JP2019025636A - Straight type power tool and power ratchet wrench - Google Patents

Abstract

To provide a straight type power tool and a power ratchet wrench that are more satisfactory in operability relating to a battery and so on.SOLUTION: A power ratchet wrench 1, which is an example of a straight type power tool, comprises: a motor 16; a power transmission part 24 that transmits drive force of the motor 16 to an output part 32 located in the front; a battery 10 for driving the motor 16; and a battery attaching part 12 for attaching the battery 10. The motor 16, the power transmission part 24, and the output part 32 are arranged in a straight line in forward and backward directions. The output axis O of the output part 32 is directed in a vertical direction intersecting the forward and backward directions and juts out downward. The battery attachment part 12 is disposed behind the power transmission part 24 and the motor 16. The battery 10 is attached to an upper side (an opposite side to a jutting-out side of the output axis O) of the battery attachment part 12 by its being slid.SELECTED DRAWING: Figure 3

Description

  The present invention relates to a straight power tool and an example of an electric ratchet wrench.

As disclosed in Japanese Patent Application Laid-Open No. 7-124871 (Patent Document 1), an electric ratchet wrench for manual use used when a nut or bolt is fastened is known.
In this electric ratchet wrench, a grip portion in which a battery is housed, a switch, a motor, a planetary gear mechanism, a spindle, a ratchet holder and a socket are arranged in a straight line. It is an electric tool (straight type electric tool) which is I-shaped.

JP 7-124871 A

In the electric ratchet wrench, since the battery is accommodated, it takes time to replace the battery.
A main object of the present invention is to provide a straight type electric tool and an electric ratchet wrench that have better operability related to a battery or the like.

Invention of Claim 1 is a straight type electric tool, Comprising: The motor, the power transmission part which transmits the driving force of the said motor to the front output part, The battery for driving the said motor, The said battery The motor, the power transmission unit, and the output unit are aligned in the front-rear direction, and the output shaft of the output unit intersects with the front-rear direction. The battery mounting portion is disposed behind the power transmission portion and the motor, and the battery is at least one of the upper side and the lower side of the battery mounting portion, It is characterized by being mounted by a slide.
Invention of Claim 2 is a straight type electric tool, Comprising: The power transmission part which transmits the driving force of the said motor to the front output part, The battery for driving the said motor, The said battery The motor, the power transmission unit, and the output unit are aligned in the front-rear direction, and the output shaft of the output unit intersects with the front-rear direction. The battery mounting portion is disposed behind the power transmission portion and the motor, and the battery slides with respect to at least one of the left side and the right side of the battery mounting portion. It is characterized by being mounted by.
According to a third aspect of the present invention, in the above invention, the battery is mounted so as to face in the front-rear direction.
According to a fourth aspect of the present invention, in the above invention, the battery is mounted so as to face a direction intersecting with the front-rear direction.
According to a fifth aspect of the present invention, in the above invention, the battery mounting portion is rotatable with respect to other portions so that the posture of the mounted battery with respect to the front-rear direction is variable. It is what.
According to a sixth aspect of the present invention, in the above invention, the motor, the power transmission unit, and the output unit are arranged around an axle, and the battery mounting portion is connected to the axle or an extension line thereof. It is characterized by being put together.
The invention according to claim 7 is an electric ratchet wrench, wherein the output portion includes a socket adapter, and the output shaft is a shaft of the socket adapter. Is.

  The main effect of the present invention is to provide a straight type electric tool and an electric ratchet wrench that have better operability related to a battery or the like.

It is a perspective view from the back upper part of the electric ratchet wrench which concerns on the 1st form of this invention. FIG. 2 is a front view of FIG. 1. It is a right view of FIG. It is a center longitudinal cross-sectional view of FIG. It is a right view of the electric ratchet wrench which concerns on the 2nd form of this invention. It is a right view of the electric ratchet wrench which concerns on the 3rd form of this invention. It is a right view of the electric ratchet wrench which concerns on the 4th form of this invention. FIG. 8 is a top view of FIG. 7. It is a right view of the electric ratchet wrench which concerns on the 5th form of this invention.

Hereinafter, embodiments of the present invention and modifications thereof will be described with reference to the drawings as appropriate.
The front, rear, top, bottom, left and right in the embodiment and the modification are determined for convenience of explanation, and may change depending on the status of work, the state of the moving member, and the like.
In addition, this invention is not limited to the following form and modification.

[First form]
FIG. 1 is a perspective view of the electric ratchet wrench 1 according to the first embodiment of the present invention as an example of a straight type electric tool from the rear upper side in a battery separated state, and FIG. FIG. 3 is a central vertical sectional view of the electric ratchet wrench 1 (the battery 10, the controller 61, the switch 62, and the motor 16 are not cross sections), and FIG. 4 is a partially enlarged view of FIG. FIG.
The electric ratchet wrench 1 has a housing 2 that forms the casing.

The electric ratchet wrench 1 includes, in order from the rear side to the front side, a battery mounting part 12 for mounting the battery 10, a handle part 14 gripped by a user, a power unit 18 including a motor 16, a planetary gear mechanism 20 and a spindle 22. The power transmission unit 24, the holder 26, the socket 28, and the output unit 32 including the one-way clutch mechanism 30 interposed therebetween are included.
In the electric ratchet wrench 1, these main components (in particular, the motor 16, the planetary gear mechanism 20, and the spindle 22) are arranged in a straight line, and as a whole, a single rod-like or “I” -shaped electric tool ( Straight power tool).
The motor 16 is a drive source of the electric ratchet wrench 1, and its rotation is transmitted to the holder 26 while being decelerated and reciprocated by a planetary gear mechanism 20 and a spindle 22 as a power transmission mechanism. Through the mechanism 30, the socket 28 as the tip tool holding portion slides and slips with respect to the rotation of the holder 26 in a predetermined direction (free direction), and with respect to the rotation of the holder 26 in the lock direction which is the opposite direction. Are output to lock and rotate together.
A socket adapter 34 as a tip tool can be mounted on the socket 28 in a state in which the direction of the central axis (output shaft O) is the vertical direction. The socket adapter 34 includes a hexagonal nut-shaped joint part 34a, a lower flange part 34b, and a lower square drive part 34c. The joint part 34 a is placed in the socket 28. Various replacement sockets (not shown) are attached to the square drive part 34c projecting downward from the socket 28, and fastening or the like is performed by inserting bolts or nuts into the replacement socket. An output shaft O that is a central axis extending from the upper end to the lower end of the socket adapter 34 or an extension line thereof is a longitudinal axis M or a central axis of main components (in particular, the motor 16, the planetary gear mechanism 20, and the spindle 22). It faces in the direction (vertical direction) intersecting the extension line, and projects downward in the square drive part 34c. Here, the machine axis M (or its extension line) and the output shaft O (or its extension line) are orthogonal. Since the direction of the axis M and the direction of the output shaft O intersect, the electric ratchet wrench 1 is a kind of angle electric tool. The replacement socket may be handled as a tip tool, and the socket adapter 34 may be handled as a tip tool holding portion.

