JP2023172070A - Control adapter, electric power tool, and construction management method - Google Patents

Abstract

To provide an electric power tool configured to be able to reduce a management burden on an operator by preventing human errors and to improve construction quality.SOLUTION: A first identification unit corresponding to first data indicating a wiring tool itself is disposed in the wiring tool, and a second identification unit corresponding to second data indicating a machining tool itself is disposed in the machining tool. A control adapter 4 comprises: a recognition unit 20; a communication unit 14 that can perform wireless communication with an external device; and a second control unit 12 that is signal-connected to a first control unit and can acquire tool data held by the first control unit. The recognition unit and the communication unit are signal-connected to the second control unit. The second control unit compares the first and second data acquired by the recognition unit with the tool data acquired from the first control unit, and transmits combination data based on the wiring tool, the machining tool, and the tool data to the external device by controlling the communication unit.SELECTED DRAWING: Figure 1

Description

The present invention relates to a control adapter attached to a power tool, a power tool, and a construction management method.

Portable power tools are used for compressing and crimping electric wires and crimp sleeves, compressing and crimping electric wires and crimp terminals, and the like. Conventionally, a crimping work quality control system has been proposed in which an IC tag is attached to a crimping terminal to record the work history, and when a malfunction occurs, the cause is analyzed to prevent recurrence (Patent Document 1: Publication No. 2006-164023). Furthermore, a control adapter and a power tool capable of wirelessly communicating with an external device have been proposed (Patent Document 2: Japanese Patent No. 6,613,401).

Japanese Patent Application Publication No. 2006-164023 Patent No. 6613401

When compressing crimp sleeves and joining wires at the work site, prepare crimp sleeves that are compatible with various types of wires, prepare dies that are compatible with the crimp sleeves, and inspect power tools before work. I do. The same procedure applies to compressing and crimping wires and crimp terminals, and electrical installation work that processes other wiring tools. However, in the prior art, the quality of the crimping work itself at the work site is left to the operator's own judgment, making it difficult to eliminate human errors. Further, as in Patent Document 1, a method in which a worker inputs information related to crimping work using a numeric keypad increases the management burden on the worker, making it difficult to thoroughly manage construction work.

The present invention has been made in view of the above circumstances, and provides a control adapter, a power tool, and a construction management method that are configured to prevent human errors, reduce the management burden on workers, and improve construction quality. With the goal.

In one embodiment, the above problem is solved by the solution disclosed below.

A control adapter according to the present invention is configured to be attached to a main body of a power tool, which has a tool head to which a processing tool is attached, a motor for operating the tool head, and a first control section for controlling the motor. , a first identification part corresponding to first data indicating the wiring tool itself is disposed on the wiring tool, a second identification section corresponding to second data indicating the processing tool itself is arranged on the processing tool, and the second identification section corresponding to the second data indicating the processing tool itself is arranged on the processing tool. a recognition unit capable of acquiring the first data and the second data, a communication unit capable of wireless communication with an external device, and a second control unit capable of acquiring the tool data held by the first control unit, The recognition unit and the communication unit are each signal-connected to the second control unit, and the second control unit receives the first data and the second data acquired by the recognition unit, and the first control unit. The processing data obtained when processing the wiring tool corresponding to the combination data is set as combination data based on the wiring tool, the processing tool, and the tool data. The processed data is acquired from the external device, and the processed data is transmitted to the external device.

According to this configuration, the data necessary for work management is acquired by the second control unit and transmitted to external devices including mobile information terminals, data management servers, etc., so the management burden on the worker can be reduced. As a result, it is possible to create a configuration that can improve construction quality.

