WO2020095448A1 - Circular saw - Google Patents

Abstract

This circular saw is provided with: a circular saw blade; a motor for rotating the circular saw blade; a grip; a communication unit; and a housing. The circular saw blade has first and second main surfaces opposed to each other. The grip is positioned on the first main surface side with respect to the circular saw blade. The communication unit has an antenna, and carries out wireless communication with the outside of the circular saw by using the antenna. The housing houses the motor, and is positioned below the grip. The antenna is disposed inside the housing or provided to a member constituting the housing.

Description

Circular saw

The present invention relates to a circular saw.

Various technologies have been proposed for circular saws. For example, Patent Document 1 discloses a circular saw having a communication unit.

JP, 2008-69431, A

-For circular saws that have a communication unit, it is desirable to improve the reliability of communication by the communication unit.

Therefore, the present invention has been made in view of the above points, and an object thereof is to provide a technique capable of improving the reliability of communication by the communication unit of a circular saw.

Circular saw is disclosed. In one embodiment, a circular saw includes a circular saw blade, a motor for rotating the circular saw blade, a gripper, a communication unit, and a storage unit. The circular saw blade has first and second major surfaces facing each other. The grip portion is located on the first main surface side with respect to the circular saw blade. The communication unit has an antenna, and wirelessly communicates with the outside of the circular saw using the antenna. The storage portion stores the motor and is located below the grip portion. The antenna is arranged inside the storage part or on a member itself forming the storage part.

The reliability of communication by the communication unit of the circular saw can be improved.

It is a side view which shows an example of the external appearance of a circular saw. It is a side view which shows an example of the external appearance of a circular saw. It is a top view which shows an example of the external appearance of a circular saw. It is a figure which shows an example of the cross-section of a circular saw. It is a figure which shows an example of the cross-section of a circular saw. It is a figure which shows an example of an electrical structure of a circular saw. It is a perspective view which shows an example of the external appearance of a communication board. It is a side view which shows an example of the external appearance of a circular saw. It is a top view which shows an example of the external appearance of a circular saw. It is a figure which shows an example of the cross-section of a circular saw. It is a side view which shows an example of the external appearance of a circular saw. It is a figure which shows an example of the cross-section of a circular saw. It is a figure which shows an example of the cross-section of a circular saw. It is a figure which shows an example of the cross-section of a circular saw. It is a top view which shows an example of the external appearance of a communication board. It is a top view which shows an example of the external appearance of a communication board. It is a perspective view showing an example of the appearance of a circular saw. It is a top view which shows an example of the external appearance of a circular saw. It is a side view which shows an example of the external appearance of a circular saw. It is a figure which shows an example of the cross-section of a circular saw. It is a figure which shows an example of the cross-section of a circular saw. It is a top view which shows an example of a structure of a communication part. It is a top view which shows an example of the external appearance of a circular saw. It is a top view which shows an example of the external appearance of a circular saw. It is a top view which shows an example of the external appearance of a circular saw.

1 to 3 are views showing an example of the appearance of the circular saw 1. 1 and 2 are side views and FIG. 3 is a top view. FIG. 4 is a view showing a sectional structure of the circular saw 1 taken along the line AA shown in FIG. FIG. 5 is a view showing a sectional structure of the circular saw 1 taken along the line BB shown in FIG.

The circular saw 1 is, for example, a rechargeable circular saw, and includes a surface plate 2, a battery 3, and a main body portion 4 having a disc-shaped circular saw blade 5. The battery 3 is attachable to and detachable from the main body 4. The battery 3 is also called a battery pack. FIG. 2 shows the circular saw 1 in a state where the battery 3 is not attached to the main body 4. The circular saw 1 can cut an object to be processed by rotating the circular saw blade 5 by the main body 4.

The main body 4 includes a circular saw blade 5, a safety cover 6, a housing 7 that houses a motor 10 for rotating the circular saw blade 5, and an operation button 8. The safety cover 6 covers the lower side of the peripheral edge of the circular saw blade 5 when the circular saw 1 is not cutting the workpiece. The safety cover 6 is movable along the peripheral edge of the circular saw blade 5. When the circular saw 1 cuts the workpiece, the safety cover 6 is pushed backward by the workpiece and moves into the upper cover portion 70 that covers the upper side of the peripheral edge of the circular saw blade 5.

