The present invention relates to a power supply system, a power tool system, and a power tool.
As disclosed in Patent Literature 1, there has been proposed a configuration including terminals provided to a wearing member worn on a hand of a worker for a power supply system that supplies electric power to a power tool. In the power supply system, the terminals are electrically connected to the power tool when the worker wearing the wearing member grips a grip of the power tool.
Patent Literature 1: Japanese Patent Application Laid-open No. 2009-196072
In the configuration according to Patent Literature 1, two terminals are disposed side by side in a manner exposed from the wearing member. If a conductive member comes into contact with the two terminals, an electrical short circuit may possibly occur between the terminals.
An aspect of the present invention has been made in view of the above circumstance and has an object to provide a power supply system, a power tool system, and a power tool that are capable of preventing an electrical short circuit between terminals.
According to an aspect of the present invention, a power supply system includes a wearing part, a connecting member, and a control circuit. The wearing part is worn on a hand of a worker. The connecting member is held by the wearing part. The connecting member is disposed at a position where it is attached to a tool-side attachment part provided on a grip of a power tool when the worker wearing the wearing part grips the grip. The connecting member has a terminal arrangement surface having a planar shape and provided with a power source terminal and a signal terminal in an exposed manner. The power source terminal supplies electric power to the power tool. The signal terminal receives a response signal from the power tool. The power source terminal and the signal terminal are electrically connected to the power tool in an attached state where the connecting member is attached to the tool-side attachment part. The control circuit makes the power source terminal and a power source unit electrically continuous when the signal terminal receives the response signal and makes the power source terminal and the power source unit electrically discontinuous when the signal terminal receives no response signal.
An aspect of the present invention provides a power supply system, a power tool system, and a power tool that are capable of preventing an electrical short circuit.
Embodiments according to the present invention are described below with reference to the accompanying drawings. The embodiments are not intended to limit the present invention. Components in the embodiments below include components replaceable and easily conceivable by those skilled in the art and components substantially identical therewith.
The power tool 50 includes a grip 51 gripped by the worker. The grip 51 is provided with a tool-side attachment part 52 to which the power supply system 100 according to the present embodiment is connected. The tool-side attachment part 52 is provided at a position corresponding to the base part of the index finger and the middle finger on the palm of the worker's hand when the worker grips a predetermined position.
The power supply system 100 supplies electric power to the power tool 50. The power supply system 100 includes a wearing part 10, a connecting member 20, an adapter 30, and a control circuit 40.
The connecting member 20 is held by the wearing part 10. The connecting member 20 is disposed on the palm side of the worker's hand on the wearing part 10. The connecting member 20 is disposed at a position where it is attached to the tool-side attachment part 52 provided on the grip 51 of the power tool 50 when the worker wearing the wearing part 10 grips the grip 51. The connecting member 20, for example, is disposed at a position corresponding to the base part of the index finger and the middle finger on the wearing part 10 when the worker wears the wearing part 10. Disposing the connecting member 20 at this position can prevent the connecting member 20 from being an obstacle in work when the worker wearing the wearing part 10 performs the work. The connecting member 20 is removed from the tool-side attachment part 52 when the worker releases the grip 51.
The power source terminals 21 supply electric power to the power tool 50. The power source terminals 21 include a positive electrode terminal 21a and a negative electrode terminal 21b (refer to
The electrical continuity permission circuit 42 is connected to a positive electrode of a power source unit 80, which will be described later, and the positive electrode terminal 21a of the power source terminals 21. The negative electrode terminal 21b of the power source terminals 21 is connected to a negative electrode of the power source unit 80, which will be described later. The electrical continuity permission circuit 42 receives the electrical continuity permission signal S1 or the electrical continuity prohibition signal S2 output from the tool recognition circuit 41. If the electrical continuity permission signal S1 is input, the electrical continuity permission circuit 42 makes the power source unit 80 and the positive electrode terminal 21a electrically continuous. If the electrical continuity prohibition signal S2 is input, the electrical continuity permission circuit 42 makes the power source unit 80 and the positive electrode terminal 21a electrically discontinuous. The electrical continuity permission circuit 42 may include a switching element, such as a transistor, that switches the state between the positive electrode of the power source unit 80 and the positive electrode terminal 21a between the electrically continuous state and the electrically discontinuous state, for example.
