The present invention relates to a router.
In a router described in Patent Literature 1 below, a main body is connected to a base by a column to be relatively movable in an vertical direction. Further, a motor and a control board are provided inside the main body and a power cord supplying electric power to the motor extends upward from the main body. Then, the power cord is connected to an outlet to supply electric power to the motor so that a workpiece is cut.
[Patent Literature 1]
Here, in recent years, in order to improve convenience, there is a demand for a working machine in which a battery is mounted instead of a power cord and power is supplied by the battery. Then, when the battery is provided in the router, there is a possibility that the stability in the posture of the router deteriorates due to the weight of the mounted battery.
An objective of the present invention is to provide a router which can be driven by a battery while suppressing a deterioration in stability in consideration of the above-described circumstances.
According to one or more embodiments of the present invention, there is provided a router for cutting a workpiece. The router includes: a main body housing which accommodates a motor; a base which is provided below the main body housing and is able to come into contact with the workpiece; an elevation mechanism which supports the main body housing to be relatively movable so that the main body housing is brought into contact with and separated from the base in an vertical direction; a pair of handles which is provided in the main body housing and protrudes outward in a left and right direction; a battery holder which is provided in the main body housing; and a battery which is mounted on the battery holder in an attachable/detachable manner, wherein an angle formed between a lower surface of the base and an virtual line passing through a center of gravity of the router and an outer peripheral lower end portion of the base when viewed from a direction orthogonal to the vertical direction is 80 degrees or less.
In the router according to one or more embodiments of the present invention, a power line for supplying electric power from the battery to the motor is connected to the motor by a connector, and the connector is disposed on a radially outer side of the motor.
In the router according to one or more embodiments of the present invention, the base is formed in a disk shape having a notch portion formed at a front end portion to be notched in a linear shape in the left and right direction, and the connector is disposed on a rear side of an axis of the motor.
In the router according to one or more embodiments of the present invention, the battery holder includes a plurality of holder members, the main body housing includes a fixing portion fixing the holder member, and the fixing portion is disposed on a radially outer side of the motor.
In the router according to one or more embodiments of the present invention, a control unit controlling the motor is accommodated in the battery holder and is disposed on an upper side of the motor and the fixing portion.
In the router according to one or more embodiments of the present invention, a control unit controlling the motor is accommodated in the battery holder and the connector is positioned by the control unit.
In the router according to one or more embodiments of the present invention, an engagement portion is formed in the main body housing on a radially outer side of the motor, and the battery holder is provided with an engaged portion engaging with the engagement portion in the vertical direction.
In the router according to one or more embodiments of the present invention, a battery side intake hole is formed at a side portion of the battery and a battery side exhaust hole is formed at a lower portion of the battery, and a holder side intake hole is formed at an upper end portion of the battery holder and the battery side exhaust hole and the holder side intake hole are arranged to face each other in the vertical direction.
In the router according to one or more embodiments of the present invention, a control unit controlling the motor is disposed on a radially outer side of the motor.
In the router according to one or more embodiments of the present invention, a position of the center of gravity is at a same position with at least a portion of the handle in the vertical direction.
In the router according to one or more embodiments of the present invention, a length from a lower surface of the base to an upper surface of the battery in the vertical direction is 300 mm or less.
In the router according to one or more embodiments of the present invention, the main body housing is provided with a handle fixing portion for fixing the handle to the main body housing, and in the vertical direction, a distance from a center of the handle fixing portion to the center of gravity is smaller than a distance from the center of the handle fixing portion to an upper end position of the handle.
In the router according to one or more embodiments of the present invention, the battery is mounted on the battery holder from left to right.
In the router according to one or more embodiments of the present invention, the elevation mechanism includes two columns, a left accommodation portion accommodating one of the columns is provided on a left side of the main body housing, a right accommodation portion accommodating the other one of the columns is provided on a right side of the main body housing, an upper end position of the right accommodation portion is lower than the left accommodation portion, and an inner space of the battery holder is located above the right accommodation portion.
According to one or more embodiments of the present invention, it is possible to drive the battery while suppressing a deterioration in stability.
