JP6132462B2 - Rotating tool - Google Patents

Description

  The present invention relates to a rotary tool such as an impact driver.

  Conventionally, a rotary fan such as an impact driver is provided with a cooling fan. This cooling fan generates cooling air for cooling the motor and control board. After sucking external cold air from the air intake holes provided in the housing and cooling the motor and control board with this cold air, Then, the air used for cooling is exhausted from an exhaust hole provided in the housing (see Patent Document 1).

JP 2011-142801 A

  However, in the conventional rotary tool, the cylindrical output part in which the motor and cooling fan are arranged communicates with the lower part of the housing, so that air is sucked from a place other than the intake hole when the cooling fan is activated. was there. For example, air may be sucked from a gap formed between the trigger switch and the housing.

  As described above, when air is sucked from a place other than the intake hole, there is a problem that cooling efficiency is reduced or dust is accumulated outside the flow path of the cooling air.

  Then, this invention makes it a subject to provide the rotary tool which can isolate the distribution path | route of cooling air in the inside of a housing.

  The present invention has been made to solve the above-described problems, and is characterized by the following.

(Claim 1)
The invention described in claim 1 is characterized by the following points.

That is, the rotary tool according to claim 1 is a rotary tool including a cylindrical output portion and a grip portion extending in a direction substantially orthogonal to the output portion at a lower portion of the output portion, and the output tool. The part contains a motor and a cooling fan arranged coaxially with the motor, the grip part contains a trigger switch for operating the motor, and an outer wall surface of the trigger switch An elastic member is provided between a housing inner wall surface of the grip portion, and the elastic member is deformed according to an inner shape of the housing so that a gap between the outer wall surface of the trigger switch and the housing inner wall surface of the grip portion is formed. by fill the housing interior septum wall is formed, the resilient member, the is fixed is wound around the outer peripheral portion of the trigger switch, said housing interior of the wire Wherein by the elastic member is wound in a state pressed against the outer wall surface of the Riga switches, the provided housing inside the wire is fixed to the trigger switch by an elastic member, when the cooling fan is rotated, the cooling External air is sucked in through an intake hole provided between the fan and the elastic member, and the sucked air is discharged to the outside through an exhaust hole provided in a side portion of the cooling fan. To do.

(Claim 2)
The invention described in claim 2 has the following features in addition to the features of the invention described in claim 1 described above.

  That is, the elastic body is a sponge member.

  The invention according to claim 1 is as described above, and an elastic member is provided between the outer wall surface of the trigger switch and the housing inner wall surface of the grip portion. Therefore, the output portion and the grip portion are formed inside the housing by the elastic member. A partition wall is formed between the two. Since the partition wall is formed in this way, when the cooling fan on the output unit side rotates, air is not sucked in from the grip unit side, and air is sucked in correctly from the intake hole, so that there is a problem that cooling efficiency is lowered. In addition, there is no problem that dust accumulates outside the flow path of the cooling air.

In addition, since the elastic member serves as a cushion to protect the trigger switch from impact, the durability of the trigger switch can be improved.
Further, since the elastic member is fixed to the outer wall surface of the trigger switch, the flow path of the cooling air can be isolated only by attaching the trigger switch having the elastic member fixed therein.
Moreover, since the electric wire inside the housing is fixed to the trigger switch by the elastic member, the electric wires can be collected by the elastic member, and the assembling property can be improved.

  The invention according to claim 2 is as described above, and since the elastic body is a sponge member, it is easily deformed and easily deformed even when the shape of the inside of the housing is complicated, and the outer wall of the trigger switch and the grip It is possible to effectively fill the gap between the inner wall and the housing inner wall.

It is a side view of a rotary tool. It is a side view which shows the internal structure of a rotary tool. It is a perspective view of a trigger switch. It is a top view of a trigger switch.

  Embodiments of the present invention will be described with reference to the drawings.