A tool-side connecting member 60 is disposed in an opening 53. The tool-side connecting member 60 has a rectangular columnar shape, for example, and has a tool-side terminal arrangement surface 60a and a supported surface. The tool-side terminal arrangement surface 60a comes into contact with the terminal arrangement surface 20a of the connecting member 20 when the connecting member 20 is attached to the tool-side attachment part 52.
On the tool-side terminal arrangement surface 60a, tool-side power source terminals 61 and tool-side signal terminals 62 are provided in an exposed manner. The tool-side power source terminals 61 include a tool-side positive electrode terminal 61a and a tool-side negative electrode terminal 61b (refer to
The tool-side signal terminals 62 include a tool-side first terminal 62a and a tool-side second terminal 62b (refer to
The tool-side attachment part 52 has a bottom. The bottom of the tool-side attachment part 52 has the opening 53. The opening 53 communicates with a space 51K for moving the tool-side connecting member 60. The space 51K is formed in the grip 51. The tool-side connecting member 60 is inserted into the space 51K and disposed with the tool-side terminal arrangement surface 60a protruding from the opening 53. The supported surface 60b of the tool-side connecting member 60 is supported by an inner wall 51c defining the space 51K of the grip 51 using an elastic member 64, such as a spring. With this structure, the tool-side connecting member 60 is held at a reference position P1 with no force applied thereto from the outside. When force toward the inside of the tool-side attachment part 52 is applied to the tool-side connecting member 60 from the outside, the elastic member 64 is elastically deformed, thereby enabling the tool-side connecting member 60 to move toward the space 51K. When the force applied in the tool-side attachment part 52 toward the inside of the space 51K is released, the tool-side connecting member 60 returns to the reference position P1 by the elastic force of the elastic member 64.
When the tool-side connecting member 60 is pushed toward the space 51K, the elastic member 64 contracts, thereby causing the tool-side connecting member 60 to move to a connection position P2 closer to the space 51K. The movement of the tool-side connecting member 60 pushes the link 63 toward the inside of the space 51K. As a result, the link 63 contracts and exerts elastic force in a direction to close the switch 54. The elastic force closes the switch 54, thereby electrically connecting the response circuit 55 and the tool-side first terminal 62a of the tool-side signal terminals 62. When the switch 54 is closed, the response circuit 55 transmits a response signal of the power tool 50 to the tool-side signal terminal 62. When the force pushing the tool-side connecting member 60 toward the space 51K is eliminated, the elastic member 64 is restored, thereby causing the tool-side connecting member 60 to return to the reference position P1. The movement of the tool-side connecting member 60 pushes the link 63 toward the outside of the space 51K. As a result, the link 63 expands and exerts elastic force in a direction to open the switch 54. The elastic force opens the switch 54, thereby cutting off the electrical connection between the response circuit 55 and the tool-side first terminal 62a of the tool-side signal terminals 62. When the switch 54 is opened, the response circuit 55 transmits no response signal of the power tool 50 to the tool-side signal terminal 62.
In the tool-side attachment part 52, a switching unit 70 includes the tool-side connecting member 60, the elastic member 64, the switch 54, and the link 63. The switching unit 70 switches electrical connection between the power source terminals 21 and the tool-side power source terminals 61 as well as electrical connection between the signal terminals 22 and the response circuit 55.
When electric power is supplied to the power tool 50 via the tool-side power source terminals 61, the tool controller 56 controls operations of the power tool 50. The tool controller 56 controls the timing and the speed of rotation of the motor 57, for example, based on an operation of the worker. The motor 57 is a drive power source of the power tool 50, for example, and is used to rotate a drill in the present embodiment.
The adapter 30 is detachably mounted to the jacket 11. On the adapter 30, the power source unit 80 is detachably mounted. The adapter 30 includes: a fixed part 31 to be fixed to the jacket 11; a battery attachment part 32 to which the power source unit 80 is attached; and a connection part 33 to which a terminal of a cable is connected.
The fixed part 31 is hung on at least part of the jacket 11, thereby being fixed to the jacket 11. The fixed part 31 is fixed to the jacket 11, thereby attaching the adapter 30 to the jacket 11. The fixing of the fixed part 31 to the jacket 11 is released, thereby removing the adapter 30 from the jacket 11.