In
Hereinafter, a router 10 according to a first embodiment will be described with reference to
The router 10 is placed on the upper side of a workpiece W and is configured as a tool for cutting the workpiece W. As shown in
(Base 20)
The base 20 constitutes the lower end portion of the router 10. The base 20 is formed in a plate shape with the vertical direction as the plate thickness direction and is formed in a substantially D shape in a plan view. Specifically, a notch portion 20A is formed at the front end portion of the base 20 and the front end portion of the base 20 extends in a linear shape in the left and right direction. More specifically, the outer peripheral portion of the base 20 constitutes the front end portion of the base 20 and includes a linear outer peripheral portion 20B which extends in a linear shape in the left and right direction and an arc-shaped outer peripheral portion 20C which connects both longitudinal end portions of the linear outer peripheral portion 20B and extends in an arc shape to protrude backward. Further, a circular insertion portion 20D is formed at the substantially center portion of the base 20 to penetrate the base in the vertical direction. Then, the center line CL of the insertion portion 20D and the center line of the arc-shaped outer peripheral portion 20C coincide with each other. Accordingly, when the distance between the center line CL and the outer peripheral portion of the base 20 is the distance L, the distance L between the center line CL and the center portion of the linear outer peripheral portion 20B in the left and right direction is the minimum of the distance L (see
The base 20 is provided with an elevation mechanism 22. The elevation mechanism 22 includes a pair of left and right columns 23 and the column 23 is formed in a substantially cylindrical shape with the vertical direction as the axial direction. The lower end portions of the columns 23 are fixed to both end portions of the base 20 in the left and right direction and the column 23 extends upward from the base 20. Further, the position of the axis of the column 23 in the front and rear direction and the position of the center line CL coincide with each other.
Further, the elevation mechanism 22 includes a position adjusting bolt 24. The position adjusting bolt 24 extends in the vertical direction on the rear side of the left column 23. The lower end portion of the position adjusting bolt 24 is fixed to the base 20 and the position adjusting bolt 24 extends upward from the base 20. Further, a position adjusting nut 25 (see
(Router Main Body 30)
As shown in
<End Bracket 32>
The end bracket 32 is formed of metal. The end bracket 32 is formed in a substantially rectangular parallelepiped box shape that is opened upward with the left and right direction as the longitudinal direction. The end bracket 32 has a single piece structure and is indivisible. As shown in
A fan accommodation portion 32B for accommodating a fan 47 to be described later is formed at the center portion of the end bracket 32 in the left and right direction between the pair of connection cylinder portions 32A. The fan accommodation portion 32B is formed in a substantially cylindrical shape and protrudes upward from the bottom wall of the end bracket 32. Further, a substantially cylindrical support cylinder portion 32C is formed on the inside of the fan accommodation portion 32B in the radial direction of the end bracket 32 and the inside of the support cylinder portion 32C is penetrated in the vertical direction. Further, the support cylinder portion 32C is disposed coaxially with the fan accommodation portion 32B and the axis of the support cylinder portion 32C coincides with the center line CL. The support cylinder portion 32C is provided with a plurality of relief grooves 32D which is opened downward and the relief grooves 32D are arranged side by side along the circumferential direction of the support cylinder portion 32C. Further, a bearing 34 for supporting a rotation shaft 41 of the motor 40 to be described later is provided on the inside of the support cylinder portion 32C in the radial direction.
Further, a plurality of exhaust holes 32E is formed between the fan accommodation portion 32B and the support cylinder portion 32C in the bottom wall of the end bracket 32. The plurality of exhaust holes 32E is formed in an elongated hole shape along the circumferential direction of the fan accommodation portion 32B and is arranged side by side in the circumferential direction of the fan accommodation portion 32B.
Further, both end portions of the end bracket 32 in the left and right direction are provided with a handle fixing portion 32G for fixing a handle 52 to be described later. The handle fixing portion 32G is formed in a substantially columnar shape with the left and right direction as the axial direction and protrudes from the end bracket 32 outward in the left and right direction.
As shown in
<Motor Housing 33>
As shown in
A pair of left and right raised portions 33AR and 33AL is formed at both end portions of the upper wall of the motor housing 33 in the left and right direction. The raised portions 33AR and 33AL are formed in a substantially bottomed cylindrical shape that is raised upward and opened downward and are arranged coaxially with the connection cylinder portion 32A of the end bracket 32. Further, a pair of left and right connection shafts 26 (see
Then, the motor housing 33 (that is, the router main body 30) is urged upward by the urging spring 27 and the stopper portion 32H of the router main body 30 comes into contact with the position adjusting nut 25 of the position adjusting bolt 24 from the lower side. Thus, the router main body 30 is held at a position in which the stopper portion 32H comes into contact with the position adjusting nut 25 (hereinafter, this position will be referred to as the initial position of the router main body 30). Then, when the position of the position adjusting nut 25 with respect to the position adjusting bolt 24 is changed, the initial position of the router main body 30 in the vertical direction is changed. Specifically, the position of the router main body 30 shown in
A motor accommodation portion 33B for accommodating the motor 40 to be described later is formed at the center portion of the motor housing 33 in the left and right direction. The motor accommodation portion 33B is formed in a substantially bottomed cylindrical shape that is opened downward and the upper end portion of the motor accommodation portion 33B protrudes slightly above the upper wall of the motor housing 33 and is disposed below the upper end portions of the raised portions 33AR and 33AL. Further, the axis of the motor accommodation portion 33B coincides with the center line CL.
