JP2014172151A - Electric tool - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an electric tool which enables operation start control by performing simple authentication confirmation.SOLUTION: An electric drill driver includes: a driver body part 20; and a battery pack 30. The battery pack 30 is detachably attached to the driver body part 20. The driver body part 20 includes: a motor 40; a control section 50; and a storage section 60. The storage section 60 has a battery authentication program and a battery authentication information holding section 61. The battery pack 30 includes a battery identification information holding section 37. When a user pulls in a trigger switch of the driver body part 20, the control section 50 executes the battery authentication program. The battery authentication program causes the control section 50 to execute a battery identification information acquisition step, a battery authentication step, and a motor control step.

Description

  The present invention relates to a power tool having an authentication function.

  A power tool that uses a detachable secondary battery pack as a power source is excellent in portability, but is often damaged by theft. For this reason, in the electric tool, the countermeasure which suppresses theft by restricting a user is devised. Patent document 1 is disclosing an example of the electric tool provided with the authentication function.

  The electric power tool described in Patent Document 1 performs authentication confirmation regarding the right to use the electric power tool between the authentication circuit unit included in the electric power tool and the authentication device. The authentication device is held by the user. When the user wants to use the electric tool, the user operates the trigger switch of the electric tool while holding the authentication device. The power tool performs authentication confirmation regarding the right of use with an authentication device held by the user. The power tool starts operation of the power tool when the right to use is confirmed. When the right to use is not confirmed, the power tool maintains the stopped state of the power tool. The power tool has a deterring power against theft by obtaining a function of rejecting the use of a user who does not hold the authentication device.

Japanese Patent No. 4678199

  The conventional power tool confirms the right of use of the user by the authentication confirmation operation. For this reason, the user needs to hold | maintain the apparatus for authentication which can transmit an identification code with respect to an electric tool at the time of use of an electric tool. For this reason, when the user forgets to carry the authentication device in a place where the power tool is used or when the user loses the authentication device, the user cannot use the power tool. For this reason, the user may feel inconvenience. In addition, when using a plurality of types of electric tools, it is necessary to hold a large number of authentication devices, select an authentication device according to the type of electric tool to be used, and perform an authentication operation. For this reason, the user may feel annoyed.

  The present invention has been created on the basis of the above background, and an object thereof is to provide an electric tool that controls operation start with simple authentication confirmation.

  (1) The first means is “an electric tool having a main body part and a battery pack, wherein the battery pack has a battery identification information holding part, and the main body part includes a motor, a control part, and battery authentication information. A battery authentication program executed by the control unit, and the battery authentication program causes the control unit to acquire battery identification information of the battery identification information holding unit; and the battery authentication information. And a battery authentication step for causing the control unit to authenticate the battery pack based on the battery identification information of the battery identification information holding unit, and controlling the drive of the motor to the control unit based on an authentication result of the battery authentication step A power tool having a motor control step.

  (2) The second means is “an electric tool having a main body and a battery pack, wherein the main body has a motor, a control unit, and a battery authentication information holding unit, and the battery pack has a battery identification. An information holding unit, the control unit has a battery identification information acquisition unit and a battery authentication unit, and the battery identification information acquisition unit acquires the battery identification information of the battery identification information holding unit from the battery pack. The battery authentication unit authenticates the battery pack based on the battery authentication information and the battery identification information of the battery authentication information holding unit, and the power tool is configured to detect the motor based on the authentication result of the battery authentication unit. Power tool for controlling drive ”.

  (3) The third means is "an electric tool having a main body and a battery pack, wherein the battery pack has a main body identification information acquisition unit, a main body authentication information holding unit, and a main body authentication unit, The unit includes a motor, a control unit, and a main body identification information holding unit, the main body identification information acquisition unit acquires main body identification information of the main body identification information holding unit from the main body unit, and the main body authentication unit includes the main body authentication unit Based on the main body authentication information and the main body identification information of the authentication information holding unit, the main body unit is authenticated and an authentication result is output, and the control unit controls driving of the motor based on the authentication result of the main body authentication unit. Power tool ".

(4) The fourth means is "a power tool having a main body and a battery pack,
The battery pack includes a main body identification information acquisition unit, a battery identification information holding unit, a main body authentication information holding unit, and a main body authentication unit. The main body unit includes a motor, a control unit, a battery authentication information holding unit, and main body identification information. A battery authentication program executed by the holding unit and the control unit, the main body identification information acquisition unit acquires main body identification information of the main body identification information holding unit from the main body unit, and the main body authentication unit Based on the main body authentication information of the main body authentication information holding unit and the main body identification information of the main body identification information holding unit, the main body unit is authenticated and an authentication result is output, and the battery authentication program sends the battery identification information to the control unit. A battery identification information acquisition step for acquiring battery identification information of the holding unit, authenticating the battery pack to the control unit based on the battery authentication information and the battery identification information of the battery identification information holding unit Battery authentication step of, including power tools "having a motor control step of controlling the driving of the motor to the control unit based on the battery authentication step and the mainframe authentication part of the authentication result.