  The rotary tool 10 according to the present embodiment is an impact driver equipped with a motor 15. As shown in FIG. 1, a cylindrical output unit 12 and a direction substantially orthogonal to the output unit 12 below the output unit 12. And a battery pack mounting part 14 provided at the lower part of the grip part 13.

  As shown in FIG. 2, the output unit 12 includes a motor 15. A cooling fan 17, a spindle, a striking mechanism, and an anvil are provided in series on the same axis as the rotation axis of the motor 15. A motor board 18 for controlling the motor 15 is disposed below the motor 15. The motor board 18 is connected to a trigger switch 30, an operation board 20, and a battery, which will be described later, via electric wires 21 and the like.

  An output shaft 16 is formed at the tip of the anvil, and a driver bit (tip tool) (not shown) can be attached. When the motor 15 is rotated with the driver bit attached to the output shaft 16, the driver bit is rotated by the driving force of the motor 15 so that the screw can be tightened.

  The cooling fan 17 is disposed at the rearmost part of the output unit 12 and rotates simultaneously when the motor 15 rotates. As a result, external air is sucked from the intake holes 22 (see FIG. 1) provided in the side portion of the housing 11, and the sucked air is externally discharged from the exhaust holes 23 (see FIG. 1) provided in the side portion of the housing 11. To discharge.

  The intake hole 22 is provided in the side portion of the motor board 18, and the exhaust hole 23 is provided in the side portion of the cooling fan 17. As a result, the cooling air sucked by the cooling fan 17 is exhausted from the vicinity of the motor board 18 to the outside through the inside of the motor 15 so as to efficiently cool the motor board 18 and the coil of the motor 15. Is formed.

  The grip part 13 provided at the lower part of the output part 12 is a part for gripping the rotary tool 10. As shown in FIG. 1, a trigger switch 30 is disposed in the vicinity of the boundary between the grip portion 13 and the output portion 12.

  The trigger switch 30 is for operating the motor 15, and as shown in FIG. 2, a box-shaped switch body 31 that accommodates switch contacts, and a trigger that can be pushed into the switch body 31. Part 32. Although this trigger switch 30 is housed inside the grip portion 13, the trigger portion 32 protrudes outside the housing 11 and can be operated. By pulling the trigger portion 32, the motor 15 starts rotating and the rotary tool 10 starts operating. The trigger portion 32 is disposed at a position where the index finger is applied when the grip portion 13 is gripped.

  The battery pack mounting part 14 provided further below the grip part 13 is a part for attaching and detaching a battery pack (not shown) to the lower surface. As shown in FIG. 2, an operation panel 19 is provided on the upper surface side of the battery pack mounting portion 14. The operation panel 19 is provided with a mode setting button for changing the rotation mode.

  An operation board 20 to which buttons and lamps of the operation panel 19 are connected is built in the battery pack mounting portion 14 located on the back side of the operation panel 19.

  By the way, as shown in FIG. 2, there are slight gaps between S1 between the trigger switch 30 and the housing 11 and between S2 between the operation panel 19 and the housing 11. Moreover, since the output part 12, the grip part 13, and the battery pack mounting part 14 communicate with each other inside the housing 11, in the conventional rotary tool, when the cooling fan 17 rotates, the clearances S1 and S2 There is a problem that air may be inhaled, cooling efficiency is reduced, and dust accumulates outside the flow path of the cooling air.

  In the present embodiment, in order to solve this problem, a sponge seal 33 (sponge member), which is an example of an elastic member, is provided between the outer wall surface 31a of the switch body 31 and the housing inner wall surface 11a of the grip portion 13. Yes. In the present embodiment, a semi-continuous and semi-independent foam sponge seal 33 is used in order to achieve both waterproofing and ease of deformation.

  The sponge seal 33 is provided with an adhesive portion on the back surface, and as shown in FIGS. 3 and 4, the sponge seal 33 is continuously wound from one side portion of the switch body 31 to the other side portion without interruption. In addition, it is fixed to the outer peripheral portion of the switch body 31 by adhesion. Since the sponge seal 33 is bonded in advance as described above, the flow path of the cooling air can be isolated by the sponge seal 33 continuously wound by simply attaching the trigger switch 30 to which the sponge seal 33 is bonded inside the housing 11. it can.

