JP6187814B2 - Electric tool - Google Patents

Description

  The present invention relates to a power tool.

  The electric tool of Patent Document 1 has a tool output shaft and a light source. The light source irradiates light to the work area of the tool output shaft.

JP 2007-136606 A

  When the operator of the power tool desires to brighten a surrounding area different from the work area, it is necessary to prepare a lighting fixture for that purpose. When the work space is small, the worker may not be able to install the lighting fixture at a desired location. In this case, the operator must use the electric tool while holding the lighting fixture. For this reason, work efficiency falls. Note that Patent Document 1 does not particularly mention such a problem.

  An object of the present invention is to provide an electric tool in which work efficiency is unlikely to decrease.

[1] An independent form of the power tool has the following matters. The power tool includes a tool output shaft , a work area light source, and a surrounding area light source, and the work area light source emits light in a thrust direction of the tool output shaft included in the work area of the tool output shaft. The peripheral region light source irradiates light in a radial direction of the central axis of the tool output shaft included in a peripheral region which is a region different from the work region of the tool output shaft .

[2] An embodiment subordinate to the power tool has the following matters. The power tool has a main body portion extending in a central axis direction of the tool output shaft, the tool output shaft protrudes from the main body portion, and the work area light source is arranged in the longitudinal direction of the main body portion. The peripheral region light source is provided at an intermediate portion of the main body in the longitudinal direction of the main body .
[3] One form subordinate to the power tool has the following matters. The surrounding area light source is provided at the bottom of the main body.

[ 4 ] An embodiment subordinate to the power tool has the following matters. The power tool has a gripping portion, the gripping portion is connected to the main body portion, and the mounting position of the light source for the surrounding area in the main body portion is such that the main body portion and the gripping portion are arranged on a plane. It is a position which does not contact the plane when

[ 5 ] An embodiment subordinate to the power tool has the following matters. The electric tool has at least one of an interlocking trigger switch and an irradiation switch, the tool output shaft and the surrounding area light source operate according to an operation of the interlocking trigger switch, and the surrounding area light source is Operates according to the operation of the irradiation switch.

  [6] A mode dependent on the power tool has the following matters. The electric tool has at least one of an interlocking trigger switch and an irradiation switch, and at least one of the tool output shaft, the light source for the surrounding area, and the light source for the work area depends on an operation of the interlocking trigger switch. In operation, at least one of the light source for the surrounding area and the light source for the work area operates according to an operation of the irradiation switch.

  According to this electric tool, work efficiency becomes difficult to fall.

The front view of the electric tool of an embodiment. The block diagram of the electric tool of embodiment. The bottom view of the main-body part of embodiment. The front view of the electric tool of a modification.

With reference to FIG. 1, the structure of the electric tool 1 is demonstrated.
The electric tool 1 has a form of an electric driver as an example. The electric power tool 1 has a main body part 10, a grip part 20, and a rotary coupling part (not shown). The rotary coupling unit couples the main body unit 10 and the grip unit 20 to each other. The rotary coupling portion has a structure that relatively rotates the main body portion 10 and the grip portion 20.

  The shape of the electric power tool 1 is changed by relative rotation of the main body 10 and the grip 20. The shape of the electric power tool 1 is changed by the worker according to the work environment or the like. When the electric tool 1 takes the first shape or the second shape, the relative rotation of the main body 10 and the grip 20 is restricted by a lock mechanism (not shown). The first shape is a shape in which the main body 10 and the grip 20 are substantially coaxial. The second shape is a shape shown in FIG. 1 and is a shape in which the angle formed by the main body 10 and the grip 20 takes a predetermined angle. When the electric power tool 1 takes the first shape or the second shape, the restriction of the rotation by the lock mechanism is released when a force greater than a specified value acts on the lock mechanism.

  The main body 10 constitutes a main part that characterizes the configuration of the electric power tool 1. The main body 10 includes a main body housing 11, a tool output shaft 30, a surrounding area irradiation unit 50, a work area irradiation unit 40, a forward rotation trigger switch 61, a reverse rotation trigger switch 62, and a motor 90 (see FIG. 2). doing. The main body housing 11 has a shape similar to a cylindrical shape. The motor 90 is disposed inside the main body housing 11.