(5) The fifth means is "a power tool having a main body and a battery pack,
The battery pack includes a main body identification information acquisition unit, a battery identification information holding unit, a main body authentication information holding unit, and a main body authentication unit. The main body unit includes a motor, a control unit, a battery authentication information holding unit, and a main body identification. An information holding unit, the control unit has a battery identification information acquisition unit and a battery authentication unit, and the battery identification information acquisition unit acquires the battery identification information of the battery identification information holding unit from the battery pack. The battery authentication unit authenticates the battery pack based on the battery authentication information and the battery identification information of the battery authentication information holding unit, and the main body identification information acquisition unit is configured to receive the main body identification information holding unit from the main body unit. The main body authentication unit authenticates the main body unit based on the main body authentication information and the main body identification information of the main body authentication information holding unit, and outputs an authentication result. Serial battery authentication unit and on the basis of the authentication result of the mainframe authentication part comprising the power tool "for controlling driving of said motor.

(6) The sixth means includes "the electric tool that controls the motor to be in either one of a normal drive state and a stop state based on the authentication result".
(7) The seventh means includes "the electric tool that controls the motor to be in either one of normal driving and low-speed driving based on the authentication result".

(8) The eighth means includes “the electric tool has a notification unit, and the control unit causes the notification unit to perform a notification operation based on the authentication result”.
(9) The ninth means includes “the battery authentication information holding unit holds a plurality of battery authentication information”.

  (10) The tenth means includes “the main body authentication information holding unit holds a plurality of the main body authentication information”.

  This power tool contributes to the realization of a power tool that controls operation start with simple authentication confirmation.

The perspective view of the electric drill driver in 1st Embodiment. The battery pack mounting surface block diagram of the battery pack mounting part in the state which removed the battery pack in the electric drill driver of 1st Embodiment. The perspective view of the battery pack in the electric drill driver of 1st Embodiment. The circuit block block diagram of the driver main-body part and battery pack in the electric drill driver of 1st Embodiment. The flowchart figure of the battery authentication process in the electric drill driver of 1st Embodiment. The circuit block block diagram of the driver main-body part and battery pack in the electric drill driver of 2nd Embodiment. The flowchart figure of the main body authentication process in the electric drill driver of 2nd Embodiment. The circuit block block diagram of the driver main-body part and battery pack in the electric drill driver of 3rd Embodiment. The flowchart figure of the battery and main body authentication process in the electric drill driver of 3rd Embodiment.

(First embodiment)
With reference to FIG. 1, the structure of the electric drill driver 10 as an electric tool is demonstrated.

The electric drill driver 10 has a driver main body 20 and a battery pack 30.
The driver main body 20 includes a chuck part 21, a grip part 22, and a battery pack mounting part 23. The driver main body 20 has a tip tool 24 attached to the tip of the chuck portion 21. The driver body 20 has a trigger switch 25 at the upper end of the grip 22. The battery pack 30 is detachably mounted on the battery pack mounting portion 23.

  The trigger switch 25 is operated by the user. When the user wants to operate the electric drill driver 10, the user performs an operation of pulling the trigger switch 25 with the finger of the hand holding the grip portion 22.

With reference to FIG. 2, the structure of the battery pack mounting part 23 will be described. FIG. 2 shows the battery pack mounting surface with the battery pack 30 removed.
The battery pack mounting portion 23 has a plurality of L-shaped hooks 26 and a main body side connection terminal 27 on the battery pack mounting side surface.

The configuration of the battery pack 30 will be described with reference to FIG.
The battery pack 30 includes a case 31, a mounting portion 32, a hook 33, and a battery side connection terminal 35. The mounting portion 32 has a plurality of mounting grooves 34 on the side surface. The battery pack 30 incorporates a secondary battery composed of a plurality of battery cells in a case 31 and charges and uses it.

  The battery pack 30 is attached to the battery pack attachment portion 23 by sliding the attachment groove 34 of the attachment portion 32 into the L-shaped hook 26 of the battery pack attachment portion 23 and sliding. When the battery pack 30 is attached to the battery pack attachment portion 23, the battery side connection terminal 35 is coupled to the main body side connection terminal 27 included in the battery pack attachment portion 23 of the driver main body portion 20.

