JP2018015868A - Power tool - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a power tool which can collect material information relating to electrical facility material at a construction site.SOLUTION: A power tool 1 is used for construction of electrical facility material 40. The electrical facility material 40 includes a storage part 803, a transmission part 802, a power supply part 805, and a power reception part 81. The storage part 803 stores material information. The transmission part 802 transmits a radio signal including the material information. The power supply part 805 supplies power to the storage part 803 and the transmission part 802. The power reception part 81 supplies contactlessly-received power to the power supply part 805. The power tool 1 includes a power feed part 11, a receiving part 131, and a storage part 12. The power feed part 11 supplies power to the power reception part 81 contactlessly. The receiving part 131 receives the radio signal transmitted from the transmission part. The storage part 12 stores the material information contained in the radio signal received by the receiving part.SELECTED DRAWING: Figure 1

Description

  The present invention generally relates to a power tool, and more particularly to a power tool used for the construction of electrical equipment materials.

  Conventionally, there is an electric tool that uses electricity as a power source (see, for example, Patent Document 1). The electric tool of Patent Literature 1 includes a motor, a speed reduction mechanism, and a drive transmission unit. The deceleration mechanism transmits the rotational power of the motor after decelerating. The drive transmission unit transmits the rotational power transmitted through the speed reduction mechanism unit to the output shaft. The motor, the speed reduction mechanism portion, and the drive transmission portion are accommodated in the body housing.

  An electric tool can be used for construction of electric construction materials (for example, refer to patent documents 2). The electrical installation material (wiring box) of Patent Document 2 includes a resin box main body formed in a box shape with one side opened, and a reaction frame provided along the peripheral edge of the opening of the box main body. The box body is disposed such that the opening faces the back surface of the wall plate or the like. The reaction frame can react to a metal detector located on the front side of a wall plate or the like. The reaction frame is formed using a resin having conductivity.

Japanese Patent Laying-Open No. 2015-16551 JP-A-8-196017

  At the construction site, it was desired to collect material information on electrical construction materials.

  This invention is made | formed in view of the said reason, The objective is to provide the electric tool which can collect the material information regarding electrical construction material in a construction site.

  The electric power tool of the present invention is an electric power tool used for construction of electric construction materials. The electrical installation material includes a first storage unit, a transmission unit, a power supply unit, and a power reception unit. The first storage unit stores material information. The transmission unit transmits a radio signal including the material information. The power supply unit supplies power to the first storage unit and the transmission unit. The power receiving unit supplies power received in a non-contact manner to the power source unit. The power tool includes a power feeding unit, a receiving unit, and a second storage unit. The power feeding unit supplies power to the power receiving unit in a contactless manner. The receiving unit receives a radio signal transmitted from the transmitting unit. The second storage unit stores the material information included in a radio signal received by the receiving unit.

  The electric power tool of the present invention has an effect that it is possible to collect material information related to electric construction materials at a construction site.

FIG. 1 is a block diagram of a power tool according to an embodiment of the present invention. FIG. 2 is a configuration diagram of the above-described electric tool. FIG. 3 is a perspective view of an electrical installation material (wiring box). FIG. 4A is a front view of an electrical installation material (wiring box). FIG. 4B is a left side view of the electrical installation material (wiring box). FIG. 4C is a right side view of the electrical installation material (wiring box). FIG. 4D is a plan view of the electrical installation material (wiring box). FIG. 5A is a cross-sectional view of a state in which an electrical installation material (wiring box) is disposed on the back side of the construction material. FIG. 5B is a cross-sectional view showing an example of a usage pattern of the electrical facility material (wiring box). FIG. 6 is an exploded perspective view of the wiring device attached to the electrical equipment material (wiring box). FIG. 7 is a block diagram for explaining the power receiving unit of the power feeding unit.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. 2 to 6 described in the following embodiments are schematic diagrams, and the dimensional ratio of each component does not necessarily reflect the actual dimensional ratio.

(Embodiment)
<Overview>
A block diagram of the electric power tool 1 of the present embodiment is shown in FIG. The electric power tool 1 of the present embodiment is a portable electric power tool used for the construction of the electric construction material 40. The electrical installation material 40 is a material for electrical equipment, and includes, for example, parts, equipment, equipment used inside and outside the building. The electric power tool 1 according to the present embodiment is configured to supply electric power to the electric construction material 40 in a non-contact manner and to exchange information with the electric construction material 40 using a radio signal. As a result, the electric power tool 1 can collect material information that is information related to the electrical installation material 40.