A bearing fixing portion 33C is formed at the center portion of the upper wall of the motor accommodation portion 33B and the bearing fixing portion 33C is formed in a bottomed cylindrical shape that is opened downward. Further, four communication holes 33D1 to 33D4 (see
The inner peripheral surface of the side wall of the motor accommodation portion 33B is provided with eight guide ribs 33E (see
The upper end portion of the motor housing 33 is provided with a housing side fixing portion 33F serving as a “fixing portion” for fixing the battery holder 60 to be described later. The housing side fixing portion 33F is formed at the right side of the bearing fixing portion 33C and the boundary portion between the upper wall and the side wall of the motor accommodation portion 33B. That is, the position of the bearing fixing portion 33C and the position of the housing side fixing portion 33F substantially coincide with each other in the vertical direction. The housing side fixing portion 33F is formed in a substantially cylindrical shape with the front and rear direction as the axial direction. A cylindrical fixing wall 33F1 (see
A connector accommodation portion 33G (see
A housing side engagement rib 33H serving as a “pair of upper and lower engagement portions” is formed on a front side of the communication hole 33D2 and a communication hole 33D3 in the outer peripheral portion of the upper end portion of the motor accommodation portion 33B. The housing side engagement ribs 33H extend in the left and right direction with the vertical direction as the plate thickness direction and are arranged side by side in the vertical direction. Further, a pair of housing side engagement ribs 33J serving as “engagement portions” is formed on the rear side of the communication hole 33D4 in the outer peripheral portion of the upper end portion of the motor accommodation portion 33B. The housing side engagement ribs 33J extend in the left and right direction with the vertical direction as the plate thickness direction and are arranged side by side in the vertical direction.
Further, a wiring hole 33K (see
<Motor 40>
As shown in
The rotation shaft 41 is disposed coaxially with the motor accommodation portion 33B and the lower end portion of the rotation shaft 41 protrudes downward from the motor housing 33 to be inserted through the support cylinder portion 32C of the end bracket 32. Then, the lower end portion of the rotation shaft 41 is rotatably supported by the bearing 34 supported by the support cylinder portion 32C of the end bracket 32 and the upper end portion of the rotation shaft 41 is rotatably supported by the bearing 35 fixed to the bearing fixing portion 33C of the motor housing 33. Accordingly, the housing side fixing portion 33F of the motor housing 33 is disposed on the outer side of the upper end portion of the rotation shaft 41 (the motor 40) in the radial direction. Since both the motor housing 33 and the end bracket 32 form an indivisible single piece structure, each of the support cylinder portion 32C and the bearing fixing portion 33C also form an indivisible structure. Accordingly, since the bearing 34 and the bearing 35 are firmly supported, the rotation support of the rotation shaft 41 can be performed firmly and accurately. Further, a tip tool T is attached to the lower end portion of the rotation shaft 41 through a collect chuck 45. Accordingly, the tip tool T is allowed to be inserted through the insertion portion 20D of the base 20 when the router main body 30 is pressed downward from the initial position.
The stator 43 includes a stator holder 44 and the stator holder 44 has a substantially cylindrical shape. A stator coil (not shown) is wound around the stator holder 44 and the stator coil is connected to a motor substrate 40A provided at the upper end portion of the motor 40. Then, the guide rib 33E of the motor housing 33 is disposed adjacently on the outer side of the stator holder 44 in the radial direction while being accommodated in the motor accommodation portion 33B of the motor 40 (see
As shown in
<Retaining Ring 50>
As a whole, the retaining ring 50 is formed in a substantially ring shape (substantially cylindrical shape) with the vertical direction as the axial direction and is formed in a substantially U shape that is opened upward in a cross-sectional view from the circumferential direction. Then, the retaining ring 50 is disposed on the outer side of the fan 47 in the radial direction inside the end bracket 32. Specifically, the bottom portion of the retaining ring 50 is disposed adjacently on the upper side of the fan accommodation portion 32B of the end bracket 32 and the outer peripheral portion of the retaining ring 50 is disposed adjacently on the lower side of a part of the lower end portion of the motor housing 33. Accordingly, the retaining ring 50 is sandwiched by the end bracket 32 and the motor housing 33 in the vertical direction and is fixed to them. Further, the inner peripheral portion of the retaining ring 50 comes into contact with the lower end of the stator holder 44. Accordingly, the downward movement of the stator 43 is regulated by the retaining ring 50.
<Handle 52>
As shown in
In the right handle 52, a switch button 55 is provided at the upper portion to be pressed and a trigger 56 is provided at the rear portion to be pulled. Further, a switch circuit unit 57 which is operated by the operation of the switch button 55 and the trigger 56 is provided inside the right handle 52 and the switch circuit unit 57 is fixed to the handle main body 53. The switch circuit unit 57 includes a switch (not shown) operated by the switch button 55 and the trigger 56. The switch is electrically connected to the control unit 80 to be described later and an output signal according to the operation state of the switch button 55 and the trigger 56 is output to the control unit 80 to be described later.