  The battery side connection terminal 35 and the main body side connection terminal 27 are configured using a conductive material. When the battery side connection terminal 35 and the main body side connection terminal 27 are coupled, the battery pack 30 supplies power to the driver main body 20 via the battery side connection terminal 35 and the main body side connection terminal 27. Further, the driver main body 20 and the battery pack 30 transmit and receive electrical signals via the battery side connection terminal 35 and the main body side connection terminal 27.

When removing the battery pack 30 from the battery pack mounting portion 23, the user removes the hook 33 of the battery pack 30 by pushing it in.
With reference to FIG. 4, the circuit block configuration of the driver main body 20 and the battery pack 30 will be described.

The battery pack 30 includes a plurality of battery cells 36 and a battery identification information holding unit 37.
The driver body 20 includes a motor 40, a drive element 41, a control unit 50, a storage unit 60, an operation switch 42, and a notification unit 43.

  The storage unit 60 stores a control program for controlling the operation of the control unit 50 and a battery authentication program. The battery authentication information holding unit 61 included in the storage unit 60 stores battery authentication information.

  The control unit 50 is configured using, for example, a microcontroller. When the control unit 50 executes the battery authentication program stored in the storage unit 60, the control unit 50 constructs the battery identification information acquisition unit 52 and the battery authentication unit 51 inside the control unit 50.

  The operation switch 42 operates based on a user operation on the trigger switch 25 of the driver main body 20. When the user pulls in the trigger switch 25, the operation switch 42 becomes conductive with the power supply potential. When the user releases the trigger switch 25 and the retracted state is released, the operation switch 42 is disconnected from the power supply potential.

  The power supply terminal 72 and the communication connector 73 included in the battery pack 30 are configured using the battery side connection terminal 35 shown in FIG. The power supply terminal 70 and the communication connector 71 included in the driver main body 20 are configured using a main body side connection terminal 27 included in the battery pack mounting portion 23. When the battery pack 30 is mounted on the battery pack mounting portion 23, the battery side connection terminal 35 and the main body side connection terminal 27 are electrically connected. That is, the power supply terminal 72 of the battery pack 30 and the power supply terminal 70 of the driver main body 20 are electrically connected. Further, the communication connector 73 of the battery pack 30 and the communication connector 71 of the driver main body 20 are electrically connected.

  The voltage of the battery pack 30 is supplied to the motor 40 via the power terminal 70 and the power terminal 72. The motor 40 is driven by the drive element 41 when the control unit 50 outputs a drive signal.

  When the user pulls in the trigger switch 25 and the operation switch 42 is brought into conduction with the power supply potential, the control unit 50 confirms the authentication of the battery pack 30 according to the battery authentication program stored in the storage unit 60. When the battery pack 30 is authenticated, the control unit 50 outputs a drive signal for operating the motor 40 to the drive element 41.

With reference to FIG. 5, an outline of the battery authentication process executed by the control unit 50 will be described.
Control unit 50 sequentially executes steps S11 to S14 according to the battery authentication program.

  When authenticating the battery pack 30, the battery authentication program executes a battery identification information acquisition step in step S11. In step S <b> 11, the control unit 50 acquires battery identification information included in the battery identification information holding unit 37 of the battery pack 30 in the battery identification information acquisition unit 52. The battery identification information acquisition unit 52 holds the acquired battery identification information. The battery authentication program causes the battery authentication unit 51 to execute an authentication step in step S12. In step S <b> 12, the battery authentication unit 51 authenticates the battery identification information held by the battery identification information acquisition unit 52 based on the battery authentication information held by the battery authentication information holding unit 61 of the storage unit 60. When the battery authentication information and the battery identification information are the same, the battery authentication unit 51 authenticates the battery pack 30. The battery authentication program executes the motor control step of the motor 40 based on the authentication result of step S12. When the battery pack 30 is authenticated in step S12, in step S13, the control unit 50 outputs a drive signal that causes the motor 40 to normally operate. When the battery pack 30 is not authenticated in step S12, in step S13, the control unit 50 outputs a drive signal for limiting the motor 40. For example, the control unit 50 drives the motor 40 at a low speed as the limiting operation. Further, the control unit 50 stops the motor 40 as the limiting operation, for example.

  The controller 50 outputs a notification signal to the notification unit 43 when the battery pack 30 is not authenticated in step S12. The notification unit 43 notifies that the battery pack 30 has not been authenticated. For example, the notification unit 43 emits a warning sound as a notification unit. Moreover, the alerting | reporting part 43 performs an alarm display as an alerting | reporting means, for example.

  The driver body 20 can hold a plurality of pieces of battery authentication information in the battery authentication information holding unit 61 of the storage unit 60. When the battery authentication information holding unit 61 holds a plurality of pieces of battery authentication information, the control unit 50 causes the battery authentication unit 51 to perform authentication confirmation for the battery identification information based on the plurality of battery authentication information.