  In the present embodiment, the electric power tool 1 is an electric impact driver that is tightened by rotating a work target and applying an impact force, and the electric installation material 40 forms a wiring box 4 that forms a space for wiring the electric wires 71. The case will be described as an example (see FIGS. 3 and 5B).

<Details>
Below, the detail of the electric tool 1 of this embodiment is demonstrated.

  The electric power tool 1 according to the present embodiment includes a control unit 10, an operation unit 21, a tightening unit 22, a measurement unit 23, and a power supply unit 24.

  As shown in FIG. 2, the body 31 of the electric power tool 1 includes a cylindrical body portion 311 and a grip portion 312 that protrudes in the radial direction from the peripheral surface of the body portion 311. An output shaft 32 protrudes from one end side in the axial direction of the body portion 311. A socket 33 is provided on the output shaft 32. A bit (for example, a driver bit or the like) that matches the member to be worked is detachably attached to the socket 33. A battery pack 313 in which the power supply unit 24 is housed in a resin case is detachably attached to one end of the grip portion 312 (lower end in FIG. 2).

  The control unit 10 has a microcomputer (microcomputer) as a main configuration, for example, and a processor realizes a desired function by executing a program stored in a memory. The circuit board 34 provided with the control unit 10 and the like is housed in the grip unit 312.

  The operation unit 21 includes a trigger switch 314 provided on the grip unit 312. When the trigger switch 314 is operated, an operation signal having a magnitude proportional to the pull-in amount (operation amount) of the trigger switch 314 is input to the control unit 10.

  The tightening unit 22 includes a motor 35 and a drive circuit that controls the rotation of the motor 35 in accordance with a control signal input from the control unit 10. The rotation of the output shaft of the motor 35 is transmitted to the output shaft 32 via the impact mechanism 36. If the output torque is below a predetermined level, the impact mechanism 36 is configured to decelerate the rotation of the output shaft of the motor 35 and transmit it to the output shaft 32. When the output torque exceeds a predetermined level, the impact mechanism 36 is configured to apply a striking force to the output shaft 32 and screw the work target screw or bolt. The motor 35 and the impact mechanism 36 are accommodated in the body portion 311.

  The measurement unit 23 is configured to measure the tightening force by the tightening unit 22. The measuring unit 23 measures the torque applied to the output shaft 32 by a magnetostrictive torque sensor 37 attached to the output shaft 32, and obtains the tightening force from the measured value of the torque sensor 37. Note that the measurement unit 23 may count the number of hits applied to the output shaft 32 by the impact mechanism 36 with a vibration sensor, and obtain the tightening force from the number of hits.

  The power supply unit 24 is housed in the battery pack 313. The power supply unit 24 includes a rechargeable battery. The power supply unit 24 is configured to charge the rechargeable battery by connecting the battery pack 313 removed from the grip unit 312 to the charger. The power supply unit 24 supplies electric power necessary for the operation to the electric circuit including the control unit 10 and the motor 35 with electric power charged in the rechargeable battery.

  The control unit 10 controls the rotation of the tightening unit 22 so that the tightening force measured by the measuring unit 23 matches the set value of the tightening force read from the memory. When the error between the tightening force measured by the measurement unit 23 and the set value falls within a predetermined allowable range (for example, ± 20% of the set value), the control unit 10 stops the operation of the tightening unit 22.

  The electric power tool 1 according to this embodiment includes a power feeding unit 11, a storage unit 12, a communication unit 13, a notification unit 14, an input unit 15, an acquisition unit 16, and an output unit 17.

  The power feeding unit 11 is configured to supply electric power to the power receiving unit 81 included in the wiring box 4 in a non-contact manner using electromagnetic induction. The specific configuration of the power supply unit 11 will be described together with the description of the power reception unit 81 provided in the wiring box 4 described later.

  The storage unit 12 includes a flash memory such as a ROM (Read Only Memory), a RAM (Random Access Memory), and an EEPROM (Electrically Erasable Programmable Read Only Memory).