The housing 2 includes a main body housing 40 serving as a housing in the latter half of the battery mounting portion 12, the handle portion 14, the power portion 18 and the power transmission portion 24, and a gear housing 42 serving as a housing for the power transmission portion 24 and the output portion 32. And have.
In addition, in the arrangement of various members in various housings and cases, in addition to the case where the members completely enter the housing or case, a part of the members are in the housing or case, and the remaining part is in the housing or case. The case where it protrudes from or is exposed is also included as appropriate. Further, such an arrangement appropriately includes a case where it is indirectly supported in addition to a case where it is directly supported by the housing or the case.

The main body housing 40 is divided into left and right in a half shape, and includes a left main body housing 44 and a right main body housing 45. The left main body housing 44 has a plurality of screw boss portions 46, and the right main body housing 45 has screw holes corresponding to the screw boss portions 46. The left main body housing 44 and the right main body housing 45 are aligned by a plurality of screws 48 that respectively enter a pair of screw holes and a screw boss portion 46.
The gear housing 42 is a magnifying member made of metal. The handle portion 50 at the rear of the loupe has a cylindrical shape, and has a front diameter-expanded portion that has been expanded and a diameter-expanded portion that has been further expanded at the rear portion. Further, the frame-like portion 52 at the front portion of the loupe has a bifurcated shape that protrudes from the front portion of the handle-like portion 50 into a trumpet shape that spreads forward, and further protrudes forward and downward from each other. It has become. The gear housing 42 is connected to the main body housing 40 by sandwiching the rear part of the handle part 50 between the front end parts of the main body housing 20. The gear housing 42 is moved forward by the enlarged diameter portion (particularly the rear enlarged diameter part) of the handle part 50. It has been prevented from coming off.

The battery 10 is a 10.8 V (volt) lithium ion battery, and includes eight cells as rechargeable batteries (not shown) in a resin rectangular battery case. The cell has a columnar shape that is long in the axial direction, and faces the longitudinal direction of the battery case. The battery 10 can be charged, and the electric ratchet wrench 1 is a rechargeable ratchet wrench.
The battery 10 has a plurality of grooves (not shown) extending in the longitudinal direction formed on one surface (wide surface) of the battery case. A battery terminal electrically connected to the cell is disposed in each groove so as to be exposed in the groove. The battery terminal is not limited to the one installed in the groove, and may be one that protrudes or is energized when mounted.
The battery 10 includes a microcomputer (not shown). The microcomputer controls the operation of the battery 10 including the supply of power from the cell to the battery terminal.

The battery case of the battery 10 includes groove-shaped rail guides 54 in the front-rear direction on the left and right when the longitudinal direction is the front-rear direction and the battery terminal is directed downward.
Moreover, the battery 10 has a battery claw 55 that can protrude in a state of being urged in the protruding direction from the installation surface at the edge of the installation surface of the battery terminal. The battery claw 55 is integrated with a battery lever (not shown) disposed on a surface adjacent to the battery terminal installation surface and close to the battery claw 55, and the battery case resists the urging force by operating the battery lever. It is possible to sink inside.
Further, the battery 10 includes a battery state display unit 56 for displaying the state of the battery 10 including its charge amount (remaining capacity) and a button (not shown) on the surface opposite to the battery lever. The battery status display unit 56 includes a plurality of (four) lamps (not shown) arranged in the longitudinal direction of the installation surface. When the button is pressed, the microcomputer lights up a number of lamps corresponding to the current remaining capacity from one end side for a predetermined time in the battery state display unit 56. In addition, when the remaining capacity is equal to or less than a predetermined threshold value and charging is required, the microcomputer blinks one lamp on one end side for a predetermined time in the battery state display unit 56. Further, when an abnormality occurs in the battery 10 such that the current value between the cell and the battery terminal exceeds a predetermined threshold, the microcomputer adds two lamps on one end side and two lamps on the other end side, Flashes alternately.
It should be noted that the battery status display unit 56 can be changed in various ways, and may be a 7-segment type display unit, or may be displayed when the battery 10 is installed with the button omitted, and charging is required. At least one of the blinking display and the abnormality display may be omitted, the display may be continued until the button is pressed again or the second button provided separately is pressed, or other state of the battery May be displayed, or the whole may be omitted.
At least one of the installation location of the battery terminal, the installation location of the battery lever, and the installation location of the battery status display unit 56 is on the same plane so that the battery lever and the battery status display unit 56 are not arranged on the opposing surfaces. It is possible to make various changes such as arrangement.

The battery mounting portion 12 is formed at the rear portion of the main body housing 40 and has a flat plate portion that extends in a flat plate shape in the front, rear, left and right directions. The flat plate portion of the battery mounting portion 12 is formed with a recess that is recessed downward from the upper surface thereof. The flat plate portion that occupies most of the battery mounting portion 12 is shifted to the lower side with respect to the extension line of the above-described axle M, and the front end portion of the battery mounting portion 12 is vertically and horizontally (more specifically, the front It has a stepped surface N that spreads out diagonally.
The battery mounting portion 12 is formed so as to be recessed further downward at the rear portion of the recess, the rail portion 57 in the front-rear direction disposed on the upper left and right of the recess, the plurality of terminals 58 protruding upward from the bottom surface of the recess, and extending in the front-rear direction. A recess 60. The concave portion of the battery mounting portion 12 may be provided on a surface other than one surface of the flat plate portion, such as an upper surface of a semi-cylindrical portion having a flat upper surface and a curved lower surface.
A controller 61 is disposed below the terminal 58 in the battery mounting portion 12. The controller 61 is held by front and rear ribs formed on the inner surface of the main body housing 40. Each terminal 58 and the controller 61 are electrically connected to each other by a lead wire (not shown).