(Battery Holder 60)
As shown in
As shown in
Further, a fixed cylinder portion 64A is formed at a position corresponding to the housing side fixing portion 33F at the lower end portion of the rear wall of the rear holder 64. The fixed cylinder portion 64A is formed in a substantially stepped cylindrical shape that is opened backward and protrudes forward from the rear wall of the rear holder 64. Specifically, the radial dimension of the front portion of the fixed cylinder portion 64A is set to be smaller than the radial dimension of the rear portion of the fixed cylinder portion 64A and the inside of the fixed cylinder portion 64A is penetrated in the front and rear direction. Further, the front portion of the fixed cylinder portion 64A is inserted into the rear opening portion of the housing side fixing portion 33F of the motor housing 33 and is disposed adjacently on the rear side of the fixing wall 33F1. Then, the fixing screw 66 (in a broad sense, an element grasped as a “fixing member”) is inserted into the fixed cylinder portion 64A from the rear side, is inserted through the fixing hole 33F2 of the motor housing 33, and is screwed into the inner peripheral surface of the fixing boss 62A. Accordingly, the front holder 62 and the rear holder 64 are fixed to the motor housing 33 to sandwich the motor housing 33 on the front and rear sides by the fixing screw 66. Thus, the front holder 62 and the rear holder 64 are fixed to the motor housing 33 on the outer side of the upper end portion of the motor 40 (the rotation shaft 41) in the radial direction.
As shown in
Three holder side engagement ribs 64B serving as “engaged portions” are formed at the right portion of the lower end portion of the rear wall of the rear holder 64. The holder side engagement ribs 64B are arranged at predetermined intervals in the vertical direction with the vertical direction as the plate thickness direction. Then, the housing side engagement rib 33J of the motor housing 33 is inserted between the holder side engagement ribs 64B and the housing side engagement rib 33J and the holder side engagement rib 64B engage with each other in the vertical direction. Accordingly, the lower end portion of the rear holder 64 engages with the motor housing 33 on the outer side of the upper end portion of the motor 40 (the rotation shaft 41) in the radial direction so that the movement of the lower end portion of the rear holder 64 is restricted in the vertical direction.
As shown in
As shown in
Then, an air flow AR1 (see
As shown in
Further, a second intake hole 60B serving as a “holder side intake hole” is formed on the left side of the battery connector 68 in the upper wall of the battery holder 60. The second intake hole 60B is formed in an elongated hole shape extending in the left and right direction and is disposed at the center portion of the battery holder 60 in the left and right direction. That is, the second intake hole 60B is formed to straddle the front holder 62 and the rear holder 64.
(Battery 70)
As shown in
A plurality of (in the embodiment, eight) battery side intake holes 70A is formed at the substantially center portion of the right wall of the battery 70 to penetrate the right wall. The battery side intake hole 70A is formed in an elongated hole shape with the front and rear direction as the longitudinal direction. Then, two sets of battery side intake holes 70A are arranged side by side in the left and right direction as one set of four battery side intake holes 70A lined up in the vertical direction.
Further, a plurality of (in this embodiment, eight) battery side exhaust holes 70B (see
(Control Unit 80)
As shown in
Further, the control board 82 is connected to the battery connector 68 and electric power of the battery 70 is supplied to the control board 82. As shown in
Further, a lead wire 89 extending from the control board 82 is connected to the switch circuit unit 57 and the control unit 80 and the switch circuit unit 57 are electrically connected to each other. Specifically, the lead wire 89 is inserted through the wiring hole 33K of the motor housing 33 and disposed inside the motor housing 33 on the outer side of the motor accommodation portion 33B in the radial direction. Further, the lead wire 89 is inserted through the wiring groove 33L of the motor housing 33, is disposed inside the handle 52, and is connected to the switch circuit unit 57. Then, the control unit 80 is configured to control the operation of the motor 40 when the trigger 56 is operated while the switch button 55 is turned on.
(Position of Center of Gravity of Router 10)
Next, the position of the center of gravity of the router 10 at the highest initial position of the router main body 30 will be described with reference to
Then, an angle A formed between the lower surface of the base 20 and the virtual line IL passing through the center of gravity G and the outer peripheral portion of the lower end portion of the base 20 when viewed from a direction orthogonal to the vertical direction is 80 degrees or less. Specifically, the angle A formed between the lower surface of the base 20 and the virtual line IL passing through the center of gravity G and the outer peripheral portion (the arc-shaped outer peripheral portion 20C) of the lower end portion at each of the left and right ends of the base 20 in a front view is 61 degrees. Further, the angle A formed between the lower surface of the base 20 and the virtual line IL passing through the center of gravity G and the outer peripheral portion (the linear outer peripheral portion 20B) of the lower end portion at the front end of the base 20 in a side view is 69 degrees. On the other hand, the angle A formed between the lower surface of the base 20 and the virtual line IL passing through the center of gravity G and the outer peripheral portion (the arc-shaped outer peripheral portion 20C) of the lower end portion at the rear end of the base 20 in a side view is 62 degrees. Further, the distance from the center position of the handle fixing portion 32G to the center of gravity in the vertical direction is 25 mm and is set to be smaller than the length Ha2 from the center position of the handle fixing portion 32G to the upper end position of the handle 52.