  The communication unit 13 is a communication module capable of performing short-range wireless communication, such as an RFID (radio frequency identifier), and includes a reception unit 131 and a transmission unit 132. The receiving unit 131 is configured to receive a radio signal from the transmitting unit 802 included in the wiring box 4. The transmission unit 132 is configured to transmit a radio signal to the reception unit 801 included in the wiring box 4. The storage unit 12 stores information included in a radio signal transmitted and received by the communication unit 13 to and from the wiring box 4. Note that the communication unit 13 may be a communication module that can perform short-range wireless communication such as Bluetooth (registered trademark).

  The notification unit 14 is configured to generate a notification when the reception unit 131 normally receives a radio signal transmitted from the transmission unit 802 included in the wiring box 4. Examples of the notification generated by the notification unit 14 include lighting (or blinking) of an LED (Light Emitting Diode), a buzzer, and the like.

  The input unit 15 is an interface through which construction information is input. The construction information is information related to the construction of the electrical equipment material 40. For example, the construction date, the location information of the construction place, the model number / ID / setting (for example, tightening torque, etc.) of the electric tool 1 used for construction, the operator Information and the like. The input unit 15 receives construction information from an external device 100 (for example, a smartphone or a tablet terminal) via a communication module that supports wireless communication such as Bluetooth (registered trademark) or Wi-Fi (registered trademark). . The control unit 10 stores the construction information input to the input unit 15 in the storage unit 12. The method for inputting construction information to the input unit 15 is not limited to the above. For example, the input unit 15 may be configured such that construction information is input from the external device 100 via a communication line such as a USB cable (USB: Universal Serial Bus). The input unit 15 may be configured such that construction information is input from an infrared remote controller via an infrared signal receiving module. Moreover, the input part 15 may be comprised so that construction information may be input using the switch provided in the body 31 (refer FIG. 2).

  The acquisition unit 16 is configured by a GPS receiver (GPS: Global Positioning System), for example, and receives position information (latitude, longitude, altitude data) of itself (acquisition unit 16) by receiving radio waves from GPS satellites. ) To get. The acquisition unit 16 is preferably configured to acquire position information when the operation unit 21 is operated. Thereby, the acquisition part 16 can acquire the positional information at the time of constructing the electrical installation material 40. FIG. The control unit 10 stores the position information acquired by the acquisition unit 16 in the storage unit 12 as construction information. The acquisition unit 16 includes a beacon signal receiver compliant with BLE (Bluetooth Low Energy), and acquires position information in the building by receiving a beacon signal from a wireless station provided in the building, for example. It may be configured as follows.

  The output unit 17 outputs the information stored in the storage unit 12 to the external device 100 via a communication module that supports wireless communication such as Bluetooth (registered trademark) and Wi-Fi (registered trademark). It is configured. The output unit 17 may be configured to output information stored in the storage unit 12 to the external device 100 via a communication line such as a USB cable.

  Next, the wiring box 4 to be constructed will be described with reference to FIGS.

  As shown in FIG. 5A and FIG. 5B, the wiring box 4 has the construction material 90 on the back surface 92 side of the construction material 90 (for example, gypsum board) when the preceding wiring of the electric wire 71 or the like is performed, for example, in wiring work or the like. Attached to a supporting column 900 or the like. In the wiring box 4, the internal space 51 of the box body 50 forms a space for wiring of the electric wires 71.

  The box body 50 is formed of a synthetic resin having electrical insulation. The box body 50 is made of resin. The box body 50 is formed in a rectangular box shape. In short, in the box body 50, the bottom wall 53 is formed in a rectangular plate shape, and the peripheral wall 54 is formed in a rectangular frame shape. Hereinafter, for convenience of description, a side wall along the short side direction of the peripheral wall 54 of the box body 50 is referred to as a first side wall 541, and a side wall along the longitudinal direction is referred to as a second side wall 542.

  The wiring box 4 is preferably formed so as to satisfy the standard of one switch box in “JIS C 8435”. A wiring device having a mounting frame 500, a wiring device 60, an operation handle 600, and a plate 601 is attached to the wiring box 4 (see FIG. 6). The wiring box 4 is configured so that a mounting frame 500 (see FIGS. 5B and 6) for an embedded wiring device can be attached. More specifically, the wiring box 4 includes two mounting portions 55 for mounting the mounting frame 500 to the wiring box 4 with box mounting screws 550. The two attachment portions 55 are formed integrally with the box body 50. Two attachment portions 55 are formed on each of the two first side walls 541 of the box body 50. The attachment portion 55 is formed over the entire length of the first side wall 541 along the thickness direction of the bottom wall 53. The attachment portion 55 has a screw insertion hole 551 through which the box attachment screw 550 is inserted. The mounting portion 55 is insert-molded with a metal nut 552 into which the box mounting screw 550 inserted into the screw insertion hole 551 is fitted. Thereby, in the wiring box 4, the mounting frame 500 can be mounted by the two box mounting screws 550.