  When the trigger switch 30 to which the sponge seal 33 is bonded is mounted in the housing 11 as described above, the sponge seal 33 is deformed according to the internal shape of the housing 11, and the outer wall surface 31 a of the switch body 31 and the housing inner wall surface of the grip portion 13. 11a is filled.

  The sponge seal 33 also serves to fix the electric wire 21 inside the housing 11 to the switch body 31. That is, the wire 21 is fixed to the switch body 31 as shown in FIG. 2 by winding the sponge seal 33 in a state where the wire 21 is pressed against the outer wall surface 31a of the trigger switch 30 (see FIG. 3). And in FIG. 4, the electric wire 21 is not displayed for convenience).

  The electric wires 21 fixed by the sponge seal 33 are, for example, electric wires that connect the motor board 18 and the trigger switch 30, electric wires that connect the motor board 18 and the operation board 20, electric wires that connect the motor board 18 and the battery, and the like. It is.

  Thus, by fixing the electric wire 21 inside the housing 11 to the switch body 31 with the sponge seal 33, the electric wires 21 can be bundled with the sponge seal 33, and the assembling property can be improved.

  As described above, according to the present embodiment, the elastic member 33 is provided between the outer wall surface 31 a of the trigger switch 30 and the housing inner wall surface 11 a of the grip portion 13. A partition wall is formed between the output part 12 and the grip part 13. By forming the partition wall in this way, when the cooling fan 17 on the output part 12 side rotates, air is not sucked from the grip part 13 side, and air is sucked correctly from the intake hole 22, so that the cooling efficiency is lowered. In addition, there is no problem that dust accumulates outside the flow path of the cooling air.

  Moreover, since the elastic member 33 becomes a cushion and can protect the trigger switch 30 from an impact, the durability of the trigger switch 30 can be improved.

  In the above-described embodiment, the sponge seal 33 is attached to the trigger switch 30. However, the sponge seal 33 may be attached to the inner wall surface 11a of the housing 11, or the outer wall surface 31a of the trigger switch 30 and the grip. You may make it insert the elastic member 33 between the housing inner wall surfaces 11a of the part 13. FIG.

  In the above-described embodiment, the sponge member is used as the elastic member. However, the present invention is not limited to this, and silicon rubber, a gel filler, or the like may be used as the elastic member.

DESCRIPTION OF SYMBOLS 10 Rotating tool 11 Housing 11a Inner wall surface 12 Output part 13 Grip part 14 Battery pack attachment part 15 Motor 16 Output shaft 17 Cooling fan 18 Motor board 19 Operation panel 20 Operation board 21 Electric wire 22 Intake hole 23 Exhaust hole 30 Trigger switch 31 Switch body 31a Outer wall surface 32 Trigger part 33 Sponge seal (elastic member)

Claims (2)

A rotary tool comprising a cylindrical output part, and a grip part extending in a direction substantially orthogonal to the output part at a lower part of the output part,
The output unit contains a motor and a cooling fan arranged coaxially with the motor,
The grip portion contains a trigger switch for operating the motor,
An elastic member is provided between an outer wall surface of the trigger switch and a housing inner wall surface of the grip part,
By the elastic member fills the gap between the outer wall surface and the housing inner wall surface of the grip portion of the trigger switch is deformed to fit the inner shape of the housing, said inner housing to septum wall is formed,
The elastic member is wound and fixed around the outer periphery of the trigger switch, and the elastic member is wound in a state where the electric wire inside the housing is pressed against the outer wall surface of the trigger switch. The electric wire inside the housing is fixed to the trigger switch by
When the cooling fan rotates, outside air is sucked from an air intake hole provided between the cooling fan and the elastic member, and the sucked air is an exhaust hole provided in a side portion of the cooling fan. A rotating tool characterized by being discharged from the outside.   The rotary tool according to claim 1, wherein the elastic member is a sponge member.

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