The fixed part 31 may be provided to a portion other than the jacket 11. In this case, the adapter 30 can be fixed to a portion other than the jacket 11. The fixed part 31 may be provided to a belt or a pair of pants worn by the worker, for example. With this structure, the adapter 30 can be attached to the waist or the legs of the worker, for example. Alternatively, the fixed part 31 is not necessarily provided. In this case, the adapter 30 and the power source unit 80 may be accommodated in an accommodation part (e.g., a pocket) of the jacket 11 or a pair of pants, for example.
The battery attachment part 32 is coupled to the power source unit 80. The power source unit 80 is a supply source of electric power supplied from the power source terminals 21 to the power tool 50 and the control circuit 40, which will be described later. The power source unit 80 is a rechargeable battery, for example. The power source unit 80 is attached to the battery attachment part 32. The battery attachment part 32 has a guide 32G that guides the power source unit 80. The power source unit 80 is slid along the battery attachment part 32 while being guided by the guide 32G, thereby being attached to the battery attachment part 32. The power source unit 80 is attached to the adapter 30, thereby making the adapter 30 and the power source unit 80 electrically continuous.
The connection part 33 has a recessed connection port formed in part of the adapter 30, for example (refer to
The following describes an example of the use mode of the power tool system SYS having the configuration described above.
As illustrated in
In the separated state, the switching unit 70 is in a first state ST1 where the power source terminals 21 are electrically disconnected from the tool-side power source terminals 61, and the signal terminals 22 are electrically disconnected from the response circuit 55. As illustrated in
As a result, the tool recognition circuit 41 in the control circuit 40 detects no input of the response signal. Consequently, the tool recognition circuit 41 outputs the electrical continuity prohibition signal S2 to the electrical continuity permission circuit 42. The electrical continuity permission circuit 42 receives the electrical continuity prohibition signal S2 as the output signal from the tool recognition circuit 41. As a result, the electrical continuity permission circuit 42 makes the positive electrode of the power source unit 80 and the positive electrode terminal 21a of the power source terminals 21 electrically discontinuous.
In the intermediate state, the switching unit 70 is in a second state ST2 where the power source terminals 21 come into contact with the tool-side power source terminals 61, and the signal terminals 22 are electrically disconnected from the response circuit 55. As illustrated in
As a result, the tool recognition circuit 41 in the control circuit 40 detects no input of the response signal. Consequently, the tool recognition circuit 41 outputs the electrical continuity prohibition signal S2 to the electrical continuity permission circuit 42. The electrical continuity permission circuit 42 receives the electrical continuity prohibition signal S2 as the output signal from the tool recognition circuit 41. As a result, the electrical continuity permission circuit 42 makes the positive electrode of the power source unit 80 and the positive electrode terminal 21a of the power source terminals 21 electrically discontinuous. In the second state ST2, the power source terminals 21 are in contact with the tool-side power source terminals 61, but the positive electrode of the power source unit 80 and the positive electrode terminal 21a of the power source terminals 21 are electrically discontinuous. Consequently, no electric power is supplied from the power source unit 80 to the power tool 50.
In the attached state, the switching unit 70 is in a third state ST3 where the power source terminals 21 are electrically connected to the tool-side power source terminals 61, and the signal terminals 22 are electrically connected to the response circuit 55. As illustrated in
As a result, the tool recognition circuit 41 in the control circuit 40 detects input of the response signal. Consequently, the tool recognition circuit 41 outputs the electrical continuity permission signal S1 to the electrical continuity permission circuit 42. The electrical continuity permission circuit 42 receives the electrical continuity permission signal S1 as the output signal from the tool recognition circuit 41. As a result, the electrical continuity permission circuit 42 makes the positive electrode of the power source unit 80 and the positive electrode terminal 21a of the power source terminals 21 electrically continuous. In the third state ST3, the power source terminals 21 are electrically connected to the tool-side power source terminals 61, and the positive electrode of the power source unit 80 and the positive electrode terminal 21a of the power source terminals 21 are electrically continuous. Consequently, the tool controller 56 of the power tool 50 is electrically connected to the positive electrode of the power source unit 80 via the tool-side positive electrode terminal 61a and the positive electrode terminal 21a. The tool controller 56 is also electrically connected to the negative electrode of the power source unit 80 via the tool-side negative electrode terminal 61b and the negative electrode terminal 21b. Consequently, the electric power is supplied from the power source unit 80 to the tool controller 56 (power tool 50).