The power tool according to the present invention includes a tool head to which a processing tool is attached, a motor for operating the tool head, a first control section for controlling the motor, and a main body section to which the tool head is attached. The configuration includes a control adapter attached to the main body, wherein the wiring tool is provided with a first identification part corresponding to first data indicating the wiring tool itself, and the processing tool is provided with a first identification section corresponding to second data indicating the processing tool itself. The control adapter includes a recognition unit that can acquire the first data and the second data, a communication unit that can wirelessly communicate with an external device, and a second identification unit that can acquire the first data and the second data, and a communication unit that can wirelessly communicate with an external device. the recognition unit and the communication unit are each signal-connected to the second control unit, and the second control unit is capable of acquiring tool data held by the recognition unit. The first data and the second data acquired by the controller are compared with the tool data acquired from the first control unit, and the combination data is determined as combination data based on the wiring tool, the processing tool, and the tool data. is transmitted to the external device, processing data obtained when the wiring fitting is processed in accordance with the combination data is obtained from the first control unit, and the processing data is sent to the external device. shall be.

According to this configuration, the data necessary for work management is acquired by the control adapter and sent to external devices including mobile information terminals, data management servers, etc., so the management burden on the worker can be reduced. It is possible to create a configuration that can improve construction quality. The control adapter has a structure that can be attached to and detached from the power tool, and depending on the content of field work, the tool can be operated rationally by attaching the control adapter to the power tool.

In the construction management method according to the present invention, a first identification part corresponding to first data indicating the wiring tool itself is disposed on the wiring tool, and a second identification section corresponding to second data indicating the processing tool itself is arranged on the processing tool. A method for managing construction by attaching a control adapter capable of wireless communication with an external device to a power tool that is arranged and has tool data, the control adapter having the first data, the second data, and the tool. data, and transmits processing data when processing the wiring tool corresponding to the combination data to the external device as combination data based on the wiring tool, the processing tool, and the tool data. do.

According to this configuration, data necessary for work management is transmitted to the external device by the control adapter, so that the management burden on the worker can be reduced and construction quality can be improved.

In the construction management method according to the present invention, a first identification part corresponding to first data indicating the wiring tool itself is disposed on the wiring tool, and a second identification section corresponding to second data indicating the processing tool itself is arranged on the processing tool. A method for managing construction work using a power tool that is arranged, has tool data, and can communicate wirelessly with an external device, the power tool transmitting the first data, the second data, and the tool data. The method is characterized in that processing data obtained when the wiring tool is processed in accordance with the combination data is transmitted to the external device as combination data based on the wiring tool, the processing tool, and the tool data.

According to this configuration, data necessary for work management is transmitted to the external device by the power tool, so that the management burden on the worker can be reduced and construction quality can be improved.

The control adapter has a GPS circuit, and the second control unit acquires position data based on position information of a place where the wiring fitting is processed from the GPS circuit, and transmits the position data to the external device. It is preferable that the configuration is as follows. According to this configuration, the data necessary for work management can be linked to the position data of the work place, so more detailed construction management can be easily achieved.

The control adapter has a display section, and the second control section is configured to determine whether the combination data is correct and send a first error signal to the display section when determining that the combination data is incorrect. It is preferable that the apparatus is configured to determine whether the processed data corresponding to the combination data is correct and to transmit a second error signal to the display unit when it is determined that the processed data is incorrect. According to this configuration, the control adapter indicates to the worker on-site whether the combination of wiring fittings, processing tools, and power tools is correct or incorrect, as well as whether the electrical installation work is correct or incorrect, making it easy to provide quick feedback to the worker. It can be achieved.

As an example, the wiring tool is a crimp sleeve or a crimp terminal, the first identification part is a first wireless tag, the processing tool is a die, and the second identification part is a second wireless tag. , the recognition unit is an NFC reader. As an example, the workpiece is a crimp sleeve or a crimp terminal, the first identification part is a first identification code, the processing tool is a die, and the second identification part is a second identification code. Yes, and the recognition unit is a code reader. This allows for rational construction management that reduces initial costs.

According to the present invention, it is possible to realize a control adapter, a power tool, and a construction management method that are configured to prevent human errors, reduce the management burden on workers, and improve construction quality.