Additionally, the position of the center of gravity of the router 10 at the lowest position of the router main body 30 is below the position of the center of gravity of the router 10 at the highest initial position of the router main body 30 (
(Operation and Effect)
Next, the operation and effect of the router 10 of this embodiment will be described.
In the router 10 with the above-described configuration, the battery holder 60 is provided on the upper side of the motor housing 33 and the battery 70 is mounted on the battery holder 60 in an attachable/detachable manner. Therefore, it is possible to drive the motor 40 by supplying electric power from the battery 70 to the motor 40. Accordingly, the convenience can be improved as compared with, for example, a router having a configuration in which a power cord is extended from the router main body 30.
Further, the battery 70 is mounted on the battery holder 60 and constitutes the upper end portion of the router 10. Therefore, the position of the center of gravity G of the router 10 tends to be located on the upper side due to the weight of the battery 70. Accordingly, there is a possibility that the stability of the posture of the router 10 decreases and the router 10 is more likely to be tilted. Specifically, since the position of the center of gravity G of the router 10 at the highest initial position of the router main body 30 becomes the highest, there is a possibility that the posture of the router 10 in this state becomes unstable.
Here, all angles A, B, C, and D formed between the lower surface of the base 20 and the virtual line IL passing through the center of gravity G of the router 10 and the outer peripheral lower end portion of the base 20 when viewed from a direction orthogonal to the vertical direction are set to 80 degrees or less. Specifically, the angle (A, B) formed between the lower surface of the base 20 and the virtual line IL in a front view at the highest initial position of the router main body 30 is 61 degrees. Further, the angle C which is an obtuse angle formed between the lower surface of the base 20 and the virtual line IL passing through the center of gravity G and the outer peripheral portion (the linear outer peripheral portion 20B) of the lower end portion at the front end of the base 20 in a side view at the highest initial position of the router main body 30 is 69 degrees. Further, the angle D formed between the lower surface of the base 20 and the virtual line IL passing through the center of gravity G and the outer peripheral portion (the arc-shaped outer peripheral portion 20C) of the lower end portion at the rear end of the base 20 in a side view at the highest initial position of the router main body 30 is 62 degrees. Therefore, for example, even when the router 10 is tilted from the outer peripheral lower end portion of the base 20, the posture of the router 10 can be returned to the state before tilting when the tilt angle of the router 10 is smaller than 10 degrees. Accordingly, it is possible to suppress a deterioration in the stability of the posture of the router 10. Further, even when the upper surface of the workpiece W itself below the base 20 is tilted during the work, stable work can be performed. Additionally, in this embodiment, in order to realize more preferable stability, the router 10 is configured not to tip over even if the tilt angle of the router 10 reaches 25 degrees.
Further, the center of gravity G of the router 10 is disposed between the pair of left and right handles 52 in a front view and is disposed at a position overlapping with the handle 52 when viewed from the left and right direction. Accordingly, it is possible to stabilize the posture of the router 10, for example, when the operator grips the handle 52 and lifts the router 10. That is, if the operator grips the handle 52 and lifts the router 10 when the center of gravity G of the router 10 is disposed above the handle 52, the rotational moment that tends to tilt forward or backward may act on the router 10. Accordingly, it is necessary for the operator to grip the handle 52 not to rotate the router 10 when the router 10 is lifted. As a result, since the force for the operator to grip the handle 52 increases, there is a possibility that the burden on the operator increases.
On the other hand, in this embodiment, the center of gravity G of the router 10 is disposed at a position overlapping with the handle 52 when viewed from the left and right direction. Therefore, even when the operator grips the handle 52 and lifts the router 10, the rotational moment that tends to tilt to the front side or the rear side is less likely to act on the router 10 as compared with the above case. Accordingly, it is possible to stabilize the posture of the router 10 when the operator grips the handle 52 and lifts the router 10 as compared with the above case. As a result, it is possible to reduce the burden on the operator.