When the worker wearing the wearing part 10 does not grip the grip 51 of the power tool 50, for example, the connecting member 20 is in the separated state where it is removed from the tool-side attachment part 52. As a result, the power tool system SYS is brought into the first state ST1. When the worker tries to grip the grip 51 in this state, the power tool system SYS is brought into the intermediate state. In the intermediate state, the worker puts the hand on the grip 51, for example. As a result, the connecting member 20 fits into the tool-side attachment part 52, and the terminal arrangement surface 20a comes into contact with the tool-side terminal arrangement surface 60a. At this time, the power tool system SYS is brought into the second state ST2.
Subsequently, the worker grips the grip 51, thereby thrusting the connecting member 20 into the tool-side attachment part 52. As a result, the tool-side connecting member 60 is thrusted into the space 51K and disposed at the connection position P2. The movement of the tool-side connecting member 60 causes the link 63 to contract and close the switch 54. The switch 54 is closed, thereby connecting the response circuit 55 to the tool-side first terminal 62a. As a result, the power tool system SYS is brought into the third state ST3. In the third state ST3, the worker can operate the power tool 50 by performing an operation of pulling a trigger T (refer to
Subsequently, when the worker tries to release the grip 51 and remove the connecting member 20 from the tool-side attachment part 52 in the third state ST3, the power tool system SYS is brought into the intermediate state. In the intermediate state, if the worker reduces the force of gripping the grip 51, the force of thrusting the tool-side connecting member 60 into the space 51K is weakened. If this force is smaller than the elastic force of the link 63, the elastic member 64 is restored. As a result, the tool-side connecting member 60 is returned to the reference position P1 with the terminal arrangement surface 20a of the connecting member 20 remaining in contact with the tool-side terminal arrangement surface 60a of the tool-side connecting member 60. The switch 54 is opened by being pulled by the link 63, thereby cutting off the electrical connection between the response circuit 55 and the tool-side first terminal 62a. Consequently, the power tool system SYS is brought into the second state ST2. In this case, the tool recognition circuit 41 detects no input of the response signal and outputs the electrical continuity prohibition signal S2 to the electrical continuity permission circuit 42. The electrical continuity permission circuit 42 receives the electrical continuity prohibition signal S2, thereby making the positive electrode of the power source unit 80 and the positive electrode terminal 21a of the power source terminals 21 electrically discontinuous. As a result, no electric current flows between the power source terminals 21 and the tool-side power source terminals 61 with the positive electrode terminal 21a of the power source terminals 21 remaining in contact with the tool-side positive electrode terminal 61a of the tool-side power source terminals 61 and with the negative electrode terminal 21b remaining in contact with the tool-side negative electrode terminal 61b.
When the worker separates the hand from the grip 51 in this state, the terminal arrangement surface 20a is separated from the tool-side terminal arrangement surface 60a, and the connecting member 20 is removed from the tool-side attachment part 52. As a result, the power tool system SYS is brought into the first state ST1. In the present embodiment, an electric current is prevented from flowing between the power source terminals 21 and the tool-side power source terminals 61 with the power source terminals 21 remaining in contact with the tool-side power source terminals 61; and subsequently, the power source terminals 21 is separated from the tool-side power source terminals 61. This makes it possible to suppress an arc current or the like generated between the power source terminals 21 and the tool-side power source terminals 61.
As described above, the power supply system 100 according to the present embodiment includes the wearing part 10, the connecting member 20, the adapter 30, and the control circuit 40. The wearing part 10 is worn on a hand of a worker. The connecting member 20 is held by the wearing part 10. The connecting member 20 is disposed at a position where it is attached to the tool-side attachment part 52 provided on the grip 51 of the power tool 50 when the worker wearing the wearing part 10 grips the grip 51. The connecting member 20 includes the terminal arrangement surface 20a having a planar shape and provided with the power source terminals 21 that supply electric power to the power tool 50 and the signal terminals 22 that receive a response signal from the power tool 50 in an exposed manner. The power source terminals 21 and the signal terminals 22 are electrically connected to the power tool 50 when the connecting member 20 is attached to the tool-side attachment part 52. The adapter 30 is mountable with the power source unit 80 serving as a supply source of the electric power. The control circuit 40 detects whether the signal terminals 22 receive the response signal when the power source unit 80 is attached to the adapter 30. If the response signal is detected, the control circuit 40 makes the power source terminals 21 and the power source unit 80 electrically continuous. If no response signal is detected, the control circuit 40 makes the power source terminals 21 and the power source unit 80 electrically discontinuous.