FIG. 1 is a schematic side view showing an example of a power tool according to an embodiment of the present invention. FIG. 2 is a schematic perspective view of the power tool shown in FIG. 1, viewed from the front side. FIG. 3 is a schematic perspective view of the power tool shown in FIG. 1 viewed from the back side. 4A is a schematic plan view showing an example of a control adapter according to an embodiment of the present invention, FIG. 4B is a side view of the control adapter shown in FIG. 4A, and FIG. 4C is a bottom view of the control adapter shown in FIG. 4A. It is. 5A is a schematic perspective view of the control adapter shown in FIG. 4A viewed from the front side, FIG. 5B is a schematic perspective view of the control adapter shown in FIG. 5A viewed from the back side, and FIG. 5C is a schematic perspective view of the control adapter shown in FIG. It is a schematic perspective view of the control adapter shown from the bottom side. FIG. 6 is a schematic configuration diagram showing an example of the circuit configuration of the power tool according to the present embodiment. FIG. 7 is a schematic flowchart showing an example of the operation procedure of the control adapter according to the present embodiment. FIG. 8A is a diagram showing an example of a crimp sleeve applied to this embodiment, FIG. 8B is a diagram showing an example of a crimp terminal applied to this embodiment, and FIG. 8C is a diagram showing an example of a crimp terminal applied to this embodiment. FIG. 8D is a diagram showing an example of male dice, and FIG. 8D is a diagram showing an example of female dice applied to this embodiment.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. In this embodiment, a motor 9 is driven by the electric power of the battery pack 5, a hydraulic pump 8 is driven by the driving force of the motor 9, and the piston 7a in the cylinder part 7 is reciprocated by the hydraulic pressure of the hydraulic pump 8 to drive the tool head. 3, and is a portable and cordless type power tool 1. Here, in order to make it easier to explain the positional relationship of each part of the power tool 1, the directions are indicated by X, Y, and Z arrows in the figure. The piston 7a reciprocates along the first axis P1. Note that the power tool 1 operates normally regardless of the orientation when working.

As shown in FIG. 1, the power tool 1 includes a tool head 3 to which a processing tool 70 is attached, a hydraulic pump 8 and a motor 9, a first control section 11 that controls the motor 9, and a tool head 3 to which the tool head 3 is attached. This configuration includes a main body part 2, a control adapter 4 attached to the main body part 2, and a battery pack 5 attached to the control adapter 4. The tool head 3 is an example of a compression processing tool, and is a multifunctional power tool 1 in which the tool head 3 is replaceable.

2 is a schematic perspective view of the power tool 1 shown in FIG. 1 viewed from the front side, and FIG. 3 is a schematic perspective view of the power tool 1 viewed from the back side. The main body part 2 includes a cylinder part 7 in which a piston 7a is disposed, an oil tank 6, and a hydraulic pump connected to the cylinder part 7 for sending hydraulic oil in the oil tank 6 to the piston chamber of the cylinder part 7. 8, a motor 9 connected to the hydraulic pump 8 for driving the hydraulic pump 8, and a first control section 11 for driving and controlling the motor 9 are provided inside the housing 2a. As an example, the hydraulic pump 8 is a swash plate type piston pump having a swash plate cam rotated by a drive shaft of a motor 9. A battery pack 5 that supplies power to the motor 9 and the first control section 11 is detachably connected to the control adapter 4. The battery pack 5 includes a secondary battery such as a lithium ion battery or a nickel hydride battery. The control adapter 4 is detachably connected to the first connecting portion 2e of the main body portion 2. The first connecting portion 2e is connected to the handle 2d of the main body portion 2. The handle 2d is a handle portion that is held by the operator, and is provided with an activation switch 2c. When the start switch 2c is pressed, the motor 9 becomes ready for operation. The first control unit 11 is, for example, a CPU consisting of a one-chip microcomputer.