  The mounting frame 500 is preferably formed so as to satisfy the standard of a mounting frame for a large-angle continuous wiring apparatus capable of mounting three wiring apparatuses 60 of unit dimensions standardized in accordance with JIS standards. The attachment frame 500 is a series of attachment frames, and is formed in a rectangular frame shape. The mounting frame 500 is made of synthetic resin. The attachment frame 500 is formed with two long holes 501 through which the box attachment screws 550 pass. The mounting frame 500 is not limited to a synthetic resin and may be formed of a metal.

  The wiring device 60 in FIGS. 5B and 6 is a push button switch 61. The push button switch 61 is configured so that an operation handle 600 for operating the push button switch 61 can be attached and detached. The case 62 of the wiring device 60 is formed with four mounting claws 63 that protrude from the holding holes 502 of the mounting frame 500. The wiring device 60 is not limited to the push button switch 61. For example, the wiring device 60 may be an outlet or the like. The mounting frame 500 is a switch mounting frame. For this reason, when the wiring device 60 is an outlet, an attachment frame for an outlet is adopted as the attachment frame 500.

  A plate 601 is attached to the attachment frame 500. The plate 601 includes a rectangular frame-shaped plate frame 602 and a decorative plate 603. The plate frame 602 and the decorative plate 603 are made of synthetic resin. The plate frame 602 is configured to be attached to the mounting frame 500 by a plate screw. The mounting frame 500 is formed with a screw hole 503 for fitting the shaft portion of the plate screw. The screw hole 503 is formed outside the long hole 501 in the longitudinal direction of the mounting frame 500. The plate frame 602 is disposed so as to cover the surface side of the mounting frame 500. The plate frame 602 is formed with two insertion holes 621 each through which a shaft portion of a plate screw is inserted. The decorative plate 603 is disposed so as to cover the surface side of the plate frame 602. An opening 631 is formed at the center of the decorative plate 603. The opening 631 is formed in a size that exposes the operation handle 600. When the wiring device 60 is an outlet, the opening 631 of the decorative plate 603 is formed in a size that exposes the boss of the outlet.

  The decorative plate 603 is detachably attached to the plate frame 602. The outer peripheral shape of the decorative plate 603 is rectangular. The decorative plate 603 is provided with six hooks protruding from the back surface, and the decorative plate 603 can be attached to the plate frame 602 by inserting the hook into the attachment hole 622 of the plate frame 602 and hooking it on the peripheral portion of the attachment hole 622. it can. The decorative plate 603 is a member for concealing the head of the plate screw and improving the appearance.

  The mounting frame 500 and the plate 601 are disposed on the surface 91 side of the construction material 90. The wiring device 60 is arranged in the wiring box 4 at the back side. At least two electric wires 71 are connected to the wiring device 60. The electric wire 71 is an insulation-coated electric wire. The electric wire 71 is electrically connected to the terminal of the wiring device 60 by peeling off a part of the insulation coating.

  Each of the two first side walls 541 is formed with an electric wire insertion hole 56 through which a power cable 70 in which a plurality of electric wires 71 are accommodated in one insulating sheath 72 can be passed. The power cable 70 is, for example, a VVF cable. Each electric wire insertion hole 56 is formed across the first side wall 541 and the bottom wall 53.

  A knockout portion 57 is formed on each of the two first side walls 541. The knockout portion 57 is a portion formed so as to be easily penetrated in order to attach the conduit to the box body 50. In short, the knockout portion 57 is a portion formed so that a hole for attaching the conduit to the box body 50 can be easily formed. Two knockout portions 57 are formed on the bottom wall 53 of the box body 50.

  Three screw insertion holes 58 through which fixing screws 901 (see FIG. 5A) for attaching the wiring box 4 to the pillar 900 are passed are formed in the two second side walls 542. Each screw insertion hole 58 is formed across the second side wall 542 and the bottom wall 53.

  The wiring box 4 includes an IC tag 80 formed in a chip shape and a power receiving unit 81.