If the signal terminals 22 receive no response signal of the power tool 50, the power source terminals 21 and the power source unit 80 are electrically discontinuous. Consequently, the power supply system 100 can prevent an electrical short circuit between a plurality of terminals when a conductive member, such as a wire, a nail, a screw, and a bolt, comes into contact with the terminals in the configuration where the power source terminals 21 and the signal terminals 22 are disposed and exposed on the terminal arrangement surface 20a having a planar shape.
After the worker thrusts the grip 51 into the tool-side attachment part 52, when the worker releases the grip 51 and removes the connecting member 20 from the tool-side attachment part 52, an electric current can be prevented from flowing between the power source terminals 21 and the tool-side power source terminals 61 with the power source terminals 21 remaining in contact with the tool-side power source terminals 61. With this configuration, the power source terminals 21 and the tool-side power source terminals 61 can be prevented from being separated while an electric current flows therebetween. This makes it possible to suppress an arc current generated between the power source terminals 21 and the tool-side power source terminals 61.
In the power supply system 100 according to the present embodiment, the control circuit 40 includes the tool recognition circuit 41 and the electrical continuity permission circuit 42. The tool recognition circuit 41 outputs the electrical continuity permission signal S1 if the signal terminals 22 receive input of the response signal and outputs the electrical continuity prohibition signal S2 if the signal terminals 22 receive no input of the response signal. The electrical continuity permission circuit 42 receives an output signal from the tool recognition circuit 41. The electrical continuity permission circuit 42 makes the power source terminals 21 and the power source unit 80 electrically continuous if the output signal is the electrical continuity permission signal S1 and makes the power source terminals 21 and the power source unit 80 electrically discontinuous if the output signal is the electrical continuity prohibition signal S2. With this configuration, the electrical connection state between the power source terminals 21 and the power source unit 80 can be switched simply and effectively.
In the power supply system 100 according to the present embodiment, the power source terminals 21 include the positive electrode terminal 21a and the negative electrode terminal 21b. The positive electrode terminal 21a is connected to the positive electrode of the power source unit 80 via the electrical continuity permission circuit 42. The negative electrode terminal 21b is connected to the negative electrode of the power source unit 80. The positive electrode terminal 21a and the negative electrode terminal 21b are disposed on the terminal arrangement surface 20a. This makes it possible to prevent a short circuit between the positive electrode terminal 21a and the negative electrode terminal 21b.
In the power supply system 100 according to the present embodiment, the signal terminals 22 include the first terminal 22a and the second terminal 22b connected to the tool recognition circuit 41. The first terminal 22a and the second terminal 22b are disposed on the terminal arrangement surface 20a. This makes it possible to prevent a short circuit between the first terminal 22a and the second terminal 22b.
The power supply system 100 according to the present embodiment further includes the jacket 11 provided with the adapter 30 and worn by the worker. The wearing part 10 is coupled to the sleeve 12 of the jacket 11. With this configuration, the worker can wear both of the wearing part 10 and the adapter 30 together by wearing the jacket 11.
The power tool system SYS according to the present embodiment includes the power tool 50 and the power supply system 100. The power tool 50 includes the grip 51 gripped by the worker and is provided with the tool-side attachment part 52 on the grip 51. The power supply system 100 supplies electric power to the power tool 50. With this configuration, the power tool system SYS can prevent an electrical short circuit.
In the power tool system SYS according to the embodiment, the power tool 50 includes the tool controller 56, the tool-side power source terminals 61, the response circuit 55, and the tool-side signal terminals 62. The tool controller 56 controls the power tool 50. The tool-side power source terminals 61 are connected to the tool controller 56. The response circuit 55 outputs the response signal. The tool-side signal terminals 62 are connected to the response circuit 55. With this configuration, the power supply system 100 can supply electric power in a simpler manner.
The following describes a second embodiment.