The driver body 20 can operate by authenticating a plurality of battery packs having different battery identification information.
The electric drill driver 10 of this embodiment has the following effects.

  (1) The electric drill driver 10 includes a driver main body 20 and a battery pack 30. The battery pack 30 is detachably attached to the driver body 20. The driver main body 20 includes a motor 40, a control unit 50, and a storage unit 60. The storage unit 60 includes a battery authentication program and a battery authentication information holding unit 61. The battery pack 30 includes a battery identification information holding unit 37. When the user pulls in the trigger switch 25 of the driver body 20, the control unit 50 executes a battery authentication program. The battery authentication program causes the control unit 50 to execute a battery identification information acquisition step, a battery authentication step, and a motor control step. According to this configuration, the control unit 50 of the electric drill driver 10 authenticates the battery pack 30 when the user wants to use the electric drill driver 10. The control unit 50 performs control to drive the motor 40 when the battery pack 30 is authenticated. Therefore, when the battery pack 30 that holds battery identification information different from the battery authentication information held by the battery authentication information holding unit 61 is mounted, the electric drill driver 10 does not perform normal operation even when the trigger switch 25 is pulled. For this reason, the electric drill driver 10 can be provided with a theft deterrent by obtaining a function that enables operation only with an authenticable battery pack. In many cases, the user removes the battery pack 30 from the driver body 20 and carries it for the purpose of charging. For this reason, the suppression power with respect to the theft of the driver main body 20 is strong. The user can use the electric drill driver 10 by authenticating the battery pack 30 only by attaching the battery pack 30 to the driver main body 20 and pulling the trigger switch 25, which is an operation performed during normal use.

  (2) The driver main body 20 includes a control unit 50 and a storage unit 60. The control unit 50 is configured using a microcontroller. The storage unit 60 includes a control program for the electric drill driver 10 and a battery authentication program. The battery authentication information holding unit 61 of the storage unit 60 holds battery authentication information. When the control unit 50 executes the battery authentication program stored in the storage unit 60, the control unit 50 constructs the battery authentication unit 51 and the battery identification information acquisition unit 52. The battery identification information holding unit 37 of the battery pack 30 holds battery identification information. When the user pulls in the trigger switch 25 of the driver body 20, the control unit 50 executes a battery authentication program. According to this configuration, when the user pulls in the trigger switch 25, the control unit 50 acquires the battery identification information of the battery pack 30 according to the battery authentication program and based on the battery authentication information of the storage unit 60. 30 authentications are performed. For this reason, the electric drill driver 10 can perform authentication confirmation only with the driver main body 20 and the battery pack 30 without using an authentication device or an authentication code input unit. For this reason, the electric drill driver 10 can have a theft deterrent with a simple configuration.

  (3) The driver main body 20 includes a motor 40, a control unit 50, a storage unit 60, and a notification unit 43. The storage unit 60 has a battery authentication program. The battery authentication information holding unit 61 of the storage unit 60 holds battery authentication information. The battery identification information holding unit 37 of the battery pack 30 holds battery identification information. When the user pulls in the trigger switch 25 of the driver body 20, the control unit 50 executes a battery authentication program. According to this configuration, when the user pulls in the trigger switch 25, the control unit 50 acquires the battery identification information of the battery pack 30 according to the battery authentication program and based on the battery authentication information of the storage unit 60. 30 authentication confirmations are made. When the battery pack is not authenticated, the control unit 50 maintains the stop of the motor 40 and performs control to notify by the notification unit 43. According to this configuration, when the electric drill driver 10 does not operate even when the trigger switch 25 is pulled in, the user can easily estimate whether the cause is an authentication error or a factor other than the authentication error. For this reason, the electric drill driver 10 can eliminate inconvenience for the user.

  (4) The driver main body unit 20 includes a motor 40, a control unit 50, and a storage unit 60. The storage unit 60 has a battery authentication program. The battery authentication information holding unit 61 of the storage unit 60 holds battery authentication information. The battery identification information holding unit 37 of the battery pack 30 holds battery identification information. When the user pulls in the trigger switch 25 of the driver main body 20, the control unit 50 performs authentication confirmation of the battery pack 30 according to the battery authentication program. According to this configuration, the control unit 50 can perform control to rotate the motor 40 at a low speed when the battery pack is not authenticated. For this reason, when the user pulls the trigger switch 25 and the electric drill driver 10 rotates at a low speed, the user can estimate that the cause is an authentication error. For this reason, the electric drill driver 10 can eliminate inconvenience for the user.