Further, the main body housing 31 includes the metallic end bracket 32 which constitutes the lower portion of the main body housing 31 and the resinous motor housing 33 which constitutes the upper portion of the main body housing 31. Further, the battery holder 60 is formed of resin and is provided on the upper side of the motor housing 33. Accordingly, it is possible to lower the vertical position of the center of gravity G of the router 10 as compared with, for example, a case in which the motor housing 33 and the battery holder 60 are formed of metal or the end bracket 32 is formed of resin. Thus, it is possible to further improve the stability in the posture of the router 10.
Further, the lead wire 86 supplying electric power from the battery 70 to the motor 40 and the motor wire 87 extending from the motor substrate 40A of the motor 40 are connected to each other by the connector 88 and the connector 88 is accommodated in the connector accommodation portion 33G of the motor housing 33 and is disposed on the outer side of the motor 40 in the radial direction. That is, the connector 88 and the motor 40 can be arranged at the same position in the vertical direction. Accordingly, it is possible to set the position of the battery 70 in the vertical direction to be low as compared with a configuration in which the connector 88 is disposed between the battery 70 and the motor 40. Specifically, in this embodiment, the height H of the router 10 in the vertical direction at the highest initial position can be set to 280 mm to be smaller than 300 mm. As a result, the position of the center of gravity G of the router 10 can be lowered and closer to the base 20. Accordingly, it is possible to further stabilize the posture of the router 10.
Further, the base 20 is formed in a disk shape having the notch portion 20A extending in the left and right direction at the front end portion. Specifically, the outer peripheral portion of the base 20 includes the linear outer peripheral portion 20B which constitutes the front end portion of the outer peripheral portion of the base 20 and the arc-shaped outer peripheral portion 20C which is curved in an arc shape to protrude backward. Accordingly, the distance L from the center line CL to the outer peripheral portion of the base 20 in a plan view becomes the shortest at the center portion of the linear outer peripheral portion 20B in the left and right direction. Further, as described above, the angle formed between the virtual line IL and the lower surface of the base 20 becomes maximal (the angle C) at the center portion of the linear outer peripheral portion 20B in the left and right direction. Therefore, the router 10 is configured to be easily tilted forward.
Here, the connector 88 is disposed on the rear side with respect to the rotation shaft 41 of the motor 40. Accordingly, the position of the center of gravity G can be set to the rear side as compared with a configuration in which the connector 88 is disposed on the front side with respect to the rotation shaft 41. As a result, it is possible to suppress the router 10 from being tilted forward. Thus, it is possible to effectively improve the stability in the posture of the router 10.
Further, the battery holder 60 is divided into two parts in the front and rear direction and includes the front holder 62 and the rear holder 64. Further, the motor housing 33 is provided with the housing side fixing portion 33F for fixing the front holder 62 and the rear holder 64 and the housing side fixing portion 33F is disposed on the outer side of the upper end portion of the motor 40 (the rotation shaft 41) in the radial direction. That is, the housing side fixing portion 33F and the motor 40 (the rotation shaft 41) can be arranged at the same position in the vertical direction. Accordingly, it is possible to set the position of the battery 70 in the vertical direction to be low as compared with a configuration in which the housing side fixing portion 33F is disposed on the upper side of the motor 40. As a result, it is possible to lower the position of the center of gravity G of the router 10. Thus, it is possible to further stabilize the posture of the router 10.
Further, the control unit 80 is accommodated in the battery holder 60 and is fixed to the battery holder 60. Further, the control unit 80 is disposed on the upper side of the motor 40 and the housing side fixing portion 33F. In other words, the housing side fixing portion 33F is disposed on the outer side of the motor 40 in the radial direction and the lower side of the control unit 80. Accordingly, it is possible to fix the battery holder 60 to the motor housing 33 by the housing side fixing portion 33F while suppressing the housing side fixing portion 33F from obstructing the vertical space for accommodating the control unit 80 in the battery holder 60. Therefore, it is possible to set the vertical positions of the control unit 80 and the battery 70 to be low as compared with a configuration in which the housing side fixing portion 33F is disposed between the motor 40 and the control unit 80 in the vertical direction. Thus, it is possible to further improve the stability in the posture of the router 10.
Further, the motor accommodation portion 33B of the motor housing 33 is provided with the pair of upper and lower housing side engagement ribs 33H protruding forward and the pair of upper and lower housing side engagement ribs 33J protruding backward. Further, the lower end portion of the front holder 62 of the battery holder 60 is provided with the holder side engagement rib 62B and the lower end portion of the rear holder 64 is provided with the holder side engagement rib 64B. Then, the holder side engagement rib 62B (the holder side engagement rib 64B) engages with the housing side engagement rib 33H (the housing side engagement rib 33J) in the vertical direction and is disposed on the outer side of the upper end portion of the motor 40 (the rotation shaft 41) in the radial direction. That is, the lower end portion of the battery holder 60 engages with the motor accommodation portion 33B on the outer side of the motor 40 in the radial direction. Therefore, it is possible to lower the position of the upper end portion of the motor accommodation portion 33B as compared with a configuration in which the lower end portion of the battery holder 60 engages with the motor accommodation portion 33B on the upper side of the motor 40. That is, it is possible to engage the motor accommodation portion 33B and the battery holder 60 with each other while suppressing the motor accommodation portion 33B from obstructing the vertical space for accommodating the control unit 80 in the battery holder 60. Thus, it is possible to stabilize the posture of the router 10 while satisfactorily maintaining the attachment state of the battery holder 60 with respect to the lower end portion.