The battery 10 is mounted on the battery mounting portion 12 by sliding the battery mounting portion 12 from the rear to the front in a state where the battery lever is on the rear side and the installation surface of the battery terminal is on the lower side.
At this time, the rail portion 57 of the battery mounting portion 12 enters the rail guide 54 of the battery 10, and the battery 10 is guided. In addition, a rail part may be provided in the battery 10, a rail guide may be provided in the battery mounting part 12, and a rail part and a rail guide may be abbreviate | omitted.
Moreover, the corresponding terminal 58 enters each groove of the battery 10, and when the mounting is completed, the battery terminal in the groove and the terminal 58 come into contact with each other.
Further, the battery pawl 55 of the battery 10 enters the recess 60 when the mounting is completed, and the battery 10 is securely held in the battery mounting portion 12. Further, when the battery lever is operated by the user and the battery pawl 55 is retracted from the recess 60, the battery 10 can be detached from the battery mounting portion 12 by sliding backward.
In addition, a gap is opened between the battery state display unit 56 on the front surface of the battery 10 and the step surface N of the battery mounting unit 12. Therefore, the buttons of the battery status display unit 56 are easy to operate, and the display of the battery status display unit 56 is easy to see. Further, the battery 10 can be easily detached from the battery mounting portion 12 by gripping the front portion of the battery 10.

A switch 62 is disposed on the handle portion 14.
The switch 62 includes a switch main body 64 and a plunger 66 that protrudes downward from the switch main body 64 in a state in which the protrusion amount can be changed.
The plunger 66 is biased downward so as to have a predetermined maximum projecting amount when no external force is applied. When the plunger 66 is actuated, the plunger 66 moves upward to reduce the projecting amount.
The switch body 64 changes the switching state according to the protrusion amount of the plunger 66. Here, when the protrusion amount decreases from the maximum protrusion amount by a predetermined amount or more and the plunger 66 moves upward from a predetermined switching position, the switch body 64 (switch 62) is switched from OFF to ON, and vice versa. In addition, the switch 62 is switched from on to off.
The switch 62 is electrically connected to the controller 61 via a lead wire (not shown).

A paddle-shaped lever 68 is disposed below the switch 62.
The lever 68 has an arm part 70 and a bathtub-like button part 72 bulging downward.
A pin is erected on the left and right of the rear end portion of the arm portion 70 so as to protrude outward in the left-right direction. The lever 68 can be rotated around the pin by being supported by the main body housing 40. Provided. Since the lower surface of the arm part 70 is supported by the inner surface of the main body housing 40, the lever 68 is in the lowest position. A plunger 66 is in contact with the rear upper surface of the button portion 72. A rib 74 protruding upward is integrally formed at the center of the button portion 72. The button part 72 is exposed at the lower part of the main body housing 40.

A lock arm 76 is disposed in front of the switch 62 and behind the motor 16.
The lock arm 76 is a member extending vertically. On the left and right sides of the central portion of the lock arm 76, pins are erected so as to protrude outward in the left-right direction, and are inserted into cylindrical bosses formed on the inner surface of the main body housing 40. Is rotatably provided around the pin.
A small protrusion-like slider 78 protruding upward is provided at the upper end of the lock arm 76. The slider 78 is exposed from a hole 80 formed in the upper portion of the main body housing 40.
A lower end portion of the lock arm 76 is formed as an arrowhead-shaped portion 82 having an arrowhead shape.

When the user operates the slider 78 so as to be positioned forward, the lock arm 76 is tilted backward and the lower end portion of the arrowhead portion 82 is adjacent to the upper end portion of the rib 74 of the lever 68. In this state, even if the button part 72 of the lever 68 is pushed upward, the rib 74 hits the arrowhead-like part 82, the button part 72 and the plunger 66 are prevented from moving upward, and the switch 62 is turned on. Switching is prevented (off-lock state). On the upper side of the arrowhead-shaped portion 82, a rib 84 that contacts the upper end of the arrowhead-shaped portion 82 in the off-lock state is provided so as to protrude inward from the inner surface of the main body housing 40. The upward movement is prevented, and the upward movement of the button portion 72 and the plunger 66 is reliably prevented.
On the other hand, when the slider 78 is operated so as to be located rearward, the lock arm 76 assumes a substantially vertical posture, and the arrowhead-shaped portion 82 moves away from the space directly above the rib 74 of the lever 68 and the rib 84. In this state, when the button portion 72 of the lever 68 is pressed, the lever 68 rotates upward, the plunger 66 is pressed, and the switch 62 is switched to the on state (off-lock release state).
Since only the switch 62 and the lock arm 76 are disposed in the handle portion 14 and the motor 16 and the battery 10 are not disposed, the handle portion 14 can be formed thinner and can be formed in a state in which the user can easily grip. is there.

The motor 16 is a DC motor with a brush, and is disposed in the front portion of the main body housing 40.
The motor 16 includes a cylindrical motor case 90, a motor case 92 that is disposed so as to penetrate the motor case 90 on its central axis, and is driven to rotate about its own central axis. And a motor terminal 93 protruding rearward from the rear portion. The motor 16 is electrically connected to the controller 61 via a motor terminal 93 by a lead wire (not shown).
The controller 61 controls driving of the motor 16 and controls rotation of the motor shaft 92 in the motor 16. The controller 61 detects an unintended lock state of the motor shaft 92 by detecting a current of a predetermined threshold value or more, and stops driving the motor 16.
The motor 16 includes a fan 94 attached integrally with the motor shaft 92. The fan 94 is disposed inside a plurality of exhaust ports 95 arranged in the circumferential direction in the motor case 90. A plurality of exhaust ports 96 are opened in a portion of the main body housing 40 that is located outward of the exhaust port 95 in the circumferential direction. The fan 94 may be provided separately from the motor 16 or may be omitted.
On the other hand, in the main body housing 40, a plurality of intake ports 98 are opened before and after the exhaust port 96. Each intake port 98 is disposed in front of and behind the motor 16.
A pinion gear 99 is fixed integrally with the motor shaft 92 at the tip of the motor shaft 92.