  (5) The driver main body 20 includes a motor 40, a control unit 50, and a storage unit 60. The storage unit 60 has a battery authentication program. The battery authentication information holding unit 61 of the storage unit 60 holds a plurality of battery authentication information. The battery identification information holding unit 37 of the battery pack 30 holds battery identification information. When the user pulls in the trigger switch 25 of the driver body 20, the control unit 50 executes a battery authentication program. According to this configuration, when the user pulls in the trigger switch 25, the control unit 50 acquires the battery identification information of the battery pack 30 according to the battery authentication program and is based on the plurality of battery authentication information in the storage unit 60. The battery pack 30 is authenticated. When the battery pack is authenticated, the control unit 50 controls the motor 40 to normally operate. According to this configuration, the driver main body 20 can authenticate a plurality of battery packs having different battery identification information. For this reason, the electric drill driver 10 can be shared and used by a plurality of users who own a plurality of battery packs.

(Second Embodiment)
The electric drill driver 10 of the second embodiment has a different configuration in the following parts compared to the electric drill driver 10 of the first embodiment, and has the same configuration in other parts. In addition, about the structure which is common in the electric drill driver 10 of 1st Embodiment, the same code | symbol is attached | subjected and the one part or all part of the description is abbreviate | omitted.

  In the electric drill driver 10 of the first embodiment, the storage unit 60 of the driver main body unit 20 has a battery authentication information holding unit 61, and the battery pack 30 has a battery identification information holding unit 37. On the other hand, the storage unit 60 of the driver main body 80 in the second embodiment includes a main body identification information holding unit 62. The battery pack 90 includes a main body authentication unit 91, a main body authentication information holding unit 92, and a main body identification information acquisition unit 93.

With reference to FIG. 6, the circuit block configuration of the driver main body 80 and the battery pack 90 will be described.
The battery pack 90 includes a main body authentication unit 91, a main body authentication information holding unit 92, and a main body identification information acquisition unit 93.

The driver main body 80 includes a control unit 50 and a storage unit 60.
The storage unit 60 stores a control program that controls the operation of the control unit 50. The main body identification information holding unit 62 included in the storage unit 60 stores main body identification information.

The control unit 50 is configured using, for example, a microcontroller.
When the user pulls in the trigger switch 25 and the operation switch 42 is brought into conduction with the power supply potential, the control unit 50 controls the main body identification information holding unit 62 with respect to the battery pack 90 according to the control program stored in the storage unit 60. Transmits the main body identification information held by. The battery pack 90 performs authentication confirmation of the driver main body 80. The battery pack 90 transmits the authentication result of the driver main body 80 to the driver main body 80. When the driver main body 80 is authenticated in the battery pack 90, the control unit 50 outputs a drive signal for operating the motor 40 to the drive element 41 in response to the authentication result.

With reference to FIG. 7, an outline of the main body authentication process executed by the battery pack 90 will be described.
In step S <b> 21, the battery pack 90 acquires the main body identification information included in the main body identification information holding unit 62 of the storage unit 60 in the driver main body 80 via the communication connector 73 and the communication connector 71. The body identification information acquisition unit 93 holds the acquired body identification information. In step S <b> 22, the main body authentication unit 91 authenticates the main body identification information held by the main body identification information acquisition unit 93 based on the main body authentication information held by the main body authentication information holding unit 92. When the main body authentication information and the main body identification information are the same, the main body authentication unit 91 authenticates the driver main body unit 80. When the driver main body unit 80 is authenticated in step S22, the main body authentication unit 91 transmits the authentication result to the control unit 50 of the driver main body unit 80 via the communication connector 73 and the communication connector 71 in step S23. In step S25, the control unit 50 outputs a drive signal for operating the motor 40 normally. When the driver main body unit 80 is not authenticated in step S22, the main body authentication unit 91 transmits the authentication result to the control unit 50 in step S24. In step S <b> 26, the control unit 50 outputs a drive signal for restricting the motor 40.

  The device that the battery pack 90 authenticates is not limited to the electric drill driver 10. The battery pack 90 authenticates a charger, for example. The battery pack 90 performs authentication by acquiring identification information from the charger. When the battery pack 90 authenticates the charger, the battery pack 90 transmits an authentication result to the charger, and performs control for the charger to start a charging operation. When the battery pack 90 does not authenticate the charger, the charger that has received the authentication result from the battery pack 90 performs control to reject charging.

  According to the electric drill driver 10 of the present embodiment, the same effects as (1) to (5) exhibited by the electric drill driver 10 of the first embodiment can be obtained. That is, the effect that the electric drill driver 10 can perform authentication confirmation with a simple operation, the effect that the electric drill driver 10 can have a theft deterrent with a simple configuration, and various other effects. Play. Moreover, the electric drill driver 10 has the following effects.