The housing 7 includes, in addition to the upper cover portion 70, a grip portion 71 to be gripped by a user, and a storage portion 72 that stores the motor 10, a plurality of gears, and the like. The storage section 72 includes a battery mounting section 73 (see FIG. 5) in which the battery 3 is mounted.

The grip portion 71 has an arch shape and protrudes above the storage portion 72. The operation button 8 is exposed from the grip portion 71. A power switch 40 (see FIG. 6, which will be described later) is housed in the grip portion 71. The power switch 40 is turned on when the operation button 8 is pressed. On the other hand, the power switch 40 is turned off when the operation button 8 is not pressed. The motor 10 rotates when the power switch 40 is on, and does not rotate when the power switch 40 is off. As a result, when the operation button 8 is pressed, the circular saw 1 rotates the circular saw blade 5. On the other hand, when the operation button 8 is changed from the pressed state to the unpressed state, the circular saw 1 stops the rotation of the circular saw blade 5.

The storage portion 72 includes a first storage portion 721 for storing the motor 10, a second storage portion 722 (see FIGS. 3 to 5) for storing a plurality of gears, a third storage portion 723 for storing the control board 20, And a fourth storage section 724 (see FIGS. 3 and 4) for storing the communication board 30. Hereinafter, the right side simply means the right side when the circular saw 1 is viewed from the front, and the right side simply means the left side when the circular saw 1 is viewed from the front.

As shown in FIG. 3, the grip portion 71 extends in the front-back direction in a top view. The grip 71 is located on the right side of the circular saw blade 5 and the upper cover 70. As shown in FIGS. 1, 2, and 5, the storage portion 72 is located below the grip portion 71. That is, the first storage portion 721, the second storage portion 722, the third storage portion 723, and the fourth storage portion 724 are located below the grip portion 71. Further, as shown in FIG. 5, the battery mounting portion 73 is located below the grip portion 71.

The first storage section 721 and the third storage section 723 are located on the right side of the grip section 71. The second storage portion 722 exists from immediately below the grip portion 71 to the upper cover portion 70. As shown in FIGS. 3 and 4, the fourth storage portion 724 includes a first portion 724 a located immediately below the grip portion 71 and a second portion 724 b located to the right of the grip portion 71. The third storage portion 723, the fourth storage portion 724, and the battery mounting portion 73 are located behind the first storage portion 721. The battery mounting portion 73 is located behind the fourth storage portion 724. The battery mounting portion 73 is located above the battery 3 mounted therein. The fourth storage portion 724 faces the battery 3 mounted on the battery mounting portion 73 in the front-rear direction. The third storage portion 723 is located on the right side of the fourth storage portion 724 and the battery mounting portion 73.

The motor 10 in the first storage portion 721 is, for example, a brassless motor. The motor 10 includes a motor body 11 and a motor shaft 12. The motor shaft 12 is also called a rotation shaft. The motor body 11 has a rotor and a stator. The motor body 11 is stored in the first storage portion 721. The motor shaft 12 extends in the left-right direction. In other words, the motor shaft 12 extends along the direction perpendicular to the main surface 50 (see FIGS. 1, 2, 5) of the circular saw blade 5. In other words, the motor shaft 12 is parallel to the direction perpendicular to the main surface 50 of the circular saw blade 5. The motor shaft 12 extends from the first storage portion 721 to the second storage portion 722, and one end of the motor shaft 12 is connected to a gear in the second storage portion 722. The plurality of gears in the second storage portion 722 reduce the rotation speed and transmit the rotation of the motor 10 to the circular saw blade 5. The motor 10 can rotate the circular saw blade 5 via the plurality of gears.