The main body part 2 has a first connection part 2e, and the battery pack 5 has a fourth connection part 5b that can be connected to and detached from the first connection part 2e. The control adapter 4 has a second connecting part 4a that can be connected to and disconnected from the first connecting part 2e, and a third connecting part 4b that can be connected to and disconnected from the fourth connecting part 5b, on opposite sides of each other. As shown in FIG. 2, the control adapter 4 is connected to the first connection part 2e of the main body part 2, and the battery pack 5 is connected to the fourth connection part 5b of the control adapter 4.

The power tool 1 of this embodiment is used for compressing and crimping an electric wire and a crimp sleeve, compressing and crimping an electric wire and a crimp terminal, and the like. FIG. 8A is a diagram showing an example of a crimp sleeve 51 of the wiring fitting 50 applied to this embodiment, and FIG. 8B is a diagram showing an example of a crimp terminal 52 of the wiring fitting 50 applied to this embodiment. 8C is a diagram showing an example of a male die 71 of the processing tool 70 applied to this embodiment, and FIG. 8D is a diagram showing an example of a female die 72 of the processing tool 70 applied to this embodiment. It is a figure showing an example.

The wiring tool 50 is provided with a first identification section 60 corresponding to first data indicating the wiring tool itself, and the processing tool 70 is provided with a second identification section 80 corresponding to second data indicating the processing tool itself. There is. As an example, the first identification unit 60 is a first wireless tag, the second identification unit is a second wireless tag, and the recognition unit 20 described later is an NFC reader. The wireless tag is an IC tag that exchanges information through short-range wireless communication mainly using radio waves from an RF tag in which ID information is embedded. Alternatively, as an example, the first identification section 60 is a first identification code, the second identification section 80 is a second identification code, and the recognition section 20 described later is a code reader. The identification code is an adhesive sheet on which a barcode or QR code (registered trademark) is printed. This eliminates the need for large-scale capital investment and enables rational construction management with reduced initial costs.

4A is a schematic plan view showing an example of the control adapter 4 according to this embodiment, FIG. 4B is a side view of the control adapter 4, and FIG. 4C is a bottom view of the control adapter 4. 5A is a schematic perspective view of the control adapter 4 viewed from the front side, FIG. 5B is a schematic perspective view of the control adapter 4 viewed from the back side, and FIG. 5C is a schematic perspective view of the control adapter 4 viewed from the bottom side. FIG. 2 is a schematic perspective view. The control adapter 4 includes a recognition section 20, a communication section 14, a second control section 12, a display section 13, a GPS circuit 15, and other various circuits. The recognition section 20 , the communication section 14 , the display section 13 , the GPS circuit 15 , the detection circuit 16 , the power supply circuit 17 , the timer 18 , and the memory 19 are connected to the second control section 12 by signals.

The recognition unit 20 is configured to be able to acquire first data from a first identification unit 60 disposed on the wiring fitting 50 and second data from a second identification unit 80 disposed on the processing tool 70, for example. It is an NFC reader. The recognition section 20 is installed upright on the front side of the control adapter main body, and the reader section of the recognition section 20 is oriented diagonally upward, and is inclined at an angle that makes it easy to acquire the first data and the second data. There is. An LED 25 for illumination is disposed above the recognition unit 20, and is arranged so that the wiring fitting 50 and the processing tool 70 can be easily recognized by illuminating the wiring fitting 50 and the processing tool 70 as necessary. A receptacle 24a for signal connection between an external memory or an external signal line and an interface 24 inside the control adapter 4 is arranged above the recognition unit 20. Receptacle 24a may be compliant with USB, RS-232C, or other known PC signal connection standards. A power switch 23 is disposed above the side surface of the control adapter 4. When the power switch 23 is turned on, the control adapter 4 is activated.

The communication unit 14 is configured to be able to communicate wirelessly with the external device S. The external device S includes a mobile information terminal such as a smartphone or a tablet PC, a data management server connected to a wireless communication device, and the like. The wireless communication standards used by the communication unit 14 are compatible with the external device S, and include Bluetooth (registered trademark), ZigBee (registered trademark), SIGFOX (registered trademark), LoRa (registered trademark), NB-IoT, LPWA, and NFC. , Wi-Fi (registered trademark), wireless LAN, and other known wireless communication standards.