  (6) The electric drill driver 10 includes a driver main body 80 and a battery pack 90. The driver main body 80 includes a motor 40, a control unit 50, and a storage unit 60. The storage unit 60 includes a main body identification information holding unit 62. The battery pack 90 includes a main body authentication unit 91, a main body authentication information holding unit 92, and a main body identification information acquisition unit 93. When the user pulls in the trigger switch 25 of the driver main body 80, the control unit 50 transmits the main body identification information of the main body identification information holding unit 62 to the battery pack 90. The main body identification information acquisition unit 93 acquires and holds main body identification information. The main body authentication unit 91 authenticates the driver main body unit 80 by authenticating the main body identification information based on the main body authentication information of the main body authentication information holding unit 92. The main body authentication unit 91 transmits the authentication result to the control unit 50. The control unit 50 controls the motor 40 based on the authentication result from the main body authentication unit 91. According to this configuration, in the electric drill driver 10, the battery pack 90 authenticates the driver main body 80. For this reason, the electric drill driver 10 can be provided with a theft deterrent by obtaining a function that enables operation only in combination with the battery pack to be authenticated. Further, the battery pack 90 can authenticate a device such as a charger. For this reason, the electric drill driver 10 can strengthen the suppressive force against theft by obtaining a function that enables charging only by the combination of the authenticable battery pack and the charger.

(Third embodiment)
The electric drill driver 10 of the third embodiment has a different configuration in the following parts compared to the electric drill driver 10 of the first embodiment, and has the same configuration in other parts. In addition, about the structure which is common in the electric drill driver 10 of 1st Embodiment, the same code | symbol is attached | subjected and the one part or all part of the description is abbreviate | omitted.

  In the electric drill driver 10 of the first embodiment, the storage unit 60 of the driver main body unit 20 has a battery authentication information holding unit 61, and the battery pack 30 has a battery identification information holding unit 37. On the other hand, the storage unit 60 of the driver main body 100 according to the third embodiment includes a main body identification information holding unit 62 in addition to the battery authentication information holding unit 61. In addition to the battery identification information holding unit 37, the battery pack 110 includes a main body authentication unit 91, a main body authentication information holding unit 92, and a main body identification information acquisition unit 93.

With reference to FIG. 8, the circuit block configuration of the driver main body 100 and the battery pack 110 will be described.
The driver main body 100 includes a control unit 50 and a storage unit 60.

  The storage unit 60 stores a control program for controlling the operation of the control unit 50 and a battery authentication program. The storage unit 60 includes a battery authentication information holding unit 61 that holds battery authentication information and a main body identification information holding unit 62 that holds main body identification information.

The battery pack 110 includes a battery identification information holding unit 37, a main body authentication unit 91, a main body authentication information holding unit 92, and a main body identification information acquisition unit 93.
When the user pulls in the trigger switch 25 and the operation switch 42 is brought into conduction with the power supply potential, the control unit 50 confirms the authentication of the battery pack 110 according to the battery authentication program stored in the storage unit 60.

  When the battery pack 110 is authenticated, the control unit 50 transmits the main body identification information held by the main body identification information holding unit 62 to the battery pack 110 according to the control program stored in the storage unit 60. The battery pack 110 performs authentication confirmation of the driver main body 100. The battery pack 110 transmits the authentication result of the driver main body 100 to the driver main body 100. When the driver main body 100 is authenticated in the battery pack 110, the control unit 50 outputs a drive signal for operating the motor 40 to the drive element 41 in response to the authentication result.

With reference to FIG. 9, an outline of a battery authentication process executed by the driver main body unit 100 and a main body authentication process executed by the battery pack 110 will be described.
Control unit 50 sequentially executes steps S31 to S33 according to the battery authentication program.

  When authenticating the battery pack 110, the battery authentication program executes a battery identification information acquisition step in step S31. In step S <b> 31, the control unit 50 acquires battery identification information included in the battery identification information holding unit 37 of the battery pack 110 in the battery identification information acquisition unit 52. The battery identification information acquisition unit 52 holds the acquired battery identification information. The battery authentication program causes the battery authentication unit 51 to execute an authentication step in step S32. In step S <b> 32, the battery authentication unit 51 authenticates the battery identification information held by the battery identification information acquisition unit 52 based on the battery authentication information held by the battery authentication information holding unit 61 of the storage unit 60. When the battery authentication information and the battery identification information are the same, the battery authentication unit 51 authenticates the battery pack 110. When the battery pack 110 is not authenticated in step S32, in step S38, the control unit 50 outputs a drive signal for limiting the motor 40. When the battery pack 110 is authenticated in step S32, the control unit 50 transmits the main body identification information held by the main body identification information holding unit 62 to the battery pack 110 in step S33. The main body identification information acquisition unit 93 acquires and holds main body identification information. In step S <b> 34, the main body authentication unit 91 of the battery pack 110 authenticates the main body identification information held by the main body identification information acquisition unit 93 based on the main body authentication information held by the main body authentication information holding unit 92. When the main body authentication information and the main body identification information are the same, the main body authentication unit 91 authenticates the driver main body unit 100. When the driver main body unit 100 is authenticated in step S34, the main body authentication unit 91 transmits the authentication result to the control unit 50 of the driver main body unit 100 in step S35. In step S37, the controller 50 outputs a drive signal that causes the motor 40 to normally operate. When the driver main body unit 100 is not authenticated in step S34, the main body authentication unit 91 transmits the authentication result to the control unit 50 in step S36. In step S <b> 38, the control unit 50 outputs a drive signal for restricting the motor 40.