As illustrated in
The opening 153 is connected to the space 51K of the grip 51. A tool-side connecting member 160 is disposed in the opening 153. The tool-side connecting member 160 has a rectangular columnar shape, for example, and has a tool-side terminal arrangement surface 160a and a supported surface. The tool-side terminal arrangement surface 160a comes into contact with the terminal arrangement surface 20a of the connecting member 20 when the connecting member 20 is attached to the tool-side attachment part 152. The tool-side terminal arrangement surface 160a is provided with tool-side power source terminals 61. The tool-side power source terminals 161 include a tool-side positive electrode terminal 161a and a tool-side negative electrode terminal 161b.
The bottom of the tool-side attachment part 152 comes into contact with the terminal arrangement surface 20a when the connecting member 20 is attached to the tool-side attachment part 152. Tool-side signal terminals 162 are disposed on the bottom of the tool-side attachment part 152. The tool-side signal terminals 162 include a tool-side first terminal 162a and a tool-side second terminal 162b.
The supported surface of the tool-side connecting member 160 is supported by the inner wall 51c defining the space 51K of the grip 51 using the elastic member 64, such as a spring. The tool-side connecting member 160 is held at the reference position P1 with no force applied thereto from the outside. When force toward the inside of the tool-side attachment part 152 is applied to the tool-side connecting member 160 from the outside, the elastic member 64 is elastically deformed, thereby enabling the tool-side connecting member 160 to move toward the space 51K. When the force applied in the tool-side attachment part 152 toward the inside of the space 51K is released, the tool-side connecting member 160 returns to the reference position P1 by the elastic force of the elastic member 64. The tool-side power source terminal 161 according to the present embodiment moves together with the tool-side connecting member 160. By contrast, the position of the tool-side signal terminals 162 remains fixed at the bottom of the tool-side attachment part 152.
In the tool-side attachment part 152, a switching unit 170 includes the tool-side connecting member 160 and the elastic member 64. The switching unit 170 switches electrical connection between the power source terminals 21 and the tool-side power source terminals 161 as well as electrical connection between the signal terminals 22 and the response circuit 55.
In the separated state, the switching unit 170 is in a fourth state ST4 where the power source terminals 21 are electrically disconnected from the tool-side power source terminals 161, and the signal terminals 22 are electrically disconnected from the response circuit 55. As illustrated in
As a result, the tool recognition circuit 41 in the control circuit 40 detects no input of the response signal. Consequently, the tool recognition circuit 41 outputs the electrical continuity prohibition signal S2 to the electrical continuity permission circuit 42. The electrical continuity permission circuit 42 receives the electrical continuity prohibition signal S2 as the output signal from the tool recognition circuit 41. As a result, the electrical continuity permission circuit 42 makes the positive electrode of the power source unit 80 and the positive electrode terminal 21a of the power source terminals 21 electrically discontinuous.
In the intermediate state, the switching unit 170 is in a fifth state ST5 where the power source terminals 21 come into contact with the tool-side power source terminals 161, and the signal terminals 22 are electrically disconnected from the response circuit 55. As illustrated in
As a result, the tool recognition circuit 41 in the control circuit 40 detects no input of the response signal. Consequently, the tool recognition circuit 41 outputs the electrical continuity prohibition signal S2 to the electrical continuity permission circuit 42. The electrical continuity permission circuit 42 receives the electrical continuity prohibition signal S2 as the output signal from the tool recognition circuit 41. As a result, the electrical continuity permission circuit 42 makes the positive electrode of the power source unit 80 and the positive electrode terminal 21a of the power source terminals 21 electrically discontinuous. In the fifth state ST5, the power source terminals 21 are in contact with the tool-side power source terminals 161, but the positive electrode of the power source unit 80 and the positive electrode terminal 21a of the power source terminals 21 are electrically discontinuous. Consequently, no electric power is supplied from the power source unit 80 to the power tool 150.