  As illustrated in FIG. 1, the IC tag 80 includes a reception unit 801 (first reception unit), a transmission unit 802 (first transmission unit), a storage unit 803 (first storage unit), a control unit 804, and a power supply unit 805. It has. The IC tag 80 is disposed on the surface of the bottom wall 53 of the box body 50 (that is, the inner bottom surface of the box body 50). The IC tag 80 is disposed between the two knockout portions 57 of the bottom wall 53 in the front view.

  The receiving unit 801 is configured to be able to receive a radio signal transmitted from the transmitting unit 132 of the electric power tool 1. The transmission unit 802 is configured to be able to transmit a radio signal to the reception unit 131 of the electric tool 1. The storage unit 803 stores material information that is information related to the wiring box 4 in advance. Examples of the material information include a serial number, a manufacturing number, and a product number of the wiring box 4.

  The control unit 804 is configured to control the reception unit 801, the transmission unit 802, and the storage unit 803. The control unit 804 causes the storage unit 803 to store the construction information included in the wireless signal received by the receiving unit 801. Further, the control unit 804 causes the transmission unit 802 to transmit a wireless signal including at least one of material information and construction information stored in the storage unit 803 to the electric tool 1.

  The power supply unit 805 is configured to supply power necessary for operation to each of the storage unit 803, the reception unit 801, the transmission unit 802, and the control unit 804.

  The power receiving unit 81 is configured to receive power from the power feeding unit 11 of the electric power tool 1 in a non-contact manner and supply the received power to the power source unit 805.

  As shown in FIG. 7, the power supply unit 11 of the electric tool 1 includes a power supply coil 111 and an excitation circuit 112. The excitation circuit 112 is configured to be supplied with power from the power supply unit 24 and to pass excitation current through the power supply coil 111. The control unit 10 controls the operation of the excitation circuit 112.

  The power receiving unit 81 includes a power receiving coil 811 made of a metal foil. The power receiving coil 811 is provided over the entire circumference of the peripheral wall 54 of the box body 50. That is, the power reception coil 811 is disposed so as to surround the opening 52 in a front view. The power reception coil 811 is configured to be magnetically coupled to the power supply coil 111 of the power supply unit 11 and to receive power from the power supply coil 111 by electromagnetic induction. The power supply unit 805 has a function of converting power received by the power receiving coil 811 into predetermined power. The power supply unit 805 is configured by, for example, a capacitor. The power receiving coil 811 and the IC tag 80 are electrically connected via a conductor portion 82 formed across the peripheral wall 54 and the bottom wall 53 of the box body 50. The conductor part 82 is formed of a metal tape. The conductor 82 is not limited to a metal tape, and may be formed of a metal foil or the like.

<Operation example>
Next, an operation example of the electric power tool 1 of the present embodiment will be described. Here, the case where an operator constructs the wiring box 4 using the electric tool 1 will be described.

  The operator attaches the wiring box 4 to the column 900 by operating the operation unit 21 (trigger switch 314) of the electric tool 1 and tightening the fixing screw 901. The tightening torque of the fixing screw 901 at this time is measured by the measuring unit 23. The control unit 10 stores the measurement result (tightening torque) of the measurement unit 23 in the storage unit 12 as one piece of construction information. Further, the acquisition unit 16 acquires position information when the operator operates the operation unit 21 of the electric power tool 1. The control unit 10 stores the position information acquired by the acquisition unit 16 in the storage unit 12 as one piece of construction information.

  In addition, the worker uses the external device 100 to input construction information such as the construction date, the model number / ID of the power tool 1 used for construction, and the worker information to the input unit 15. The control unit 10 stores the construction information input to the input unit 15 in the storage unit 12.

  The operator brings the power supply coil 111 of the electric power tool 1 close to the power reception coil 811 of the wiring box 4. Thereby, electric power is supplied in a non-contact manner from the power feeding unit 11 of the electric power tool 1 to the power receiving unit 81 of the wiring box 4. In the wiring box 4, when power is supplied from the power supply unit 805, the transmission unit 802 transmits a wireless signal including material information stored in advance in the storage unit 803 to the reception unit 131 of the electric tool 1. In the electric power tool 1, the control unit 10 stores the material information included in the radio signal received by the receiving unit 131 in the storage unit 12 in association with the already stored construction information (first construction information). In addition, when the receiving unit 131 receives the wireless signal, the control unit 10 causes the transmitting unit 132 to transmit the wireless signal including the construction information stored in the storage unit 12 to the receiving unit 801 of the wiring box 4. In the wiring box 4, the construction information included in the radio signal received by the receiving unit 801 is associated with the material information and stored in the storage unit 803. That is, the electric tool 1 also functions as a reader / writer for the wiring box 4.