  According to the electric drill driver 10 of the present embodiment, the same effects as (1) to (5) exhibited by the electric drill driver 10 of the first embodiment can be obtained. Moreover, the electric drill driver 10 has the following effects.

  (7) The electric drill driver 10 includes a driver main body 100 and a battery pack 110. The driver main body 100 includes a motor 40, a control unit 50, and a storage unit 60. The storage unit 60 includes a battery authentication program, a battery authentication information holding unit 61, and a main body identification information holding unit 62. The battery pack 110 includes a battery identification information holding unit 37, a main body authentication unit 91, a main body authentication information holding unit 92, and a main body identification information acquisition unit 93. When the user pulls in the trigger switch 25 of the driver main body 100, the control unit 50 authenticates the battery pack 110 according to the battery authentication program. When authenticating the battery pack 110, the control unit 50 transmits the main body identification information of the main body identification information holding unit 62 to the battery pack 110. The main body authentication unit 91 of the battery pack 110 authenticates the driver main body unit 100 by authenticating the main body identification information based on the main body authentication information of the main body authentication information holding unit 92. The main body authentication unit 91 transmits the authentication result to the control unit 50. The control unit 50 controls the motor 40 based on the authentication result from the main body authentication unit 91. According to this configuration, in the electric drill driver 10, the driver main body 100 authenticates the battery pack 110 and the battery pack 110 authenticates the driver main body 100. For this reason, the electric drill driver 10 can improve the robustness with respect to the person who tries to break an authentication system maliciously.

(Other embodiments)
This electric tool includes embodiments other than the first to third embodiments. Hereinafter, the modification of 1st-3rd embodiment as other embodiment of this electric tool is shown. The following modifications can be combined with each other.

  -As for the electric drill driver 10 of 1st-3rd embodiment, a driver main-body part and a battery pack transmit / receive identification information and an authentication result via the communication connectors 71 and 73. FIG. However, the configurations of the driver main body and the battery pack are not limited to the contents exemplified in the first to third embodiments. For example, the driver main body and the battery pack of the modification have a wireless communication unit or an infrared communication unit. . The driver main body and the battery pack transmit and receive identification information and an authentication result by wireless communication or infrared communication.

  According to the configuration of the electric drill driver of this modification, the driver main body and the battery pack can realize the authentication function without changing the number of pins and the usage pattern of the main body side connection terminal 27 and the battery side connection terminal 35. it can.

  -As for the electric drill driver 10 of 2nd Embodiment and 3rd Embodiment, a battery pack transmits the authentication result of the main body authentication part 91 to a driver main body part. However, the configuration of the battery pack is not limited to the configuration exemplified in the second and third embodiments. For example, the battery pack of the modified example outputs the authentication result of the main body authentication unit 91 as the overdischarge detection result. The battery pack outputs a signal when the authentication results of the main body authentication unit 91 do not match as an overdischarge detection signal. The driver body receives the overdischarge detection signal and stops the operation of the electric drill driver 10.

  -As for the electric drill driver 10 of 2nd Embodiment and 3rd Embodiment, a battery pack has the main body authentication part 91, the main body authentication information holding part 92, and the main body identification information acquisition part 93. FIG. However, the configuration of the battery pack is not limited to the contents exemplified in the second and third embodiments. For example, the battery pack of the modification has a microcontroller. The battery pack constructs a main body authentication unit 91, a main body authentication information holding unit 92, and a main body identification information acquisition unit 93 in the microcontroller.

  -The electric drill driver 10 of 1st-3rd embodiment detects that the trigger switch 25 which the driver main body part has was pulled in by the user, and starts authentication operation | movement. However, the configuration of the driver main body is not limited to the content exemplified in the first to third embodiments. For example, the driver main body of the modification detects that the battery pack is attached and the voltage is supplied, and starts the authentication operation.

