020-05-01

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