  The gripping part 20 constitutes a part for an operator to grip during work. The gripper 20 includes a gripper housing 21, an irradiation switch 70, a power supply unit 80, and a control unit 100 (see FIG. 2). The gripping part housing 21 has a shape similar to a cylindrical shape. The power supply unit 80 and the control unit 100 are disposed inside the gripping part housing 21. The power supply unit 80 supplies the power of the primary battery or the secondary battery to a power supply target connected to the power supply unit 80.

  As an example, the tool output shaft 30 has a form in which a screw tightening bit or the like can be attached to the tip. The tool output shaft 30 transmits torque to the work target part via the bit, and attaches the work target part to the attachment. An example of the work target component is a screw or a bolt. An example of an attachment object is a structure. The base end side portion of the tool output shaft 30 is disposed inside the main body housing 11 and is connected to the output shaft of the motor 90 via a connecting portion (not shown). A tip side portion of the tool output shaft 30 protrudes outside the main body housing 11.

  The work area irradiation unit 40 has a function of brightening the work area of the tool output shaft 30. The work area of the tool output shaft 30 is an area that is mainly visually recognized when the worker attaches the work target component to the attachment. The attachment position of the work area irradiation unit 40 in the main body 10 is a position where the work area irradiation unit 40 does not contact the plane when the electric tool 1 taking the second shape is arranged on the plane. The work area irradiation unit 40 has one work area light source 41 and a work area protection plate 42.

  As an example, the work area protection plate 42 is formed of a material mainly composed of glass or translucent resin. The work area protection plate 42 is attached to the outer surface of the bottom of the main body housing 11. The work area protection plate 42 forms a space between the bottom of the main body housing 11.

  The work area light source 41 is disposed in the space formed by the work area protection plate 42 and attached to the outer surface of the bottom of the main body housing 11. An example of the work area light source 41 is an LED lamp. The work area light source 41 emits light mainly in the thrust direction of the tool output shaft 30.

  The surrounding area irradiation unit 50 has a function of brightening a surrounding area that is an area different from the work area of the tool output shaft 30. The surrounding region is a region including at least one of a region around the central axis of the main body 10 and a region around the central axis of the grip 20. The attachment position of the surrounding area irradiation part 50 in the main-body part 10 is a position where the surrounding area irradiation part 50 does not contact with a plane, when the electric tool 1 which takes a 2nd shape is arrange | positioned on a plane. The surrounding area irradiation unit 50 has a plurality of surrounding area light sources 51 and a surrounding area protection plate 52.

  For example, the protection plate 52 for the surrounding area is formed of a material whose main component is glass or a translucent resin. The protection plate 52 for the surrounding area is attached to the outer surface of the bottom portion of the main body housing 11. The surrounding area protection plate 52 forms a space between the bottom of the main body housing 11. The surrounding area protection plate 52 and the work area protection plate 42 have a structure integrated with each other.

  The surrounding area light source 51 is disposed in the space formed by the surrounding area protection plate 52 and attached to the outer surface of the bottom portion of the main body housing 11. An example of the surrounding area light source 51 is an LED lamp. The surrounding area light source 51 mainly emits light in the radial direction of the central axis of the main body 10.

  The forward rotation trigger switch 61 generates a trigger signal that causes the tool output shaft 30 to rotate forward. The reverse rotation trigger switch 62 generates a trigger signal that reversely rotates the tool output shaft 30. The forward rotation trigger switch 61 and the reverse rotation trigger switch 62 are attached to the outer surface of the main body housing 11.

  The irradiation switch 70 generates a trigger signal for outputting light to each of the work area light source 41 and the surrounding area light source 51. As an example, the irradiation switch 70 is formed on the side surface of the end portion on the rotation coupling portion side in the gripping portion housing 21.

With reference to FIG. 2, the electrical configuration of the electric power tool 1 will be described.
The forward rotation trigger switch 61, the reverse rotation trigger switch 62, the irradiation switch 70, the work area light source 41, the surrounding area light source 51, and the motor 90 are each electrically connected to the control unit 100. The forward rotation trigger switch 61, the reverse rotation trigger switch 62, and the irradiation switch 70 input signals to the control unit 100. The work area light source 41, the surrounding area light source 51, and the motor 90 receive a command signal from the control unit 100.