The display unit 13 is configured to be capable of displaying images, and includes a liquid crystal display, an organic EL display, etc., and is provided with an external input function unit such as a touch panel as necessary. A first switch 31 and a second switch 32 are arranged below the display section 13. The first switch 31 and the second switch 32 are operated by an operator when changing the operation mode of the control adapter 4.

The GPS circuit 15 has a GPS reception function, and acquires, for example, position data based on the position information of the place where the wiring fitting 50 is processed and time data based on the time information when the wiring fitting 50 is processed. .

The second control section 12 controls the recognition section 20, the communication section 14, the display section 13, the GPS circuit 15, and other various circuits. The second control unit 12 is configured to be able to acquire tool data held by the first control unit 11, and by connecting the control adapter 4 to the main body 2, the second control unit 12 and the first control unit 11 can be connected. is connected to the signal. The second control unit 12 is, for example, a CPU consisting of a one-chip microcomputer.

FIG. 6 is a schematic configuration diagram showing an example of the circuit configuration of the power tool 1 according to the present embodiment. Subsequently, the circuit configuration of the power tool 1 will be explained below.

The power tool 1 is capable of compressing and crimping the electric wire 98 and the crimp sleeve 51, compressing and crimping the electric wire 98 and the crimp terminal 52, and other known wiring tools 50, such as crimping the electric wire ends and the electric wires together. Used for processing electrical equipment work. A pressure sensor 7b that detects the pressure when the tool head 3 processes the wiring fitting 50 is arranged in the cylinder chamber of the cylinder part 7, and the output part of the pressure sensor 7b is signal-connected to the first control part 11. . A temperature sensor 9a that detects the motor temperature is arranged in the housing of the motor 9, and an output section of the temperature sensor 9a is connected to the first control section 11 for a signal. The first connecting portion 2e of the main body portion 2 is signal-connected to the second connecting portion 4a of the control adapter 4.

The control adapter 4 is attached to the power tool 1 and used. Recognition unit 20, communication unit 14, display unit 13, GPS circuit 15, detection circuit 16 that detects the current flowing through the motor 9, power supply circuit 17 that supplies power to the motor 9, timer 18 that holds time data, and stores data. The memory 19 , the interface 24 , and the LED 25 are connected to the second control unit 12 through signals. The first switch 31 and the second switch 32 are used to change the operation mode of the control adapter 4 and are signal-connected to the second control section 12 . The third connection 4b of the control adapter 4 is signal-connected to the fourth connection 5b of the battery pack 5.

The battery pack 5 is attached to the control adapter 4 and used. As an example, it is a large-capacity lithium ion battery that combines many cells, and the power supply voltage that can be supplied with DC power is 80 to 240 [V]. The battery pack 5 detects the battery temperature by detecting the resistance value of the thermistor 5a. The thermistor 5a is signal-connected to the second control section 12.

For example, the communication unit 14 is configured to be able to perform wireless communication by pairing with an external device S using Bluetooth (registered trademark). The external device S is, for example, a smartphone, and includes, as an example, an application program 90 that is installed on the smartphone and can access a data management center corresponding to the type of power tool 1 in order to wirelessly communicate with the communication unit 14. It is the composition. As a result, construction management using the external device S can be easily performed by simply accessing the network, downloading and installing the application program 90 to the communication device as needed. Furthermore, control data necessary for construction management can be easily updated to the latest version.

FIG. 7 is a schematic flowchart showing an example of the operation procedure of the control adapter 4 according to the present embodiment. Subsequently, the general operating procedure of the control adapter 4 will be described below.

In step S1, when the power switch 23 is turned on, the power supply to the motor 9 is cut off, and by pressing and holding the first switch 31 and the second switch 32 at the same time, the second control section 12 The tool data held by the control unit 11 is acquired. When tool data has already been acquired due to repeated work, etc., step S1 is omitted.