  The construction material 90 is attached to the pillar 900 so that the wiring box 4 is positioned on the back surface 92 side of the construction material 90. The operator uses the electric power tool 1 to search for the wiring box 4 on the back surface 92 side of the construction material 90. Specifically, the worker moves the power tool 1 along the surface 91 of the construction material 90. When the power supply coil 111 of the electric power tool 1 approaches the power reception coil 811 of the wiring box 4, power is supplied from the power supply coil 111 to the power reception coil 811. Thereby, a radio signal is transmitted from the transmission unit 802 of the wiring box 4, and the notification unit 14 generates a notification when the reception unit 131 of the power tool 1 receives the radio signal. By this notification, the operator can specify the position of the wiring box 4. That is, the electric power tool 1 also functions as a sensor that detects the wiring box 4 disposed on the back surface 92 side of the construction material 90. Further, when the receiving unit 131 of the electric power tool 1 receives the radio signal including the material information, the operator can know the serial number, the manufacturing number, the product number, and the like of the detected wiring box 4.

  An operator forms the hole 93 (refer FIG. 5B) corresponding to the opening part 52 of the box main body 50 of the wiring box 4 using the electric tool (for example, electric cutter) different from the electric tool 1. Then, the operator attaches the attachment frame 500 to the wiring box 4 by operating the operation portion 21 (trigger switch 314) of the electric tool 1 and tightening the box attachment screw 550. Construction information (second construction information) for attaching the mounting frame 500 to the wiring box 4 is stored in the storage unit 12 in association with the material information. Further, when the operator brings the electric tool 1 close to the wiring box 4, a wireless signal including the second construction information is transmitted from the transmission unit 132 to the reception unit 801, and the second construction information, material information, and the like are stored in the storage unit 803. Is associated and stored. Then, the worker attaches the wiring device 60 to which the electric wire 71 is connected and the plate 601 to the attachment frame 500.

  In the electric power tool 1, the control unit 10 causes the output unit 17 to output the construction information (first construction information, second construction information) and material information stored in the storage unit 12 to the external device 100. Thereby, in the external apparatus 100, it is possible to manage information in which construction information and material information are associated as management information.

<Modification>
Below, the modification of the electric tool 1 of this embodiment is demonstrated.

  In the example described above, the acquisition unit 16 is configured to acquire position information that is one piece of construction information. However, the present invention is not limited to this configuration. For example, position information is input from the external device 100 to the input unit 15. You may be comprised so that. In this case, it is preferable that the external device 100 has a configuration for acquiring position information such as a GPS receiver.

  In the example described above, the material information is stored in the storage unit 803 in advance, but the configuration is not limited to this. For example, the transmission unit 132 of the electric power tool 1 may be configured to store the material information in the storage unit 803 of the wiring box 4 by transmitting a radio signal including the material information. In this case, material information is input to the input unit 15 using the external device 100, and the transmission unit 132 transmits a radio signal including the input material information to the reception unit 801 of the wiring box 4. The storage unit 803 stores material information included in the radio signal received by the receiving unit 801.

  The electric power tool 1 is not limited to the impact driver, and may be another electric power tool 1 (for example, an electric cutter or a jigsaw that forms a rectangular opening in the construction material 90).

  Further, the electrical installation material 40 is not limited to the wiring box 4 and may be, for example, a mounting box used for mounting a distribution board, a housing information panel, an intercom device, or the like. Further, the electrical installation material 40 may be a switch, a wiring device such as an outlet (outlet), a plate attached to the wiring box 4 or the like.

<Summary>
As described above, the electric power tool 1 according to the first aspect is the electric power tool 1 used for the construction of the electric material 40. The electrical installation material 40 includes a storage unit 803 (first storage unit), a transmission unit 802 (first transmission unit), a power supply unit 805, and a power reception unit 81. The storage unit 803 stores material information. The transmission unit 802 transmits a radio signal including material information. The power supply unit 805 supplies power to the storage unit 803 and the transmission unit 802. The power receiving unit 81 supplies the power received without contact to the power source unit 805. The electric power tool 1 includes a power feeding unit 11, a receiving unit 131 (second receiving unit), and a storage unit 12 (second storing unit). The power feeding unit 11 supplies power to the power receiving unit 81 in a contactless manner. The reception unit 131 receives the radio signal transmitted from the transmission unit 802. The storage unit 12 stores material information included in the radio signal received by the receiving unit 131.