The planetary gear mechanism 20 as a speed reduction mechanism includes a ring-shaped internal gear 100 having internal teeth, a plurality (three) of planetary gears 102 having external teeth meshing with the internal gear 100, and shafts of the planetary gears 102. And a carrier 106 that holds all (three) pins 104.
The internal gear 100 is non-rotatably mounted in the rear large-diameter portion of the gear housing 42 via the gear retainer 108. The gear retainer 108 extends from the rear large diameter portion of the gear housing 42 to the front end portion of the main body housing 40.
Each planetary gear 102 is disposed inside the internal gear 100.
Each pin 104 has a cylindrical shape whose axial direction is the front-rear direction.
Each planetary gear 102 is supported by the pin 104 in a state where it can rotate around the corresponding pin 104.
The carrier 106 is a ring-shaped member in which a small diameter portion is disposed on the front side of the large diameter portion.
A hole for supporting the front portion of the pin 104 is formed in the large diameter portion of the carrier 106. A planetary gear 102 is disposed at the rear of each pin 104. The pins 104 and the planetary gears 102 are arranged at equal intervals in the circumferential direction. A pinion gear 99 meshes with each planetary gear 102. The front end portion of the pinion gear 99 is in the large diameter portion of the carrier 106. The carrier 106 is disposed in the front large diameter portion of the gear housing 42 so as to be rotatable around its own longitudinal axis.

The spindle 22 as a reciprocating motion conversion mechanism is a cylindrical member facing in the front-rear direction, and is concentric with the spindle main body 110 and the spindle main body 110 and has a non-rotationally symmetric shape (oval shape) as viewed from the center. ), A connecting portion 112 projecting rearward from the rear surface of the spindle main body 110, and a columnar eccentric projecting forward from the front surface of the spindle main body 110 in a state eccentric from the central axis of the spindle main body 110. Pins 116.
The spindle main body 110 is supported by front and rear bearings (needle bearings) 118 fixed in the front portion of the gear housing 42 so as to be rotatable around a central axis in the front-rear direction. The central axis of the spindle main body 110, the central axis of the planetary gear mechanism 20, and the central axis of the motor shaft 92 coincide with each other and serve as the axis M of the electric ratchet wrench 1.
The connecting portion 112 has an inner hole in the small-diameter portion of the carrier 106 having the same cross-sectional shape as this, and is connected to rotate integrally with the carrier 106.
The eccentric pin 116 is covered with a barrel-shaped sleeve 120 that can rotate around the eccentric pin 116.

A light 122 is disposed below the spindle 22.
The light 122 is an LED, and is placed in a recess formed in the lower portion of the front end of the main body housing 40. A wiring groove 124 for inserting a lead wire (not shown) of the light 122 is formed behind the concave portion in the main body housing 40. The write 122 is electrically connected to the controller 61 via the lead wire.
The light 122 is arranged so as to face the front lower side, and illuminates around the lower side of the square drive part 34c of the socket adapter 34.

The holder 26 is a ring-shaped metal member having an inner diameter slightly smaller than the inner diameter of the frame-shaped portion 52 of the gear housing 42, and is disposed between the upper portion and the lower portion of the frame-shaped portion 52. The holder 26 is disposed so as to be rotatable around a central axis in the vertical direction related to the round hole. The holder 26 extends in the front-rear and left-right directions, and the extension line of the machine axis M passes through the center between the upper and lower surfaces (thickness) of the holder 26 and is orthogonal to the center axis in the vertical direction related to the round hole. The machine axis M including the holder 26 (output unit 32) may be grasped. In this case, the machine axis M extends from the front end of the holder 26 to the rear end of the motor shaft 92.
The rear portion of the holder 26 reaches the front end portion of the handle portion 50 of the gear housing 42, and has a semi-cylindrical longitudinal groove 126 whose axial direction is the vertical direction.
A sleeve 120 and an eccentric pin 116 are contained in the longitudinal groove 126, and the left and right sides of the sleeve 120 are in contact with the longitudinal groove 126. When the spindle 22 rotates, the eccentric pin 116 and the sleeve 120 rotate eccentrically, and their lateral movement is transmitted to the holder 26 via the vertical groove 126 by pressing the sleeve 120 against the vertical groove 126. These vertical movements are performed in the vertical groove 126 and are not transmitted to the holder 26. The vertical movement is smoothly performed by the rotation of the sleeve 120 around the eccentric pin 166. Thus, the rotation of the spindle 22 is converted into a left and right reciprocating motion and transmitted to the holder 26.