  The control unit 100 causes the motor 90 to rotate forward based on the signal input from the forward rotation trigger switch 61. The control unit 100 reversely rotates the motor 90 based on the signal input from the reverse rotation trigger switch 62. The control unit 100 controls the operation of the work area light source 41 and the surrounding area light source 51 based on the signal input from the irradiation switch 70. When the light is not output to the work area light source 41 and the surrounding area light source 51 and a signal is input from the irradiation switch 70, the control unit 100 supplies the work area light source 41 and the surrounding area light source 51 to the light. Output light. When the control unit 100 outputs light to the work area light source 41 and the surrounding area light source 51 and when a signal is input from the irradiation switch 70, the control unit 100 supplies the work area light source 41 and the surrounding area light source 51 to the light. Do not output light.

With reference to FIG. 3, an example of the attachment position of each irradiation part 40 and 50 is demonstrated.
The work area protection plate 42 is present at the distal end portion of the main body housing 11 in the longitudinal direction of the main body housing 11. The work area protection plate 42 exists in an intermediate portion including the center in the short direction in the short direction of the main body housing 11. The work area light source 41 is present at the distal end portion of the main body housing 11 in the longitudinal direction of the main body housing 11. The work area light source 41 is present at the center in the short direction of the main body housing 11 in the short direction.

  The surrounding area protection plate 52 exists in the longitudinal direction of the main body housing 11 from the end of the work area protection plate 42 to the end of the main body housing 11 on the rotation coupling portion side. The protection plate 52 for the surrounding area is present in an intermediate portion including the center in the short direction in the short direction of the main body housing 11. The plurality of surrounding area light sources 51 are aligned in the longitudinal direction of the main body housing 11. The plurality of surrounding area light sources 51 are present in the middle part of the main body housing 11 in the longitudinal direction of the main body housing 11. The plurality of surrounding area light sources 51 are present in the center in the short direction of the main body housing 11 in the short direction.

With reference to FIG. 1, the operation of the electric power tool 1 will be described.
The operator presses the irradiation switch 70 when he / she wants to brighten at least one of the work area and the surrounding area at the time of attaching the work target part to the attached portion. The work area light source 41 emits light toward the work area when the irradiation switch 70 is pressed. The surrounding area light source 51 emits light toward the surrounding area when the irradiation switch 70 is pressed. For this reason, the work area and the surrounding area become bright. The work area light source 41 and the surrounding area light source 51 continuously emit light until the irradiation switch 70 is next pressed.

The power tool 1 has the following effects.
(1) The electric power tool 1 has a surrounding area light source 51. For this reason, the operator can work using the electric tool 1 while illuminating the surrounding area. For this reason, compared with the case where it works using an electric tool, illuminating a surrounding area with another lighting fixture, working efficiency is hard to fall.

  (2) The surrounding area irradiation unit 50 is attached to a position that does not contact the plane of the main body housing 11 when the electric tool 1 taking the second shape is disposed on the plane. For this reason, when the electric tool 1 falls, the surrounding area irradiation part 50 is hard to be damaged.

  (3) The work area irradiation unit 40 is attached to a position that does not contact the plane of the main body housing 11 when the electric tool 1 taking the second shape is arranged on the plane. For this reason, when the electric tool 1 falls, the work area irradiation unit 40 is hardly damaged.

  (4) The power tool 1 has an irradiation switch 70. For this reason, the operator can irradiate light to the surrounding area light source 51 and the working area light source 41 without rotating the tool output shaft 30. That is, the electric tool 1 can be used as a lighting fixture. For this reason, it may become unnecessary to prepare another lighting fixture.

  In addition, the form which this electric tool can take is not limited to the form illustrated by embodiment. The power tool can take various forms within the scope of the technical idea of the power tool. An example of forms other than the above-described embodiment that can be taken by the electric power tool is a modification of the above-described embodiment.

The work area irradiation unit 40 is omitted from the electric tool 1.
The electric tool 1 has a separate work area irradiation unit in place of the work area irradiation unit 40 or in addition to the work area irradiation unit 40. The work area irradiation unit has a structure that can be coupled to and separated from the main body unit 10. This work area irradiation unit has a unit form in which a work area light source 41 and a work area protection plate 42 are integrated.

  The electric power tool 1 has a separate peripheral region irradiation unit in place of or in addition to the peripheral region irradiation unit 50. The surrounding area irradiation unit has a structure that can be coupled to and separated from the main body unit 10. This surrounding area irradiation part has a form of a unit in which the surrounding area light source 51 and the surrounding area protection plate 52 are integrated.