  According to the configuration of the electric drill driver of this modification, the driver main body can reduce power consumption for authentication.

  DESCRIPTION OF SYMBOLS 10 ... Electric drill driver, 20 ... Driver main-body part, 30 ... Battery pack, 37 ... Battery identification information holding part, 40 ... Motor, 43 ... Notification part, 50 ... Control part, 51 ... Battery authentication part, 52 ... Battery identification information Acquiring unit 61 ... Battery authentication information holding unit 62 ... Body identification information holding unit 80 ... Driver main unit 90 ... Battery pack 91 ... Body authentication unit 92 ... Body authentication information holding unit 93 ... Body identification information acquisition Part, 100 ... driver main part, 110 ... battery pack.

Claims (10)

A power tool having a main body and a battery pack,
The battery pack has a battery identification information holding unit,
The main body has a motor, a control unit, a battery authentication information holding unit, and a battery authentication program executed by the control unit,
The battery authentication program causes the control unit to acquire battery identification information of the battery identification information holding unit, the control unit based on the battery identification information and the battery authentication information of the battery authentication information holding unit. A battery authentication step for authenticating the battery pack; and a motor control step for controlling the drive of the motor by the control unit based on an authentication result of the battery authentication step. A power tool having a main body and a battery pack,
The main body includes a motor, a controller, and a battery authentication information holding unit,
The battery pack has a battery identification information holding unit,
The control unit has a battery identification information acquisition unit and a battery authentication unit,
The battery identification information acquisition unit acquires the battery identification information of the battery identification information holding unit from the battery pack,
The battery authentication unit authenticates the battery pack based on the battery authentication information and the battery identification information of the battery authentication information holding unit,
The electric power tool controls driving of the motor based on an authentication result of the battery authentication unit. A power tool having a main body and a battery pack,
The battery pack has a main body identification information acquisition unit, a main body authentication information holding unit, and a main body authentication unit,
The main body unit includes a motor, a control unit, a main body identification information holding unit,
The main body identification information acquisition unit acquires the main body identification information of the main body identification information holding unit from the main body unit,
The main body authentication unit authenticates the main body unit based on the main body authentication information and the main body identification information of the main body authentication information holding unit, and outputs an authentication result.
The said control part controls the drive of the said motor based on the authentication result of the said main body authentication part Electric tool. A power tool having a main body and a battery pack,
The battery pack includes a main body identification information acquisition unit, a battery identification information holding unit, a main body authentication information holding unit, and a main body authentication unit,
The main body unit has a motor, a control unit, a battery authentication information holding unit, a main body identification information holding unit, and a battery authentication program executed by the control unit,
The main body identification information acquisition unit acquires the main body identification information of the main body identification information holding unit from the main body unit,
The main body authentication unit authenticates the main body unit based on the main body authentication information and the main body identification information of the main body authentication information holding unit, and outputs an authentication result.
The battery authentication program causes the control unit to acquire battery identification information of the battery identification information holding unit, the control unit based on the battery identification information and the battery authentication information of the battery authentication information holding unit. A battery authentication step for authenticating the battery pack, a battery control step, and a motor control step for controlling the drive of the motor based on an authentication result of the main body authentication unit. A power tool having a main body and a battery pack,
The battery pack includes a main body identification information acquisition unit, a battery identification information holding unit, a main body authentication information holding unit, and a main body authentication unit,
The main body includes a motor, a control unit, a battery authentication information holding unit, and a main body identification information holding unit,
The control unit has a battery identification information acquisition unit and a battery authentication unit,
The battery identification information acquisition unit acquires the battery identification information of the battery identification information holding unit from the battery pack,
The battery authentication unit authenticates the battery pack based on the battery authentication information and the battery identification information of the battery authentication information holding unit,
The main body identification information acquisition unit acquires the main body identification information of the main body identification information holding unit from the main body unit,
The main body authentication unit authenticates the main body unit based on the main body authentication information and the main body identification information of the main body authentication information holding unit, and outputs an authentication result.
The electric tool controls driving of the motor based on authentication results of the battery authentication unit and the main body authentication unit. The electric power tool according to any one of claims 1 to 5, wherein the control unit controls the motor to one of a normal drive state and a stop state based on the authentication result. The electric power tool according to any one of claims 1 to 5, wherein the control unit controls the motor to one of a normal drive state and a low-speed drive state based on the authentication result. The power tool has a notification unit,
The power tool according to claim 1, wherein the control unit causes the notification unit to perform a notification operation based on the authentication result. The power tool according to claim 1, 2, 4, or 5, wherein the battery authentication information holding unit holds a plurality of the battery authentication information. The power tool according to any one of claims 3 to 5, wherein the main body authentication information holding unit holds a plurality of the main body authentication information.