A cylindrical socket 28 is inserted into the hole of the holder 26 and the hole of the frame-shaped portion 52 of the gear housing 42 overlapping with the hole through the one-way clutch mechanism 30.
In the inner hole in the vertical direction of the socket 28, 12 nut corner contact grooves into which six corners of the hexagon nut can be inserted are formed so as to extend vertically.
A direction switching lever 130 for switching the free direction and the lock direction of the one-way clutch mechanism 30 is provided at the upper front portion of the socket 28. The direction switching lever 130 may be provided on the holder 26.
The direction switching lever 130 includes a rod-shaped operation portion 132 exposed on the upper surface of the socket 28, a shaft portion 134 that protrudes downward from one end portion of the operation portion 132, and the operation portion 132 from the lower end portion of the shaft portion 134. And a cam portion 136 protruding in the reverse direction. The shaft portion 134 is disposed at the upper center of the socket 28. Recesses 138 are formed on the left and right sides of the upper surface of the socket 28, and convex portions (not shown) that can receive the recesses 138 are formed on the lower surface of the other end portion of the operation unit 132. In addition, a convex part may be formed in the socket 28, and the dent 138 may be formed in the direction switching lever 130, and the latching | locking part and to-be-latched part of another aspect may be formed.
When the operation portion 132 is disposed in a state where the convex portion is inserted into one of the recesses 138, the one-way clutch mechanism 30 is relative to the holder 26 in a predetermined direction (free direction) in the socket 28 by the action of the cam portion 136. In the opposite direction (locking direction), the rotation of the socket 28 with respect to the holder 26 is prevented, and the socket 28 is rotated integrally with the holder 26. When the operation part 132 is operated from this state to the state where the convex part enters the other recess 138, the direction switching lever 130 rotates around the shaft part 134, and the cam part 136 rotates to change its posture. Thus, the one-way clutch mechanism 30 switches the above-described free direction and the locking direction. The one-way clutch mechanism 30 may be a ratchet mechanism using gears and claws. Even if the ratchet mechanism 1 is not used, the electric ratchet wrench 1 operates in the same manner as a wrench using the ratchet mechanism as long as the one-way clutch mechanism 30 has a free direction and the opposite lock direction. Therefore, it may be called a ratchet wrench.
A socket adapter 34 is attached to the socket 28 from below. The user may put a nut or the like in the socket 28 without attaching the socket adapter 34 and fasten the nut or the like.

An example of the operation of the electric ratchet wrench 1 will be described.
The user attaches the battery 10 charged in advance with the charger to the battery attachment portion 12 by sliding forward.
When the user grips the handle portion 14 and slides the slider 78 of the lock arm 76 backward and pushes the button portion 72 of the lever 68 upward, the plunger 66 is pushed upward and the switch 62 is turned on. Power is supplied from the battery 10 to the light 122 and the motor 16 via the controller 61, the light 122 is turned on and the lower part of the socket 28 is illuminated, and the motor shaft 92 of the motor 16 is driven by the control of the controller 61. The For example, the light 122 is turned on when the plunger 66 is initially lifted (beginning to press the button portion 72), and the motor 16 is turned on when the plunger 66 is further lifted (pressing the button portion 72). The switching of the switch 62 and the control of the controller 61 may be adjusted so that the timing is different.
As the motor shaft 92 rotates, the fan 94 rotates and air is exhausted from the exhaust ports 95 and 96, and wind from the intake port 98 to the exhaust ports 95 and 96 is formed. The internal mechanism of the electric ratchet wrench 1 including the motor 16 is cooled by the wind.

Further, the rotational force of the motor shaft 92 is decelerated by the planetary gear mechanism 20 and transmitted to the spindle 22, and the rotational force of the spindle 22 is converted into the left and right reciprocating rotational force of the holder 26, and the socket is connected via the one-way clutch mechanism 30. 28 is transmitted as appropriate.
Due to the action of the one-way clutch mechanism 30, the socket 28 and the socket adapter 34 and the exchange socket attached thereto are subjected to the reciprocating rotational force in the locking direction, and the free reciprocating rotational force is not applied. Therefore, the socket 28 and the exchange socket exert torque on the fitted nut and the like only in the locking direction, and do not exert torque in the opposite direction. Therefore, in the lock direction, the nut or the like is intermittently advanced every time the reciprocation is performed, or the removal is similarly performed.
When the power of the battery 10 is insufficient, the user removes the battery 10 from the battery mounting portion 12 by sliding backward, sets the battery 10 in a charger, charges the battery 10 or another battery 10 that has been charged. Is mounted on the battery mounting portion 12.

The electric ratchet wrench 1 described above includes a motor 16, a power transmission unit 24 that transmits a driving force of the motor 16 to the front output unit 32, a battery 10 for driving the motor 16, and a battery mounting for mounting the battery 10. The motor 16, the power transmission unit 24, and the output unit 32 are arranged in a straight line in the front-rear direction, and the output shaft O of the output unit 32 faces the up-down direction intersecting with the front-rear direction. The battery mounting portion 12 is disposed behind the power transmission portion 24 and the motor 16, and the battery 10 is located above the battery mounting portion 12 (on the opposite side to the side where the output shaft O protrudes). ) On the other hand. Therefore, the electric ratchet wrench 1 which is easy to replace the battery 10 and excellent in operability related to the battery 10 is provided.
The battery 10 is mounted so as to face in the front-rear direction. Therefore, the mounted battery 10 faces in the same direction as the direction in which the motor 16, the power transmission unit 24 and the output unit 32 are arranged, and the battery 10 has a portion protruding from the motor 16, the power transmission unit 24 and the output unit 32. The electric ratchet wrench 1 is more easily operated by being mounted in a small state.
Further, the motor 16, the power transmission unit 24, and the output unit 32 are arranged around the axis M, and the battery mounting unit 12 is biased downward with respect to the axis M. Therefore, the battery 10 is mounted in a state closer to the axle M than in the case where the battery mounting portion 12 cannot be shifted, and is mounted with fewer protruding parts, and the center of gravity is closer to the axle M. The operability of the electric ratchet wrench 1 is improved.

In addition, the form of this invention is not limited to the above-mentioned 1st form and the example of a change, For example, the 1st form has the following example of a change further suitably.
The battery mounting portion may be formed downward so that the terminal protrudes downward from the lower surface, and may be offset downward with respect to the axle or its extension line.
A plurality of batteries may be mounted. In this case, if all the batteries are directed in the front-rear direction, each battery is mounted in a state where there are few protruding portions. For example, the batteries may be mounted on the upper and lower sides of the rear portion of the main body housing that extends in the front-rear and right-and-left directions including the axle or its extension.

With respect to the planetary gear mechanism, instead of inserting the pin into the carrier, a shaft-like protrusion on the carrier may be integrally formed.
The planetary gear mechanism may be changed to another speed reduction mechanism, may be a mechanism that transmits power without speed reduction, or may be omitted.
One or two or more intermediate shafts may be interposed between the motor shaft and the holder.