After the tool data is acquired, in step S2A, the second control unit 12 acquires position data based on the position information of the location where the wiring fitting 50 is to be processed from the GPS circuit 15. When the position data is acquired, the second control unit 12 controls the communication unit 14 to transmit the acquired tool data and position data to the external device S. The transmitted data is stored in the cloud. Note that data transmission at this stage is an optional condition.

When the worker brings the ID card close to the recognition section 20, in step S2B, the second control section 12 controls the recognition section 20 to acquire worker data from the worker ID card. When the worker data is acquired, the second control section 12 controls the communication section 14 to transmit the acquired worker data to the external device S. The transmitted data is stored in the cloud. Note that data transmission at this stage is an optional condition.

When the operator data is acquired, the mode shifts to tool inspection mode, and then in step S3, the second control section 12 controls the first control section 11 to perform a crimping operation to adjust the tool head 3 during crimping. The pressure is detected by the pressure sensor 7b, and the detected pressure signal is acquired. The crimping operation is performed a prescribed number of times, for example, 3 times.

When the operator performs the crimping operation three times, in step S4, the second control unit 12 calculates the output value based on the pressure signal from the pressure sensor 7b, and the calculated output value is within the appropriate range. Determine whether it is within the range.

In step S4, when the second control unit 12 determines that the output value is within the appropriate range, for example three times in a row, the process moves to step S5A and sends a signal to the display unit 13, and in step S5A, The character string "IDLE" indicating that the pre-processing state is appropriate is displayed. When it is displayed that the pre-processing state is appropriate, the machine enters an operation input standby state.

In step S4, for example, when the second control unit 12 determines that the output value is out of the appropriate range, the process moves to step S5B and sends a signal to the display unit 13, and in step S5B, the output value before processing is output. Displays the character string "ERROR" indicating an error. Also, the following strings are displayed depending on the error item. For example, when the output value is NG three times in a row, the character string "OUTPUT" is displayed, when the current value is abnormal, the character string "CURRENT" is displayed, and when the bypass is abnormal, the character string "BYPASS" is displayed. When the first switch 31 is pressed for a long time in the abnormal output state before processing, the process moves to step S5C, where short-range communication becomes possible, the data log is transmitted to the external device S, and the process stops.

In step S5A, when the first switch 31 is pressed and held while the character string "IDLE" indicating that the output value before processing is normal is displayed, the recognition unit 20 enters the data acquisition standby state and the character string "IDLE" is displayed, indicating that the output value before processing is normal. The column "READ" is displayed and the process moves to step S6A. In step S6A, for example, when the male die 71 or the female die 72 is brought close to the recognition unit 20, the recognition unit 20 acquires second data that is the ID of the processing tool 70, and displays the corresponding size of the processing tool 70 in a character string. Then, the process moves to step S6B. In step S6B, for example, when the crimp sleeve 51 is brought close to the recognition unit 20, the recognition unit 20 acquires the first data, which is the ID of the crimp sleeve 51, and when the crimp sleeve 51 matches the size of the processing tool 70, a character A column "OK" is displayed following the corresponding size of the processing tool 70, and the process moves to step S7.

In step S7, the second control unit 12 collates the acquired first data and second data with the acquired tool data, and generates combination data based on the wiring fitting 50, the processing tool 70, and the tool data. Then, it is determined whether the combination data is correct, and when it is determined that the combination data is normal, the process moves to step S8A and a signal is sent to the display section 13. In step S8A, the pre-processing state is set as the first state. The character string "OPERATION" indicating that the processing is appropriate and the processing operation is permitted is displayed. When permission for machining work is displayed, the machine enters a standby state for operation input.

In step S7, when the second control unit 12 determines that the combination data is incorrect, it sends a first error signal to the display unit 13, and in step S8B, the second control unit 12 detects an abnormality in the combination before processing. The character string "ERROR" is displayed. When the first switch 31 is pressed for a long time in the abnormal state of the combination before processing, the process moves to step S8C, short-range communication becomes possible, the data log is transmitted to the external device S, and the process stops.