In the attached state, the switching unit 170 is in a sixth state ST6 where the power source terminals 21 are electrically connected to the tool-side power source terminals 161, and the signal terminals 22 are electrically connected to the response circuit 55. As illustrated in
As a result, the tool recognition circuit 41 in the control circuit 40 detects input of the response signal. Consequently, the tool recognition circuit 41 outputs the electrical continuity permission signal S1 to the electrical continuity permission circuit 42. The electrical continuity permission circuit 42 receives the electrical continuity permission signal S1 as the output signal from the tool recognition circuit 41. As a result, the electrical continuity permission circuit 42 makes the positive electrode of the power source unit 80 and the positive electrode terminal 21a of the power source terminals 21 electrically continuous. In the sixth state ST6, the power source terminals 21 are electrically connected to the tool-side power source terminals 161, and the positive electrode of the power source unit 80 and the positive electrode terminal 21a of the power source terminals 21 are electrically continuous. Consequently, the electric power is supplied from the power source unit 80 to the tool controller 56 (power tool 150).
In the power tool system SYS2 according to the present embodiment, the tool-side attachment part 152 is provided with the tool-side signal terminals 162 at a position where they come into contact with the signal terminals 22 in the attached state. The switching unit 170 includes the tool-side connecting member 160 and the elastic member 64. The tool-side connecting member 160 has the tool-side terminal arrangement surface 160a having a planar shape on which the tool-side power source terminals 161 are provided in an exposed manner. The elastic member 64 couples the inside of the grip 51 and the tool-side connecting member 160. In the separated state, the elastic member 64 supports the tool-side connecting member 160 at the reference position P1. In the attached state, the elastic member 64 supports the tool-side connecting member 160 at the connection position P2. The connection position P2 is present on the inner side of the grip 51 with respect to the reference position P1 and is a position where the tool-side power source terminals 161 come into contact with the power source terminals 21 and where the tool-side signal terminals 162 come into contact with the signal terminals 22. In the intermediate state, the elastic member 64 supports the tool-side connecting member 160 at the intermediate position P3. The intermediate position P3 is present between the reference position P1 and the connection position P2 and is a position where the tool-side power source terminals 161 come into contact with the power source terminals 21 and where the tool-side signal terminals 162 are separated from the signal terminals 22. This makes it possible to prevent an electrical short circuit between the terminals if the positions of the tool-side power source terminals 161 and the tool-side signal terminals 162 are different and suppress an arc current generated between the power source terminals 21 and the tool-side power source terminals 61.
The technical scope of the present invention is not limited to the embodiments above, and appropriate changes may be made without departing from the spirit of the invention. While the wires 23 connected to the power source terminals 21 and the signal terminals 22 have a linear form in the embodiments above, for example, the embodiments are not limited thereto.
While the tool-side attachment parts 52 and 152 are provided in advance to the power tools 50 and 150 in the embodiments above, for example, the embodiments are not limited thereto. Components corresponding to the tool-side attachment parts 52 and 152 may be attached to and detached from the grip 51 of the power tools 50 and 150, for example.
While the power supply system 100 includes the adapter 30 on which the power source unit 80 is mountable in the embodiments above, for example, the embodiments are not limited thereto. The power supply system 100 does not necessarily include the adapter 30, and the power source unit 80 may be included in the jacket 11, for example. Alternatively, the power supply system 100 does not necessarily include the adapter 30 and may use an AC power source as the power source unit 80. In this case, wires may extend from the jacket 11 and include a plug to be inserted into a socket of the AC power source at the end of the wires, for example. The power source unit 80 may be included in the power tools 50 and 150.
While the switch 54, the link 63, and the elastic member 64 are provided to the power tool 50 in the embodiments above, for example, the embodiments are not limited thereto. The switch 54, the link 63, and the elastic member 64 may be provided to the power supply system 100, such as the connecting member 20.
While the switch 54, the link 63, and the elastic member 64 are provided to the power tool 50 in the embodiments above, for example, the embodiments are not limited thereto. The switch 54, the link 63, and the elastic member 64 may be provided to the outside of the power tools 50 and 150, such as the connecting member 20.
While the control circuit 40 is disposed in the jacket 11 in the embodiments above, for example, the embodiments are not limited thereto. The control circuit 40 may be provided to the connecting member 20 or the power tools 50 and 150, for example. Furthermore, at least one of the tool recognition circuit 41 and the electrical continuity permission circuit 42 may be provided to the connecting member 20 or the power tools 50 and 150, for example.
Number | Date | Country | Kind |
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2017-113754 | Jun 2017 | JP | national |
Filing Document | Filing Date | Country | Kind |
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PCT/JP2018/019686 | 5/22/2018 | WO | 00 |