The control board 20 in the third storage portion 723 can control the rotation of the motor shaft 12 of the motor 10. It can be said that the control board 20 can control the rotation of the circular saw blade 5. As shown in FIGS. 4 and 5, the control board 20 is located in the third storage portion 723 so as to be perpendicular to the left-right direction. In other words, the control board 20 is located in the third storage portion 723 so that the direction perpendicular to the control board 20 is parallel to the motor shaft 12. That is, the direction perpendicular to the main surface 200 of the control board 20 is parallel to the motor shaft 12.

The communication board 30 in the fourth storage section 724 can perform wireless communication with the outside of the circular saw 1. It can be said that the communication board 30 is a communication unit that performs wireless communication with the outside of the circular saw 1. 1 to 3, the communication board 30 is shown by a broken line. The communication board 30 is located, for example, across the first portion 724a and the second portion 724b of the fourth storage portion 724. Therefore, in the communication board 30, a part of the communication board 30 is located directly below the grip portion 71, and the remaining part is not located directly below the grip portion 71. The communication board 30 is located between the motor 10 and the battery 3 in the front-rear direction. As a result, the communication board 30 is located behind the motor 10 and in front of the battery 3. The communication board 30 is located in the fourth storage portion 724 so that one main surface 300 thereof faces upward. In other words, the communication board 30 is located in the fourth storage portion 724 so that the other main surface 300 faces downward. The communication board 30 is located parallel to the motor shaft 12. The direction perpendicular to the main surface 300 of the communication board 30 is parallel to the vertical direction. Hereinafter, the communication board 30 may be referred to as the communication unit 30.

In this example, a mechanism is provided on the surface plate 2 for changing the amount of protrusion of the circular saw blade 5 from the lower surface 2a of the surface plate 2 by lifting the rear portion of the main body 4 with the front as a fulcrum. The user can change the protrusion amount of the circular saw blade 5 from the lower surface 2a of the surface plate 2 by operating this mechanism. This allows the user to adjust the depth of cut of the circular saw blade 5 with respect to the workpiece. Further, a mechanism for tilting the posture of the main body portion 4 in the left-right direction and changing the angle of the circular saw blade 5 with respect to the lower surface 2 a of the surface plate 2 is provided on the surface plate 2. The user can change the angle of the circular saw blade 5 with respect to the lower surface 2a of the surface plate 2 by operating this mechanism. Thereby, the user can cut the processing target using the circular saw 1 so that the cutting surface is inclined.

Next, the electrical configuration of the circular saw 1 will be described. FIG. 6 is a diagram showing an example of the electrical configuration of the circular saw 1. As shown in FIG. 6, the control board 20 includes a drive circuit 21 that drives the motor 10, a control circuit 22 that controls the drive circuit 21, and a power supply circuit 23. It can be said that the control board 20 is a circuit board. At least one component forming the drive circuit 21, the control circuit 22, and the power supply circuit 23 is mounted on, for example, one main surface 200 of the control board 20.

The power supply circuit 23 generates a power supply voltage to be supplied to the circuits included in the control board 20 and the communication board 30, based on the battery voltage output from the battery 3.

The drive circuit 21 includes, for example, an inverter circuit. The inverter circuit includes a plurality of switching elements. As the switching element, for example, a MOSFET (Metal-Oxide-Semiconductor Field-Effect Transistor) is adopted. As shown in FIGS. 4 and 5, the heat dissipation plate 210 for cooling the switching elements of the inverter circuit is mounted on the main surface 200 of the control board 20.

The control circuit 22 includes at least one processor to provide control and processing power to perform various functions, as described in further detail below.

According to various embodiments, at least one processor is implemented as a single integrated circuit (IC) or as a plurality of communicatively coupled integrated circuits (ICs) and / or discrete circuits. May be. The at least one processor can be implemented according to various known techniques.

In one embodiment, a processor includes one or more circuits or units configured to perform one or more data calculation procedures or processes, eg, by executing instructions stored in associated memory. In other embodiments, the processor may be firmware (eg, discrete logic component) configured to perform one or more data calculation procedures or processes.

According to various embodiments, the processor is one or more processors, controllers, microprocessors, microcontrollers, application specific integrated circuits (ASICs), digital signal processors, programmable logic devices, field programmable gate arrays, or the like. Any combination of devices or configurations, or combinations of other known devices and configurations, may be included to perform the functions described below.