Further, the front holder 62 (the rear holder 64) of the battery holder 60 is provided with the first intake hole 62C (the first intake hole 64C). Accordingly, it is possible to cool the motor 40 by the air flow AR1 flowing from the first intake hole 62C (the first intake hole 64C) into the battery holder 60.
Further, the battery 70 is provided with the plurality of battery side intake holes 70A and the plurality of battery side exhaust holes 70B. Then, the battery side exhaust hole 70B is disposed on the upper side of the second intake hole 60B of the battery holder 60 and is disposed to face the second intake hole 60B in the vertical direction. Accordingly, it is possible to generate the air flow AR3 that flows from the battery side intake hole 70A of the battery 70 into the battery 70 by the fan 47. Then, it is possible to allow the air flow AR3 to flow from the battery side exhaust hole 70B of the battery 70 and the second intake hole 60B of the battery holder 60 into the battery holder 60. Thus, even in the configuration in which the battery 70 is mounted on the router 10, it is possible to suppress the generation of heat of the battery 70 by cooling the battery 70. Further, since the battery 70 is disposed at the upper portion of the router 10, it is difficult for the machined powder (chips) generated in the lower portion to approach the battery side intake hole 70A provided in the battery 70 and it is possible to suppress the machined powder from entering the battery 70.
Additionally, in the first embodiment, the control unit 80 is accommodated in the battery holder 60 and is disposed on the upper side of the motor 40. However, as shown in
Hereinafter, a router 100 according to a second embodiment will be described with reference to
That is, in the second embodiment, a battery holder 110 serving as a “battery holder” is provided on the upper side of the motor housing 33 instead of the battery holder 60. The battery holder 110 is divided into two parts and includes a left holder 112 which constitutes the left portion of the battery holder 110 and a right holder 114 which constitutes the right portion of the battery holder 110. Then, the battery holder 110 is configured by assembling the left holder 112 and the right holder 114. The motor housing 33 has a single piece structure that cannot be divided.
The left holder 112 and the right holder 114 include outer top wall portions 112A and 114A which cover the upper wall of the motor housing 33 and the raised portions 33AR and 33AL. As shown in
The left holder 112 and the right holder 114 respectively include abutting portions 112C and 114C that are abutted against the opening end of the base end portion of the motor housing 33, side wall portions 112D and 114D are integrally provided on the side edges of the rear surface wall portions 112B and 114B, and the side wall portions 112D and 114D are abutted against the rear surface of the motor housing 33.
As shown in
The outer top wall portions 112A and 114A are provided with an intake port 115 as shown in
As shown in
The battery mounting portion 116 is provided with a connection portion 118 including a plurality of device side terminals 117. A guide rail 119 is provided on each of the side edges of the battery mounting pieces 116A and 116B and a slide rail (not shown) engaging with the guide rail 119 is provided in the battery 70. Thus, when the slide rail of the battery 70 is engaged with the guide rail 119 of the battery mounting portion 116 and is slid, the battery 70 is mounted on the battery mounting portion 116. An opening end of the guide rail 119 is provided with an engagement groove 120 and an engagement claw (not shown) engaging with each engagement groove 120 is provided in the battery 70. When each engagement claw engages with the engagement groove 120, the battery 70 is locked to the battery mounting portion 116.
By operating the lock member 72 provided on the side surface of the battery 70, the battery is movable between the position engaging with the engagement groove 120 and the position separating from the engagement groove 120. When performing the attachment/detachment operation of the battery 70, the lock member 72 is operated.
As shown in
Then, in the second embodiment, since the battery 70 is mounted on the rear surface portion of the router 100, it is possible to shorten the dimension of the router 100 in the longitudinal direction (the vertical direction) as compared with the router 10 of the first embodiment in which the battery 70 is mounted on the upper end of the battery holder 60 and it is possible to improve the workability by the router 100.
