JP2023176322A - Work machine - Google Patents

Abstract

To reduce a machine size.SOLUTION: In a dust collector 10 of a dust collecting apparatus 1, a motor 30 and a fan 38 are housed in a housing 12, the battery 22 is attached to the battery attachment part 12L of the housing 12; and power is supplied to the motor 30 from the battery 22. The battery 22 is disposed below the motor 30, and is disposed at a position with a vertical range thereof overlapping the housing 12. Specifically, an upper part of the battery 22 is disposed within a lower stepped part 12J formed at a rear part of the housing 12, and an upper part of the battery 22 and a fan housing part 12A of the housing 12 overlap each other in a front view. Thereby, size of the dust collector 10 can be reduced compared to a configuration in which the battery 22 is arranged at a position offset downward so that the entire vertical arrangement range of the battery 22 does not overlap the housing 12.SELECTED DRAWING: Figure 5

Description

The present invention relates to a working machine.

The dust collector (work machine) described in Patent Document 1 below includes a dust collector (main body) and a dust bag (dust collector) attached to the dust collector. The dust collector has a fan case having a suction port and a discharge port, and a motor and a fan are housed in the fan case. In a dust collector, when a fan is operated by a motor, an airflow is generated that flows from an inlet to an outlet. This allows, for example, dust generated during cutting to be sucked into the fan case from the hose connected to the suction port, and the dust sucked into the fan case is discharged from the discharge port to the dust bag and collected in the dust bag. Can be dust.

Japanese Patent Application Publication No. 11-9515

Incidentally, in a dust collector, for example, a removable battery pack (power supply section) is sometimes used as a power source for supplying electric power to a motor for the purpose of improving transportability. In this case, since the battery pack is attached to the fan case of the dust collector, the size of the dust collector including the battery pack tends to increase. For this reason, it is desirable for the dust collector to have a structure that can be made smaller even when the battery pack is detachably attached.

The present invention takes the above facts into consideration and aims to provide a working machine that can be downsized.

One or more embodiments of the present invention include a main body having an intake port and an exhaust port, and a dust collection unit attached to the main body and into which the airflow exhausted from the exhaust port enters. , the main body section accommodates a driving section, a fan that is operated by the driving force of the driving section and generates the air flow from the intake port toward the exhaust port, and the driving section and the fan; a housing having an intake port and the exhaust port, and a power supply unit that is attached to the housing, is located below the drive unit and at a position where an arrangement range in the vertical direction overlaps with the housing, and supplies power to the drive unit. This is a working machine that includes:

In one or more embodiments of the present invention, a first direction is a direction perpendicular to the vertical direction, a second direction is a direction perpendicular to the vertical direction and the first direction, and the power supply section includes: attached to the housing from one side in the first direction, an exhaust part is formed in the housing, extending from an outer peripheral part to one side in the second direction, and having the exhaust port at a distal end; The working machine is such that the dust collecting section is attached to the exhaust section.

In one or more embodiments of the present invention, the housing is provided with a handle above the drive unit, and the handle is arranged at a position where an arrangement range in a vertical direction overlaps with the housing. It is a working machine.

One or more embodiments of the present invention are a working machine, in which the handle is arranged at a position overlapping the power supply section and the drive section when viewed from above.

In one or more embodiments of the present invention, the handle includes a pair of handle connecting portions extending upwardly from the housing, and a pair of handle connecting portions extending in the second direction, wherein both longitudinal ends thereof are connected to the handle connecting portions. The work machine is configured to include a gripping section connected to a gripping section.

One or more embodiments of the present invention are a working machine in which the entire arrangement range of the drive section in the second direction is arranged at a position overlapping with the grip section.

One or more embodiments of the present invention is a working machine in which the entire arrangement range of the power supply section in the second direction is arranged at a position overlapping with the grip section.

In one or more embodiments of the present invention, the housing accommodates a controller that controls the drive unit, and the controller is arranged on one side or the other side of the drive unit in the second direction. This is a working machine.

In one or more embodiments of the present invention, a frame portion constituting a lower end portion of the main body portion is provided on the lower side of the housing, and the frame portion is configured to move the power supply portion in the first direction. The working machine surrounds the work machine from the other side and from both sides in the second direction.