The control circuit 22 can control the operation of the entire circular saw 1. The control circuit 22 controls the rotation of the motor 10 by controlling each switching element of the inverter circuit included in the drive circuit 21. The control circuit 22 controls the drive circuit 21 to rotate the motor 10 when the power switch 40 in the grip portion 71 is in the ON state. On the other hand, the control circuit 22 stops the operation of the drive circuit 21 and stops the rotation of the motor 10 when the power switch 40 is in the off state. Further, the control circuit 22 can control the communication board 30.

As shown in FIG. 6, the communication board 30 includes a board 30A and a communication circuit 31 formed on the board 30A. FIG. 7 is a perspective view showing an example of the external appearance of the communication board 30. As shown in FIG. 7, the communication board 30 includes, for example, a rectangular board 30A and includes a pair of main surfaces 300 and side surfaces 310. It can be said that the main surface 300 of the communication board 30 is the main surface of the board 30A, and the side surface 310 of the communication board 30 is the side surface of the board 30A. At least one component forming the communication circuit 31 is mounted on at least one main surface 300 of the pair of main surfaces 300. The outer shape of the substrate 30A may be other than rectangular.

The communication circuit 31 is capable of wirelessly communicating with a communication device external to the circular saw 1 in accordance with at least one type of wireless communication standard. Hereinafter, a communication device external to the circular saw 1 may be referred to as an external device. The wireless communication standard with which the communication circuit 31 complies may include a standard such as WiFi that corresponds to a wireless LAN (Local Area Network). Further, the wireless communication standard with which the communication circuit 31 complies may include a short-range wireless communication standard. For example, the wireless communication standard with which the communication circuit 31 complies may include Bluetooth (registered trademark), ZigBee (registered trademark), and NFC (Near Field Communication). Good. Further, the wireless communication standard with which the communication circuit 31 complies may include a standard compatible with LPWA (Low Power Wide Area Network). For example, the wireless communication standard with which the communication circuit 31 complies may include SIGFOX, LoRaWAN, or NB-IoT.

As shown in FIG. 6, the communication circuit 31 includes an antenna 32 and a signal processing circuit 33. The communication board 30 performs wireless communication with the outside of the circular saw 1 using the antenna 32. The signal processing circuit 33 includes at least one processor to provide control and processing power to perform various functions, as described in further detail below. The above description of the at least one processor included in the control circuit 22 can be applied to the at least one processor included in the signal processing circuit 33.

The signal processing circuit 33 performs various processing such as amplification processing on the received signal received by the antenna 32, and acquires data from the received signal. Further, the signal processing circuit 33 performs various processing such as amplification processing on the transmission signal including the transmission data, and wirelessly transmits the processed transmission signal from the antenna 32.

The transmission data transmitted by the communication circuit 31 to the external device may include operation frequency data indicating the number of times the circular saw 1 has operated. Further, the transmission data may include battery remaining amount data indicating the battery remaining amount of the battery 3. If the circular saw 1 includes a temperature sensor capable of detecting its own temperature, the transmission data may include temperature data indicating the temperature of the circular saw 1. The temperature sensor is mounted on the control board 20, for example. When the circular saw 1 can identify its own position, the transmission data may include position data indicating the position of the circular saw 1. In this case, the circular saw 1 may include, for example, a GPS receiving circuit that acquires position data of the circular saw 1 based on a signal from a positioning satellite of GPS (Global Positioning System). The GPS receiving circuit may be mounted on the control board 20 or may be provided in the communication circuit 31. Further, the circular saw 1 is provided with a circuit for acquiring position data of the circular saw 1 based on a signal from a positioning satellite of a GNSS (Global Navigation Satellite System) other than GPS, in addition to or instead of the GPS receiving circuit. May be. The circuit may be mounted on the control board 20 or may be included in the communication circuit 31. As GNSS other than GPS, for example, GLONASS (Global Navigation Satellite System), IRNSS (Indian Regional Navigation Satellite System), COMPASS, Galileo, or Quasi-Zenith Satellite Systems (QZSS) can be considered.