When the operator performs the crimping operation three times, in step S9, the second control unit 12 receives processing data from the first control unit 11 when the wiring fitting 50 was processed in accordance with the combination data. The process then proceeds to step S10.

In step S10, the second control unit 12 determines whether or not the obtained processed data is within an appropriate range, and when it is determined that the processed data is normal, the process proceeds to step S11A, and the display unit 13 In step S11A, a character string "OPERATION" indicating that the post-processing state as the second state is appropriate and that the processing operation is permitted to continue is displayed. When permission for machining work is displayed, the machine enters a standby state for operation input. When the first switch 31 is pressed for a long time while the processing result is in a normal state, the process moves to step S12, short-range communication becomes possible, the data log is transmitted to the external device S, and the process stops.

In step S10, when determining that the acquired processed data is out of the appropriate range, the second control unit 12 sends a second error signal to the display unit 13, and in step S11B, the second control unit 12 sends a second error signal to the display unit 13. displays a character string "ERROR" indicating an abnormality in the processed data. When the first switch 31 is pressed for a long time in an abnormal state of the processing result, the process moves to step S12, short-range communication becomes possible, the data log is transmitted to the external device S, and the process stops.

As an example, the relationship between the items and management data managed by the second control section 12 and the display operation of the display section 13 is shown in Table 1 below.

As an example, the following Table 2 shows the relationship between the control operations of the second control section 12 and the operation modes indicated by the character strings displayed on the display section 13.

According to this embodiment, the control adapter 4 and the power tool 1 are configured to prevent human errors, reduce the management burden on workers, and improve construction quality.

In the above example, a case has been described in which a crimp terminal or a crimp sleeve is compressed and crimped as the wiring fitting 50, but the present invention is not limited to this example. This embodiment can be applied to electrical installation tools in general. Further, in the above example, a configuration in which the battery pack 5 is externally attached has been described, but the configuration is not limited to this example. This embodiment may have a configuration in which the battery pack 5 is built into the main body 2, or a configuration in which both a built-in battery and a battery pack are provided. Although the recognition unit 20 has been described as being an NFC reader, it is not limited to this example. This embodiment can also be applied to a case where the recognition unit is a code reader.

The present invention is not limited to the embodiments described above, and various modifications can be made without departing from the scope of the present invention.

1 Power tool 2 Main unit, 2a Housing, 2c Starting switch, 2d Handle, 2e First connection part 3 Tool head 4 Control adapter, 4a Second connection part, 4b Third connection part 5 Battery pack, 5a Thermistor, 5b 4 Connection part 6 Oil tank 7 Cylinder part, 7a Piston, 7b Pressure sensor 8 Hydraulic pump 9 Motor, 9a Temperature sensor 11 First control part 12 Second control part 13 Display part 14 Communication part 15 GPS circuit 16 Detection circuit 17 Power supply Circuit 18 Timer 19 Memory 20 Recognition section 23 Power switch 24 Interface, 24a Receptacle 25 LED
31 First switch 32 Second switch 50 Wiring tool 60 First identification section 70 Processing tool (dice)
80 Second identification unit 90 Application program P1 Axis line S External device

Claims (12)