As the battery, any lithium ion battery such as 14.4V, 18V (maximum 20V), 18V, 25.2V, 28V, 36V may be used, and a lithium ion battery having a voltage of less than 10.8V or more than 36V may be used. You may use and another kind of battery may be used. The battery may be chargeable in a state where the battery is mounted on the battery mounting unit.
The number, arrangement, material, size, and type of various members and parts, such as the number of housing sections, the number of planetary gears installed, the number of planetary gear mechanism stages, the number of intake / exhaust ports, and the number of bearings Etc. may be changed as appropriate.
Furthermore, the present invention can be applied to other straight type electric tools such as a multi-tool and a multi-cutter, a straight type electric tool connected to a commercial power source, or a straight type garden tool including a garden trimmer.

[Second form]
FIG. 5 is a right side view of the electric ratchet wrench 201 according to the second embodiment of the present invention. In FIG. 5, the illustration of each screw 48 is omitted.
The electric ratchet wrench 201 is the same as the electric ratchet wrench 1 of the first embodiment except for the configuration of the battery mounting portion. Hereinafter, the same components as those in the first embodiment are denoted by the same reference numerals, and description thereof will be omitted as appropriate.

The battery mounting portion 212 of the electric ratchet wrench 201 is a flat plate portion facing in a diagonal direction of rearward downward (frontward upward), which is a direction intersecting with the direction in which the motor 16, the planetary gear mechanism 20, and the spindle 22 are arranged (front-rear direction). It is formed to have. The center line of the flat plate portion of the battery mounting portion 212 faces the direction where the extension line of the axis M intersects with the angle between them being about 40 °.
The flat plate portion of the battery mounting portion 212 is in a direction perpendicular to the center line of the flat plate portion with respect to the front side thereof, and is lowered to the side approaching the extension line of the axle M. On the front side of the flat plate portion of the battery mounting portion 212, a step surface N that extends in the direction perpendicular to the center line of the flat plate portion and in the left-right direction is formed.
On the upper surface of the flat plate portion of the battery mounting portion 212, as in the case of the battery mounting portion 12 of the first form, a recess having a rail portion 57 and a terminal 58 and a recess 60 are disposed. The rail portion 57 and the terminal 58 face the rearward downward direction, like the flat plate portion.
On the upper side of the battery mounting portion 212, the battery 10 is mounted by sliding from the lower side to the front upper side, with the battery lever as the rear lower side and the installation surface of the battery terminal as the lower side. Most of the battery 10 mounted on the battery mounting portion 212 is located below the extension line of the axle M, and is biased downward with respect to the axle M. The battery mounting portion 212 covers the entire front surface of the mounted battery 10. In addition, the battery state display part 56 in the battery 10 is omitted.
The battery 10 is removed by sliding backward and downward while operating the battery lever.

The electric ratchet wrench 201 described above includes the motor 16, the power transmission unit 24 that transmits the driving force of the motor 16 to the front output unit 32, the battery 10 for driving the motor 16, and the battery mounting for mounting the battery 10. The motor 16, the power transmission unit 24, and the output unit 32 are arranged in a straight line in the front-rear direction, and the output shaft O of the output unit 32 faces the up-down direction intersecting with the front-rear direction. The battery mounting portion 212 is disposed behind the power transmission portion 24 and the motor 16, and the battery 10 is located above the battery mounting portion 12 (on the opposite side to the side where the output shaft O projects). ), And the battery 10 is mounted so as to face an obliquely downward direction that intersects the front-rear direction. Therefore, the electric ratchet wrench 201 which is easy to replace the battery 10 and excellent in operability related to the battery 10 is provided. The electric ratchet wrench 201 has a reduced overall length with the battery 10 being prevented from projecting upward, which is opposite to the projecting side of the output portion 32 (output shaft O), and the center of gravity is reduced to the axle M side ( The operability is improved by approaching the projecting side of the output shaft O).
In addition, the motor 16, the power transmission unit 24, and the output unit 32 are arranged around the axis M, and the battery mounting unit 12 is shifted downward with respect to the axis M. Therefore, the overhang of the battery 10 is further suppressed, and the operability is further improved.

In addition, the said 2nd form has a modification similar to a 1st form suitably.
For example, instead of the upper surface of the battery mounting portion, or along with the upper surface, a recess or a terminal may be disposed on the lower surface, and the battery may be mounted on the lower side of the battery mounting portion.
Further, the angle between the direction of the battery or the battery mounting portion and the front-rear direction or the direction of the axis M may be narrower than about 40 ° or wider.

[Third embodiment]
FIG. 6 is a right side view of the electric ratchet wrench 301 according to the third embodiment of the present invention. In FIG. 5, the illustration of each screw 48 is omitted.
The electric ratchet wrench 301 is the same as the electric ratchet wrench 1 of the first embodiment except for the configuration of the battery mounting portion. Hereinafter, the same components as those in the first embodiment are denoted by the same reference numerals, and description thereof will be omitted as appropriate.

The battery mounting portion 312 of the electric ratchet wrench 301 is a flat plate portion that faces a diagonally upward (forward-down) direction that intersects the direction in which the motor 16, the planetary gear mechanism 20, and the spindle 22 are arranged (front-rear direction). It is formed to have. The center line of the flat plate portion of the battery mounting portion 312 faces the direction in which the extension line of the axis M intersects with the angle between them being about 50 °.
The flat plate portion of the battery mounting portion 312 is disposed further forward in the direction perpendicular to the center line of the flat plate portion with respect to the lower side thereof. On the lower side of the flat plate portion of the battery mounting portion 312, a step surface N that extends in the direction perpendicular to the center line of the flat plate portion and in the left-right direction is formed.
On the lower surface of the flat plate portion of the battery mounting portion 312, similarly to the battery mounting portion 12 of the first form, a recess having a rail portion 57 and a terminal 58 and a recess 60 are disposed. The rail portion 57 and the terminal 58 face the rearward rising direction, like the flat plate portion.
Below the battery mounting portion 312, the battery 10 is mounted by sliding from the upper side to the front lower side with the battery lever as the rear upper side and the installation surface of the battery terminal as the upper side. The battery mounting unit 212 covers the upper half of the front surface of the mounted battery 10, and the battery status display unit 56 disposed in the lower half is exposed and can be operated and visually recognized.
The battery 10 is removed by sliding rearward and upward while operating the battery lever.