The transmission data transmitted by the communication circuit 31 to the external device may be generated by the control circuit 22, the signal processing circuit 33 of the communication circuit 31, or the control circuit 22 and the signal processing circuit 33. It may be generated in cooperation.

The external device can receive the transmission data from the plurality of circular saws 1, and manage the plurality of circular saws 1 based on the received transmission data, for example.

The data included in the transmission data transmitted by the communication circuit 31 is not limited to the above example. The communication circuit 31 may have only one of the reception function and the transmission function.

As described above, in this example, the antenna 32 of the communication board 30 is located inside the storage section 72 located below the grip section 71. In other words, the antenna 32 is located in the space inside the storage section 72. As a result, the antenna 32 is located below the grip 71.

On the other hand, when the communication board 30 is located in the grip portion 71 held by the user as in the above-mentioned Patent Document 1, there is a high possibility that a human hand exists near the antenna 32. As a result, the reliability of communication by the communication board 30 may be reduced by human hands.

When the antenna 32 is located below the grip 71 as in this example, the distance between the antenna 32 and the hand of the person who grips the grip 71 can be increased. Therefore, the reliability of communication by the communication board 30 can be improved.

Further, since the antenna 32 is located inside the storage portion 72, the distance between the object to be processed by the circular saw blade 5 and the antenna 32 can be increased. Therefore, it is possible to reduce the possibility that the antenna 32 is affected by the object to be processed containing metal. Therefore, the reliability of communication by the communication board 30 can be improved.

Also, in this example, the communication board 30 is positioned so that one main surface 300 thereof faces upward. In other words, the substrate 30A on which the antenna 32 is formed is positioned so that its one main surface 300 faces upward. This reduces the possibility that the motor 10 positioned in front of the communication board 30 and the battery 3 positioned behind the communication board 30 interfere with the communication performance of the communication board 30.

The communication board 30 may not be located between the motor 10 and the battery 3 in the front-rear direction. For example, the communication board 30 may be located above at least one of the motor 10 and the battery 3.

Further, as shown in FIG. 8, the communication board 30 may be positioned in the storage portion 72 so that one main surface 300 thereof does not face upward. In the example of FIG. 8, the communication board 30 is provided between the motor 10 and the battery 3 so that the direction perpendicular to the communication board 30 (that is, the direction perpendicular to the main surface 300) is parallel to the front-rear direction. To position. In other words, the board 30A is located between the motor 10 and the battery 3 so that the direction perpendicular to the board 30A is parallel to the front-back direction. Even in the example of FIG. 8, the communication board 30 is positioned so as to be parallel to the motor shaft 12. As shown in FIG. 8, when the communication board 30 is located between the motor 10 and the battery 3 so that the direction perpendicular to the communication board 30 is parallel to the front-rear direction, the motor 10 and the battery 3 are connected to each other. Even if the space between them is small, the communication board 30 can be arranged in the space.

Further, as shown in FIGS. 9 and 10, the communication board 30 may not be located immediately below the grip 71. In the example of FIGS. 9 and 10, the communication board 30 is located in the second portion 724b located on the right side of the grip portion 71. FIG. 10 is a sectional view corresponding to FIG. 4 described above. As in the examples of FIGS. 9 and 10, when the communication board 30 is not located directly below the grip 71, the antenna 32 is not located directly below the grip 71. As a result, the distance between the hand of the person who holds the grip 71 and the antenna 32 can be increased. Therefore, the reliability of communication by the communication board 30 can be further improved.

Further, as shown in FIGS. 11 and 12, the communication board 30 may be located in the third storage portion 723 so as to face the control board 20. In other words, the board 30A of the communication section 30 may be located inside the third storage section 723 so as to face the control board 20. FIG. 12 is a sectional view corresponding to FIG. 4 described above. In the example of FIGS. 11 and 12, the communication board 30 is located on the right side of the control board 20. In other words, the communication board 30 is located outside the control board 20. As shown in the examples of FIGS. 11 and 12, the communication board 30 is located in the third storage portion 723 so as to face the control board 20, thereby reducing the space required for disposing the control board 20 and the communication board 30. be able to. When the communication board 30 is located outside the control board 20 as in the examples of FIGS. 11 and 12, the antenna 32 is located outside the control board 20. This facilitates the communication board 30 to communicate with a device outside the housing 7. Therefore, the reliability of communication by the communication board 30 is improved. The communication board 30 may be located on the left side of the control board 20, in other words, on the inner side.