(Position of Center of Gravity of Router 100)
Next, the position of the center of gravity of the router 100 at the highest initial position of the router main body 30 will be described with reference to
Then, also in the second embodiment, the angle (A, B, C, D) formed between the lower surface of the base 20 and the virtual line IL passing through the center of gravity G and the outer peripheral portion of the lower end portion of the base 20 when viewed from a direction orthogonal to the vertical direction is 80 degrees or less. Specifically, the angles A and B formed between the lower surface of the base 20 and the virtual line IL passing through the center of gravity G and the outer peripheral portion (the arc-shaped outer peripheral portion 20C) of the lower end portion at each of the left and right ends of the base 20 in a front view are 58 degrees. Further, the angle C formed between the lower surface of the base 20 and the virtual line IL passing through the center of gravity G and the outer peripheral portion (the linear outer peripheral portion 20B) of the lower end portion at the front end of the base 20 in a side view is 63 degrees. On the other hand, the angle D formed between the lower surface of the base 20 and the virtual line IL passing through the center of gravity G and the outer peripheral portion (the arc-shaped outer peripheral portion 20C) of the lower end portion at the rear end of the base 20 in a side view is 67 degrees. As described above, since the position of the center of gravity is located on the rear side of the center line CL as compared with the first embodiment, the angle C is the obtuse angle in the first embodiment, but the angle D is the obtuse angle in the second embodiment. On the other hand, since the position of the center of gravity is also moved downward, the angle D can be set to 80 degrees or less, and suitable stability can be ensured.
Additionally, the position of the center of gravity of the router 100 at the lowest position of the router main body 30 is lower than the position of the center of gravity of the router 100 at the highest initial position of the router main body 30. Therefore, the angle (A, B, C, D) formed between the lower surface of the base 20 and the virtual line IL passing through the center of gravity G and the outer peripheral portion of the lower end portion of the base 20 when viewed from a direction orthogonal to the vertical direction also at the lowest position of the router main body 30 is 80 degrees or less. Specifically, the obtuse angle D is set to 56 degrees, and the other angles (A, B, C) are set to be less than that angle.
As described above, also in the second embodiment, it is possible to suppress a deterioration in the stability of the posture of the router 100. Further, it is possible to perform stable work even when the upper surface of the workpiece W itself below the base 20 is inclined during the work.
Further, in the second embodiment, when the base 20 is disposed in the horizontal direction and the tip tool T performs a cutting process in a vertical posture, the position of the center of gravity in the left and right direction in a side view when the router 100 is viewed from the side as shown in
Further, as shown in
In this way, it is possible to arbitrarily set the approaching position of the main body housing 31 (the router main body 30) with respect to the base 20 in response to the type of the tip tool even when the workpiece W is machined with the base 20 in a vertical posture. Further, the router 100 may be placed on a mounting surface such as a mounting base in a horizontal posture, that is, a sideways posture during or after machining. For example, there is a case in which the router 100 is placed sideways on a member such as a mounting base or a support base while the tip tool protrudes from the bottom surface of the base 20 until the cutting work at the other position is performed after the cutting work at one position ends. At this time, the rear surface of the battery 70 serves as the lower surface and is disposed on a member such as a mounting base or a support base.
When the end surface on the side of the base 20 in the battery 70 is the front end surface and the opposite end surface is the base end surface, the length of the battery 70 therebetween is the dimension N as shown in
The position of the center of gravity of the router 100 in a side view when the router main body 30 is separated from the base 20 to the position shown in
The position of the center of gravity of the router 100 in a side view when the router main body 30 becomes closest to the base 20 to the position shown in
Thus, since the positions G1 and G2 of the center of gravity are within the range of the length M of the handle when the operator performs a work by gripping the router 100 from the base end surface side of the router main body 30, that is, the right end surface side in
When the router 100 is disposed in a horizontal posture, that is, a sideways posture during or after machining, the router 100 may be placed sideways on the mounting base or the like with the tip tool protruding from the bottom surface of the base 20. At this time, the rear surface (the bottom surface) of the battery 70 serves as the lower surface and is disposed on the mounting base. Then, since the positions G1 and G2 of the center of gravity are within the range of the length N of the battery 70, the work is continuously performed while the router 100 is stably supported without being tilted or tip over. Accordingly, it is possible to start the work by reliably lifting the router 100 and to improve the workability of the router 100. In other words, since the position of the center of gravity G1 and the position of the center of gravity G2 while the battery 70 is mounted on the battery mounting portion 116 are located within the region of the rear surface as viewed from the normal direction of the rear surface when the rear surface (the bottom surface) of the battery 70 is placed to contact the placement surface of the mounting base, it is possible to perform a stable placement in the horizontal direction.
Further, in the second embodiment, since the battery 70 is disposed on the rear surface side of the router main body 30 (the main body housing 31), the stator 43 incorporating the rotor 42 can be located within the range of the length N of the battery 70 as shown in
Number | Date | Country | Kind |
---|---|---|---|
2019-198180 | Oct 2019 | JP | national |
2020-059488 | Mar 2020 | JP | national |
Filing Document | Filing Date | Country | Kind |
---|---|---|---|
PCT/JP2020/037215 | 9/30/2020 | WO |