  The electric ratchet wrench 301 described above includes the motor 16, the power transmission unit 24 that transmits the driving force of the motor 16 to the front output unit 32, the battery 10 for driving the motor 16, and the battery mounting for mounting the battery 10. 3, the motor 16, the power transmission unit 24, and the output unit 32 are aligned in the front-rear direction, and the output shaft O of the output unit 32 faces the up-down direction intersecting with the front-rear direction. The battery mounting portion 312 is disposed behind the power transmission portion 24 and the motor 16, and the battery 10 is located below the battery mounting portion 12 (on the side where the output shaft O protrudes). On the other hand, the battery 10 is mounted by sliding, and the battery 10 is mounted so as to face an obliquely upward direction that intersects the front-rear direction. Therefore, the electric ratchet wrench 301 which is easy to replace the battery 10 and has excellent operability related to the battery 10 is provided. Further, the electric ratchet wrench 301 is shortened in the state in which the battery 10 is prevented from projecting downward, which is the projecting side of the output unit 32 (output shaft O), and interference with the projecting side of the output shaft O is prevented. It is suppressed and the operability is improved.

In addition, the said 3rd form has a modification similar to a 1st form and a 2nd form suitably.
For example, a battery may be mounted on the upper side of the battery mounting portion, such that a recess, a terminal, or the like is disposed on the upper surface instead of or together with the lower surface of the battery mounting portion.
Further, the angle between the direction of the battery or the battery mounting portion and the front-rear direction or the direction of the machine axis M may be changed from about 50 °.

[Fourth form]
FIG. 7 is a right side view of the electric ratchet wrench 401 according to the fourth embodiment of the present invention, and FIG. 8 is a top view of the electric ratchet wrench 401. In FIG. 7, the illustration of each screw 48 is omitted.
The electric ratchet wrench 401 is the same as the first embodiment except for the configuration of the battery mounting portion. Hereinafter, the same components as those in the first embodiment are denoted by the same reference numerals, and description thereof will be omitted as appropriate.

The battery mounting portion 412 of the electric ratchet wrench 401 is formed to have a flat plate portion that faces the direction in which the motor 16, the planetary gear mechanism 20, and the spindle 22 are arranged (front-rear direction). The center line of the flat plate portion of the battery mounting portion 412 faces the front-rear direction and is parallel to the extension line of the machine axis M. The flat plate portion of the battery mounting portion 412 extends in the vertical direction at the rear end portion of the main body housing 40.
The flat plate portion of the battery mounting portion 412 is offset to the left side with respect to the front side. On the front side of the flat plate portion of the battery mounting portion 412, a step surface N that extends in the front-rear and left-right directions is formed.
On the right surface of the flat plate portion of the battery mounting portion 412, a recess having a rail portion 57 and a terminal 58, and a recess 60 are arranged in the same manner as the battery mounting portion 12 of the first embodiment. The rail part 57 and the terminal 58 face the front-back direction similarly to the flat plate part.
On the right side of the battery mounting portion 412, the battery 10 is mounted by sliding forward thereafter, with the battery lever as the rear side and the battery terminal installation surface as the left side. The battery mounting unit 212 covers the left half of the front surface of the mounted battery 10, and the battery state display unit 56 disposed in the right half is exposed and can be operated and can be visually recognized.
The battery 10 is removed by sliding backward while operating the battery lever.

  The electric ratchet wrench 401 described above includes the motor 16, the power transmission unit 24 that transmits the driving force of the motor 16 to the front output unit 32, the battery 10 for driving the motor 16, and the battery mounting for mounting the battery 10. The motor 16, the power transmission unit 24, and the output unit 32 are aligned in the front-rear direction, and the output shaft O of the output unit 32 faces the up-down direction intersecting with the front-rear direction. The battery mounting portion 412 is disposed behind the power transmission portion 24 and the motor 16, and the battery 10 is mounted on the right side of the battery mounting portion 12 by sliding. Therefore, the electric ratchet wrench 401 which is easy to replace the battery 10 and excellent in operability related to the battery 10 is provided. In addition, the electric ratchet wrench 401 is one in which the overhanging of the battery 10 in the left-right direction is suppressed, and interference in the left-right direction is suppressed, improving operability.

In addition, the said 4th form has an example of a change similar to at least any one of a 1st form thru | or a 3rd form suitably.
For example, a battery may be mounted on the left side of the battery mounting portion, such that a concave portion, a terminal, or the like is disposed on the left surface instead of or along with the right surface of the battery mounting portion.
Further, the battery mounting portion may be formed in an oblique direction so that the battery is mounted in the front-rear direction or in a direction having an angle with the direction of the axis M.

[Fifth embodiment]
FIG. 9 is a right side view of the electric ratchet wrench 501 according to the fifth embodiment of the present invention. In FIG. 9, illustration of each screw 48 is omitted.
The electric ratchet wrench 501 is the same as the electric ratchet wrench 1 of the first embodiment except for the configuration of the battery mounting portion. Hereinafter, the same components as those in the first embodiment are denoted by the same reference numerals, and description thereof will be omitted as appropriate.

The battery mounting part 512 of the electric ratchet wrench 501 has a mounting part housing 513 separate from the main body housing 540 before this. The left main body housing 44 and the right main body housing 540 of the first form except that the left main body housing (not shown) and the right main body housing 545 in the main body housing 540 have a shape excluding the battery mounting portion 12 in the first form. Same as 45.
The mounting portion housing 513 includes a step surface N and a flat plate portion extending from the step surface N. On the surface of the flat plate portion on the side where the step surface N is present, a recess having a rail portion 57 and a terminal 58 and a recess 60 are disposed in the same manner as the battery mounting portion 12 of the first embodiment.
The mounting portion housing 513 is connected to the rear end portion of the main body housing 540 so as to be rotatable with a built-in member around a horizontal axis with respect to the main body housing 540. The mounting portion housing 513 and the members mounted therein, that is, the battery mounting portion 512, have a vertical orientation (solid line in the figure) in which the installation surface of the terminal 58 spreads up and down and left and right, and the installation surface of the terminal 58 is front and rear, left and right Rotate up to a horizontal posture (a two-dot chain line in the figure) that is in a state of spreading (see the one-dot chain line in the figure).