When the communication board 30 faces the control board 20, the electromagnetic shield 80 may be located between the communication board 30 and the control board 20, as shown in FIG. FIG. 13 is a sectional view corresponding to FIG. 4 described above. The electromagnetic shield 80 is, for example, a plate-shaped member made of at least one of iron, aluminum, copper, and a magnetic material. The electromagnetic shield 80 faces each of the communication board 30 and the control board 20. Positioning the electromagnetic shield 80 between the communication board 30 and the control board 20 reduces the possibility that the antenna 32 of the communication board 30 is affected by noise generated by the control board 20. As a result, the reliability of communication by the communication board 30 is improved. When the control board 20 includes the heat dissipation plate 210 for cooling the switching elements of the inverter circuit included in the drive circuit 21 as in the above example, part of the heat dissipation plate 210 functions as the electromagnetic shield 80. Good.

Further, as shown in FIG. 14, the communication board 30 may be located right above the battery 3. FIG. 14 is a sectional view corresponding to FIG. 5 described above. In the example of FIG. 14, the communication board 30 is located in the space 725 in the storage section 72, which is located directly above the battery mounting section 73. The space 725 can also be said to be a fifth storage portion 725 that stores the communication board 30. The fifth storage portion 725 and the battery mounting portion 73 are partitioned from each other, and the communication board 30 faces the upper surface 3 a of the battery 3 via the partition between the fifth storage portion 725 and the battery mounting portion 73. The fifth storage 725 is located behind the fourth storage 724. In the example of FIG. 14, the communication board 30 is not located directly below the grip 71, but at least a part of the communication board 30 may be located directly below the grip 71.

When the communication board 30 is located right above the battery 3 as in the example of FIG. 14, when the circular saw 1 is placed on an object containing metal (for example, a desk having a metal top plate). The distance between the metal and the antenna 32 can be increased. Therefore, even when the circular saw 1 is placed on an object containing metal, the possibility that the reliability of communication by the communication board 30 is deteriorated is reduced.

Further, when the communication board 30 is positioned so as to face the upper surface 3 a of the battery 3 as in the example of FIG. 14, the communication board 30 can be arranged in a narrow space above the battery 3. In other words, when the substrate 30A is located so as to face the upper surface 3a of the battery 3, the substrate 30A can be arranged in a narrow space above the battery 3.

Further, at least a part of the circuit included in the control board 20 may be mounted on the communication board 30. When the drive circuit 21 including the inverter circuit is mounted on the communication board 30, the communication board 30 may include an electromagnetic shield 80 that covers the drive circuit 21, as shown in FIG. 15. In the example of FIG. 15, the communication circuit 31 and the drive circuit 21 are mounted on one main surface 300 of the communication board 30. An electromagnetic shield 80 that covers the drive circuit 21 is provided on the main surface 300. Thus, by covering the drive circuit 21 with the electromagnetic shield 80, the influence of noise generated by the drive circuit 21 on the communication circuit 31 is reduced.

Further, in the example of FIG. 15, at least one of the control circuit 22 and the power supply circuit 23 may be mounted on the main surface 300 opposite to the main surface 300 on which the communication circuit 31 and the drive circuit 21 are mounted. The drive circuit 21 may be mounted on the main surface 300 opposite to the main surface 300 on which the communication circuit 31 is mounted. In this case, even if the electromagnetic shield 80 does not exist, the influence of noise generated by the drive circuit 21 on the communication circuit 31 is reduced.