  The electric power tool 1 includes one or a plurality of other peripheral region light sources instead of the plurality of peripheral region light sources 51 or in addition to the plurality of peripheral region light sources 51. The surrounding area light source is attached to at least one of the main body housing 11 and the gripping housing 21. An example of the mounting position of another light source for the surrounding area in the main body housing 11 is at least one of the right side, the left side, and the top of the main body housing 11. An example of the mounting position of another peripheral region light source in the gripping part housing 21 is a peripheral surface of the end of the gripping part housing 21 on the rotation coupling part side, a peripheral face of an intermediate part of the gripping part housing 21, and a gripping part housing 21 is the bottom surface.

  The power tool 1 has at least one of a work area switch and a surrounding area switch in place of or in addition to the irradiation switch 70. The work area switch outputs a trigger signal for causing the work area light source 41 to output light to the control unit 100. The control unit 100 causes the work area light source 41 to output light based on the signal input from the work area switch. The surrounding area switch outputs to the control unit 100 a trigger signal that causes the surrounding area light source 51 to output light. Based on the signal input from the surrounding area switch, the control unit 100 causes the surrounding area light source 51 to output light.

  The electric tool 1 has a linked forward rotation trigger switch instead of the forward rotation trigger switch 61 or in addition to the forward rotation trigger switch 61. The interlocking forward rotation trigger switch is at least one of a trigger signal for causing the tool output shaft 30 to rotate forward, a trigger signal for causing the work area light source 41 to output light, and a trigger signal for causing the surrounding area light source 51 to output light. Is output to the control unit 100. The control unit 100 rotates the motor 90 forward based on the signal input from the interlocking forward rotation trigger switch, and outputs light to at least one of the work area light source 41 and the surrounding area light source 51.

  The electric tool 1 has an interlocking reverse rotation trigger switch instead of the reverse rotation trigger switch 62 or in addition to the reverse rotation trigger switch 62. The interlocking reverse rotation trigger switch has a function according to the interlocking forward rotation trigger switch.

-The power supply part 80 supplies the electric power of commercial power supply to an electric power supply object.
-As FIG. 4 shows, a rotation coupling | bond part is abbreviate | omitted from the electric tool 1, and the main-body part 10 and the holding part 20 are integrated.

DESCRIPTION OF SYMBOLS 1 ... Electric tool 10 ... Main-body part 20 ... Gripping part 30 ... Tool output shaft 41 ... Light source for work areas 51 ... Light source for surrounding areas 70 ... Irradiation switch

Claims (6)

An electric tool,
The electric tool has a tool output shaft , a working area light source, and a surrounding area light source,
The work area light source irradiates light in a thrust direction of the tool output shaft included in the work area of the tool output shaft,
The light source for the surrounding area irradiates light in a radial direction of the central axis of the tool output shaft included in a surrounding area that is a different area from the work area of the tool output shaft . The electric tool has a main body extending in the direction of the central axis of the tool output shaft ,
The tool output shaft protrudes from the main body,
The working area light source is provided at a tip portion of the main body in the longitudinal direction of the main body,
The power tool according to claim 1, wherein the light source for the surrounding area is provided at an intermediate portion of the main body in the longitudinal direction of the main body . The surrounding area light source is provided at the bottom of the main body.
  The electric tool according to claim 2. The electric tool has a gripping part,
The grip portion is connected to the main body portion,
The electric tool according to claim 2 or 3 , wherein the mounting position of the light source for the surrounding area in the main body is a position that does not contact the flat surface when the main body and the gripping portion are arranged on the flat surface. The electric tool has at least one of an interlocking trigger switch and an irradiation switch,
The tool output shaft and the surrounding area light source operate according to the operation of the interlock trigger switch,
The electric power tool according to any one of claims 1 to 4 , wherein the light source for the surrounding area operates according to an operation of the irradiation switch. The electric tool has at least one of an interlocking trigger switch and an irradiation switch,
The tool output shaft, and at least one of the light source for the surrounding area and the light source for the work area operate according to an operation of the interlock trigger switch,
The power tool according to any one of claims 1 to 4 , wherein at least one of the light source for the surrounding area and the light source for the work area operates according to an operation of the irradiation switch.