When the battery mounting portion 512 is in a vertical posture, the rail portion 57 and the terminal 58 are directed in the vertical direction, and the step surface N is in a state of spreading in the front, rear, left, and right directions. On the other hand, when the battery mounting portion 512 is in a horizontal posture, the rail portion 57 and the terminal 58 face in the front-rear direction, and the step surface N spreads up, down, left, and right. In the case of these intermediate postures, the rail portion 57 and the terminal 58 face the rearward and downward oblique direction, and the stepped surface N extends in the direction perpendicular to the oblique direction and in the left and right direction.
When the battery mounting portion 512 is in a vertical posture, the battery 10 is placed under the battery mounting portion 512 with the battery lever on the lower side and the battery terminal installation surface on the front side with respect to the rear side of the battery mounting portion 512. It is mounted by sliding upwards. On the other hand, when the battery mounting portion 512 is in a horizontal posture, the battery 10 is in a state where the battery lever is on the rear side and the installation surface of the battery terminal is on the lower side with respect to the upper side of the battery mounting portion 512. It is mounted by sliding from the back to the front. In the intermediate posture, the battery 10 is viewed from the lower rear side of the battery mounting unit 512 with the battery lever set to the rear lower side and the battery terminal installation surface to the front lower side with respect to the upper rear side of the battery mounting unit 512. Mounted by sliding forward and upward.
The step surface N of the battery mounting portion 512 covers the front half of the upper surface of the battery 10 when mounted in a vertical posture, and the battery status display portion 56 disposed in the rear half is exposed and operable and visible. It becomes. Similarly, in other postures, the battery state display unit 56 is exposed and can be operated and can be visually recognized.
The battery 10 is removed by sliding in a direction away from the battery mounting portion 512 while operating the battery lever.

  The electric ratchet wrench 501 described above includes the motor 16, the power transmission unit 24 that transmits the driving force of the motor 16 to the front output unit 32, the battery 10 for driving the motor 16, and the battery mounting for mounting the battery 10. The motor 16, the power transmission unit 24, and the output unit 32 are aligned in the front-rear direction, and the output shaft O of the output unit 32 faces the up-down direction intersecting with the front-rear direction. The battery mounting portion 512 is disposed behind the power transmission portion 24 and the motor 16, and the battery 10 is located above the battery mounting portion 12 (on the opposite side to the side where the output shaft O protrudes). , In a horizontal position), the battery mounting unit 512 is configured such that the position of the mounted battery 10 with respect to the front-rear direction is variable from a horizontal position to a vertical position. To so that is rotatable relative to other parts such as the body housing 540. Therefore, the electric ratchet 501 that is easy to replace the battery 10 and excellent in operability related to the battery 10 is provided. In addition, the user sets the battery mounting portion 512 in a vertical posture or a posture close thereto, shortens the length of the electric ratchet wrench 501 in the front-rear direction, or sets the battery mounting portion 512 in a horizontal posture or a posture close thereto. 10 and the battery mounting portion 512 can be prevented from projecting downward, and the posture of the battery 10 and the battery mounting portion 512 can be adjusted according to the working state.

In addition, the said 5th form has an example of a change similar to at least any one of a 1st form thru | or a 4th form suitably.
For example, in place of or in addition to the upper surface of the battery mounting portion in the horizontal position, a concave portion, a terminal, or the like is disposed on at least one of the lower surface and the left and right surfaces together with the upper surface. You may make it attach a battery to right and left.
In addition, the rotation range of the battery mounting portion is not limited to the vertical posture to the horizontal posture, and may be rotatable so that the battery can be mounted after the horizontal posture is exceeded and the battery is mounted after the vertical posture is exceeded. The battery may be rotatable so that the battery can be attached. The rotation axis of the battery mounting portion may face other than the left and right direction such as the up and down direction. The battery mounting portion in the vertical posture may project upward without projecting downward, or may project over both upper and lower sides.

  1,201,301,401,501..Electric ratchet wrench (straight type electric tool), 10..Battery, 12, 212, 312, 412, 512..Battery mounting part, 16 ... Motor, 24..Power Transmission part, 32 ... output part, M ... axle, O ... output shaft.

Claims (7)

A motor,
A power transmission unit that transmits the driving force of the motor to a front output unit;
A battery for driving the motor;
A battery mounting portion for mounting the battery;
With
The motor, the power transmission unit, and the output unit are arranged in a straight line in the front-rear direction,
The output shaft of the output unit faces the direction intersecting with the front-rear direction and projects downward.
The battery mounting part is disposed behind the power transmission part and the motor,
The straight type electric tool, wherein the battery is attached to at least one of an upper side and a lower side of the battery mounting portion by sliding. A motor,
A power transmission unit that transmits the driving force of the motor to a front output unit;
A battery for driving the motor;
A battery mounting portion for mounting the battery;
With
The motor, the power transmission unit, and the output unit are arranged in a straight line in the front-rear direction,
The output shaft of the output unit faces the direction intersecting with the front-rear direction and projects downward.
The battery mounting part is disposed behind the power transmission part and the motor,
The straight type electric tool, wherein the battery is mounted by sliding on at least one of the left side and the right side of the battery mounting unit. The straight power tool according to claim 1, wherein the battery is mounted so as to face in the front-rear direction. The straight type electric tool according to claim 1, wherein the battery is mounted so as to face a direction intersecting with the front-rear direction. 3. The straight according to claim 1, wherein the battery mounting portion is rotatable with respect to another portion so that the posture of the mounted battery with respect to the front-rear direction is variable. Type electric tool. The motor, the power transmission unit, and the output unit are arranged around an axis,
The straight power tool according to any one of claims 1 to 5, wherein the battery mounting portion is offset with respect to the axle or an extension line thereof. In the straight type electric tool in any one of Claims 1 thru | or 6,
The output unit includes a socket adapter;
The electric ratchet wrench, wherein the output shaft is a shaft of the socket adapter.

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