The structure is attached to a main body of a power tool having a tool head to which a processing tool is attached, a motor for operating the tool head, and a first control section for controlling the motor, and the wiring tool itself is attached to the wiring tool. A first identification portion corresponding to first data indicating the processing tool is disposed, and a second identification portion corresponding to second data indicating the processing tool itself is arranged on the processing tool, and the first data and the second data are a recognition unit capable of acquiring, respectively, a communication unit capable of wirelessly communicating with an external device, and a second control unit capable of acquiring tool data held by the first control unit, the recognition unit and the communication unit are each signal-connected to the second control unit, and the second control unit is configured to input the first data and the second data acquired by the recognition unit, and the tool data acquired from the first control unit. and obtains processing data from the first control unit when processing the wiring fitting corresponding to the combination data as combination data based on the wiring fitting, the processing tool, and the tool data, and obtaining the processing data from the first control unit. A control adapter characterized in that the control adapter is configured to transmit the information to the external device. The second control unit is configured to have a GPS circuit, and the second control unit acquires position data based on position information of a place where the wiring tool is processed from the GPS circuit, and transmits the position data to the external device. The control adapter according to claim 1, characterized in that: the second control unit is configured to determine whether the combination data is correct and send a first error signal to the display unit when determining that the combination data is incorrect; and . . . , wherein the processed data corresponding to the combination data is determined to be correct or incorrect, and when it is determined that the processed data is erroneous, a second error signal is transmitted to the display unit. Or the control adapter described in 2. The wiring tool is a crimp sleeve or a crimp terminal, the first identification part is a first wireless tag, the processing tool is a die, the second identification part is a second wireless tag, and the recognition 3. The control adapter according to claim 1, wherein the control adapter is an NFC reader. A tool head to which a processing tool is attached, a motor for operating the tool head, a first control part for controlling the motor, a main body part to which the tool head is attached, and a control adapter attached to the main body part. A first identification part corresponding to first data indicating the wiring tool itself is disposed on the wiring tool, and a second identification section corresponding to second data indicating the processing tool itself is arranged on the processing tool. The control adapter includes a recognition unit capable of acquiring the first data and the second data, a communication unit capable of wirelessly communicating with an external device, and acquisition of tool data held by the first control unit. the recognition unit and the communication unit are each signally connected to the second control unit, and the second control unit is configured to control the first data acquired by the recognition unit and the communication unit. collating the second data with the tool data acquired from the first control unit, and transmitting the combination data to the external device as combination data based on the wiring tool, the processing tool, and the tool data; A power tool characterized in that the power tool is configured to acquire processing data from the first control unit when processing the wiring fitting in accordance with the combination data, and to transmit the processing data to the external device. The second control unit is configured to have a GPS circuit, and the second control unit acquires position data based on position information of a place where the wiring tool is processed from the GPS circuit, and transmits the position data to the external device. The power tool according to claim 5. The control adapter has a display section, and the second control section is configured to determine whether the combination data is correct and send a first error signal to the display section when determining that the combination data is incorrect. and is configured to determine whether the processed data corresponding to the combination data is correct and send a second error signal to the display unit when it is determined that the processed data is incorrect. The power tool according to claim 5 or 6. The wiring tool is a crimp sleeve or a crimp terminal, the first identification part is a first wireless tag, the processing tool is a die, the second identification part is a second wireless tag, and the recognition The power tool according to claim 5 or 6, wherein the part is an NFC reader. A first identification part corresponding to first data indicating the wiring tool itself is disposed on the wiring tool, a second identification section corresponding to second data indicating the processing tool itself is arranged on the processing tool, and the processing tool has tool data. A method for managing construction by attaching a control adapter capable of wireless communication with an external device to a power tool, the control adapter collating the first data and the second data with the tool data, and A construction management method characterized in that, as combination data based on the processing tool and the tool data, processing data obtained when processing the wiring tool in accordance with the combination data is transmitted to the external device. A first identification part corresponding to first data indicating the wiring tool itself is disposed on the wiring tool, a second identification section corresponding to second data indicating the processing tool itself is arranged on the processing tool, and the tool data is disposed on the processing tool. A method for managing construction using a power tool capable of wireless communication with an external device, wherein the power tool collates the first data, the second data, and the tool data, and connects the wiring fittings to the processing. A construction management method characterized in that, as combination data based on a tool and the tool data, processing data obtained when the wiring fitting is processed in accordance with the combination data is transmitted to the external device. The control adapter has a GPS circuit, and is configured to acquire position data based on position information of a place where the wiring tool is processed from the GPS circuit, and transmit the position data to the external device. The construction management method according to claim 9. The power tool has a GPS circuit, and is configured to acquire position data based on position information of a place where the wiring tool is processed from the GPS circuit, and transmit the position data to the external device. The construction management method according to claim 10.

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