Further, as shown in FIG. 16, the communication board 30 may include an electromagnetic shield 80 that covers the signal processing circuit 33 and the drive circuit 21 of the communication circuit 31 and does not cover the antenna 32. This can reduce the possibility that the antenna 32 is affected by noise generated by the signal processing circuit 33 and the drive circuit 21. Further, even when the drive circuit 21 is not mounted on the communication board 30, the communication board 30 may include the electromagnetic shield 80 that covers the signal processing circuit 33 and does not cover the antenna 32.

In the above example, the circular saw 1 operates based on the DC voltage supplied from the battery 3, but may operate based on the AC voltage supplied from the commercial power supply. 17 to 19 are diagrams showing an example of the appearance of the circular saw 1 in this case. Hereinafter, the circular saw 1 that operates based on the AC voltage supplied from the commercial power source may be referred to as a circular saw 1A.

FIG. 17 is a perspective view, FIG. 18 is a top view, and FIG. 19 is a side view. 20 is a view showing a cross-sectional structure of the circular saw 1A taken along the line CC shown in FIG. FIG. 21 is a view showing a cross-sectional structure of the circular saw 1A taken along the line DD shown in FIG. Below, the circular saw 1A will be described focusing on the differences from the circular saw 1 that operates based on the DC voltage supplied from the battery 3.

As shown in FIGS. 17 to 21, the circular saw 1A includes a surface plate 2 similar to the above, and a main body portion 4 having a disk-shaped circular saw blade 5. The main body portion 4 includes the circular saw blade 5, the safety cover 6, the operation button 8 and the housing 7 which are similar to those described above. The housing 7 includes the upper cover portion 70, the grip portion 71, and the storage portion 72 similar to those described above, but does not include the battery mounting portion 73. The storage portion 72 includes a first storage portion 721 that stores the motor 10, a second storage portion 722 that stores a plurality of gears, and a third storage portion 723 that stores the control board 20. In the circular saw 1A, the communication board 30 is located in the third storage portion 723, and the storage portion 72 does not include the equivalent to the fourth storage portion 724 described above. The power cable 9 is connected to the rear end of the grip portion 71. Through this power cable 9, an alternating voltage from a commercial power source is supplied to the circular saw 1.

The third storage portion 723 includes a first portion 723a located directly below the grip portion 71 and a second portion 723b located to the right of the grip portion 71. The control board 20 and the communication board 30 are located, for example, across the first portion 723a and the second portion 723b.

The motor shaft 12 of the motor 10 extends in the left-right direction as described above. The control board 20 and the communication board 30 face each other and are positioned parallel to the motor shaft 12. The communication board 30 is located outside the control board 20, specifically, behind the control board 20. In the circular saw 1A of this example, a part of the communication board 30 is located directly below the grip 71, but the communication board 30 may be located on the right side of the grip 71. In this case, the communication board 30 is not located directly below the grip 71.

Unlike the above, the control board 20 of the circular saw 1A does not include the drive circuit 21 including the inverter circuit. The power supply circuit 23 of the control board 20 generates a power supply voltage supplied to circuits included in the control board 20 and the communication board 30 based on the AC voltage supplied from the power supply cable 9. The control circuit 22 of the control board 20 rotates the motor 10 when the power switch 40 in the grip portion 71 is in the ON state. On the other hand, the control circuit 22 stops the rotation of the motor 10 when the power switch 40 is off.

In the above example, the communication board 30 of the circular saw 1A is arranged so that one main surface 300 thereof faces the rear side, but the one main surface 300 is arranged so as to face the upper side. Good. Further, the control board 20 may be located behind the communication board 30. Further, the electromagnetic shield 80 may be located between the control board 20 and the communication board 30.

In this way, even in the circular saw 1A that operates based on the AC voltage supplied from the commercial power source, the communication board 30 is located below the grip portion 71, so that the hand of the person who grips the grip portion 71 is The distance to the antenna 32 can be increased. Therefore, the communication performance of the communication board 30 can be improved.

Further, in the example of FIGS. 16 to 20, the communication board 30 is positioned so as to face the control board 20, so that the space required for disposing the communication board 30 and the control board 20 can be reduced.