  With the above configuration, the electric power tool 1 can collect the material information of the electric construction material 40 at the construction site by receiving the radio signal from the electric construction material 40. Moreover, since the electric tool 1 is configured to supply electric power to the electric construction material 40, even if electric power is not supplied to the electric construction material 40 from an external power source (for example, a commercial power supply, a battery, etc.) It is possible to collect material information. Further, since the electric power tool 1 is configured to supply electric power to the electric construction material 40 in a non-contact manner, even if there is a structure (for example, a construction material 90) between the electric construction material 40 and the electric construction material 40 It is possible to collect information.

  It is preferable that the electric tool 1 which concerns on a 2nd aspect is provided with the input part 15 into which the construction information regarding construction of the electrical construction material 40 is input in the 1st aspect. The storage unit 12 (second storage unit) preferably stores the construction information input to the input unit 15.

  With the above configuration, the power tool 1 can manage the material information and the construction information in association with each other. Note that the input unit 15 is not an essential component and may be omitted.

  In the 1st or 2nd mode, it is preferred that electric tool 1 concerning the 3rd mode is provided with acquisition part 16 which acquires position information. It is preferable that the acquisition part 16 acquires the positional information on the acquisition part 16 when constructing the electrical construction material 40. The storage unit 12 (second storage unit) preferably stores the position information as construction information related to the construction of the electrical installation material 40.

  With the above configuration, the electric tool 1 can manage the positional information in association with the material information. The acquisition unit 16 is not an essential component and may be omitted.

  In the electric power tool 1 according to the fourth aspect, in the second or third aspect, the receiving unit 801 (the first unit) in which the electric construction material 40 has a radio signal including the construction information stored in the storage unit 12 (the second storage unit). It is preferable to include a transmission unit 132 (second transmission unit) that transmits to (one reception unit).

  With the above configuration, the electric power tool 1 can store construction information in the electrical installation material 40. Moreover, even if it is a power tool different from the power tool 1 used for the construction of the electrical construction material 40, it is possible to collect the material information and the construction information stored in the storage unit 803 of the electrical construction material 40. . Note that the transmission unit 132 is not an essential configuration and may be omitted.

  The above-described embodiment is an example of the present invention. For this reason, the present invention is not limited to the above-described embodiment, and various modifications can be made according to design and the like as long as the technical idea according to the present invention is not deviated from this embodiment. Of course, it can be changed.

DESCRIPTION OF SYMBOLS 1 Electric tool 11 Electric power feeding part 12 Memory | storage part (2nd memory | storage part)
131 Receiver (second receiver)
132 Transmitter (second transmitter)
15 Input unit 16 Acquisition unit 40 Electrical installation material 801 Reception unit (first reception unit)
802 Transmitter (first transmitter)
803 Storage unit (first storage unit)
805 Power supply unit 81 Power receiving unit

Claims (4)

A first storage unit that stores material information, a transmission unit that transmits a radio signal including the material information, a power supply unit that supplies power to the first storage unit and the transmission unit, and non-contact received power A power tool used for the construction of electrical installation material having a power receiving unit to be supplied to the power source unit,
A power feeding unit that supplies power to the power receiving unit in a contactless manner;
A receiver for receiving a radio signal transmitted from the transmitter;
An electric tool comprising: a second storage unit that stores the material information included in the radio signal received by the reception unit. It further comprises an input unit for inputting construction information related to construction of the electrical equipment material,
The electric power tool according to claim 1, wherein the second storage unit stores the construction information input to the input unit. Further comprising an acquisition unit for acquiring position information,
The acquisition unit acquires position information of the acquisition unit when constructing the electrical equipment material,
The electric power tool according to claim 1 or 2, wherein the second storage unit stores the position information as construction information related to the construction of the electrical equipment material. The transmitter is a first transmitter;
The receiving unit is a second receiving unit;
The second transmission unit that further transmits a radio signal including the construction information stored in the second storage unit to a first reception unit included in the electrical installation material. Electric tool.

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