It should be noted that regardless of whether the circular saw 1 operates based on the voltage supplied from the battery 3 or the voltage supplied from the commercial power source, the antenna 32 is mounted on the substrate as shown in FIG. It may be provided as a separate body connected to the substrate 30A instead of being provided on the board 30A. In this case, the separate antenna 32 may be arranged not in the space inside the storage section 72 but in the member itself forming the storage section 72. When the antenna 32 is provided in the member itself that forms the storage section 72, the substrate 30A on which the signal processing circuit 33 is formed may be located in the storage section 72 as in the above case, or may be located in the storage section 72. You don't have to. In the latter case, the substrate 30A may be located inside the grip portion 71, for example. Further, when the antenna 32 is provided on the member itself that constitutes the housing portion 72, the antenna 32 may be formed on the member itself that constitutes the housing portion 72 as a conductor pattern. The antenna 32 may be formed on the inner peripheral surface of the storage portion 72, may be formed on the outer peripheral surface of the storage portion 72, or may be embedded in a member forming the storage portion 72. The separate antenna 32 may be formed in the third storage portion 723 as shown in FIG. 23, for example. Further, as shown in FIG. 24, the antenna 32 may be formed in the fourth storage portion 724. Further, as shown in FIG. 25, the antenna 32 may be formed in the fifth storage portion 725. 23 to 25, a state in which the antenna 32 is embedded in a member forming the storage portion 72 is shown. Similar to the case where the antenna 32 is arranged inside the storage section 72, the reliability of communication by the communication section 30 can be improved by disposing the antenna 32 on the member itself forming the storage section 72. Further, as shown in FIGS. 24 and 25, since the separate antenna 32 is not located immediately below the grip portion 71, the reliability of communication by the communication unit 30 can be further improved. Further, as shown in FIG. 25, since the antenna 32 is located directly above the battery 3, the reliability of communication by the communication unit 30 can be further improved.

As described above, the circular saw 1 has been described in detail, but the above description is an example in all aspects, and this disclosure is not limited thereto. Further, the various modified examples described above can be applied in combination unless they contradict each other. It is understood that innumerable modifications that are not illustrated can be assumed without departing from the scope of this disclosure.

1 Circular Saw 3 Battery 5 Circular Saw Blade 71 Gripping Part 72 Storage Part 10 Motor 20 Control Board 30 Communication Board 30A Board 32 Antenna

Claims (10)

1. A circular saw,
   A circular saw blade having first and second main surfaces facing each other,
   A motor for rotating the circular saw blade,
   A grip portion located on the first main surface side with respect to the circular saw blade,
   A communication unit having an antenna and performing wireless communication with the outside of the circular saw using the antenna,
   A storage unit that stores the motor and is located below the grip unit,
   The circular saw, wherein the antenna is arranged inside the storage portion or on a member itself forming the storage portion.
2. The circular saw according to claim 1, wherein
   The communication unit has a substrate stored in the storage unit,
   A circular saw, wherein the substrate is located behind the motor.
3. The circular saw according to claim 2,
   Further comprising a battery located behind the motor,
   A circular saw, wherein the substrate is located behind the motor and in front of the battery.
4. The circular saw according to claim 3,
   The antenna is located on the substrate,
   The circular saw, wherein the substrate is positioned so that one main surface thereof faces upward.
5. The circular saw according to claim 3,
   A circular saw, wherein the substrate is located between the motor and the battery such that a direction perpendicular to the substrate is parallel to a front-back direction.
6. A circular saw according to any one of claims 2 and 3, wherein:
   Further comprising a circuit board located behind the motor in the housing,
   The board is a circular saw facing the circuit board.
7. The circular saw according to claim 6,
   The antenna is located on the substrate,
   A circular saw, wherein the board is located outside the circuit board.
8. A circular saw according to any one of claims 1 and 2, wherein:
   A battery located behind the motor,
   A circular saw, wherein the antenna is located directly above the battery.
9. The circular saw according to claim 2,
   A battery located behind the motor,
   A circular saw with the substrate facing the top surface of the battery.
10. The circular saw according to any one of claims 1 to 9,
    A circular saw in which the antenna is not located directly below the grip.

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