In one or more embodiments of the present invention, the housing includes a drive part housing part that houses the drive part, and a fan housing part that houses the fan, and the power supply part is arranged in a vertical direction. This is a working machine whose range overlaps with the fan housing section.

According to the work machine having the above configuration, it is possible to downsize the work machine.

FIG. 2 is a front view of the dust collector according to the present embodiment, seen from the front side. FIG. 2 is a cross-sectional view from the right side showing a state in which a hose is attached to the intake pipe of the dust collector of the dust collector shown in FIG. 1; FIG. 2 is a perspective view of the dust collector of the dust collector shown in FIG. 1 as seen diagonally from above and to the right. FIG. 4 is a partially cutaway front view of the dust collector shown in FIG. 3 as seen from the front side. FIG. 4 is a sectional view showing the inside of the dust collector shown in FIG. 3 as seen from the right side. FIG. 4 is a partially cutaway plan view of the dust collector shown in FIG. 3 as seen from above. FIG. 4 is a rear view of the dust collector shown in FIG. 3 as seen from the rear side. 4 is a front view showing the cap of the dust collector shown in FIG. 3. FIG. 9 is a sectional view of a modification of the cap shown in FIG. 8. FIG.

Hereinafter, a dust collector 1 as a working machine according to the present embodiment will be explained using the drawings. Note that arrow UP, arrow FR, and arrow LH shown appropriately in the drawings indicate the upper side, the front side, and the left side of the dust collector 1, respectively. In the following description, when the directions are described using up-down, front-back, and left-right directions, the up-down direction, front-back direction, and left-right direction of the dust collector 1 are meant unless otherwise specified. Further, the front-rear direction corresponds to the first direction of the present invention, and the left-right direction corresponds to the second direction of the present invention.

As shown in FIG. 1, the dust collector 1 includes a dust collector 10 as a main body, and a dust bag 70 as a dust collector attached to the dust collector 10. The dust collector 1 is connected to a cutting machine such as a circular saw, for example, by a hose 60 (see FIG. 2) attached to the dust collector 10, and collects dust generated during cutting into a dust bag 70. As shown in FIGS. 3 to 7, the dust collector 10 includes a housing 12, a motor 30 and a fan 38 as driving units housed in the housing 12, and a battery 22 as a power source unit that supplies electric power to the motor 30. , a cap 50 as a lid attached to the housing 12, and a hose 60. Each configuration of the dust collector 10 will be described below.

(About housing 12)
The housing 12 constitutes the outer shell of the dust collector 10. The housing 12 has a generally rectangular box shape as a whole. The housing 12 is composed of a plurality of housing members, and the housing members are assembled together. The housing 12 includes a fan housing part 12A that constitutes the front end of the housing 12, and a motor housing part 12B (in a broad sense, an element understood as a drive housing part) that constitutes the rear part of the housing 12. It is configured. The motor housing section 12B is an example of a drive section accommodating section, and the fan housing section 12A is an example of a fan accommodating section.

The fan housing part 12A has a thickness direction in the front-rear direction and is formed in a substantially circular shape when viewed from the front. It is configured. The volute chamber 12C and the inside of the motor housing section 12B are partitioned by a partition wall 12D, and a communication hole 12E is formed through the partition wall 12D to communicate the fan housing section 12A and the motor housing section 12B.

An intake pipe 12F serving as an intake section is integrally formed in the fan housing section 12A. The intake pipe 12F is formed in a substantially cylindrical shape with the longitudinal direction as the axial direction, and extends forward from a substantially central portion of the front wall of the fan housing portion 12A. As a result, the intake port 12F1, which is the opening at the tip of the intake pipe 12F, is opened to the front side, and the inside of the intake pipe 12F communicates with the volute chamber 12C. An engagement groove 12F2 that engages with a cap 50, which will be described later, is formed on the outer circumference of the tip end of the intake pipe 12F. The engagement groove 12F2 is formed in a concave shape that is open to the outside in the radial direction of the intake pipe 12F, extends along the circumferential direction of the intake pipe 12F, and is formed over the entire circumference of the intake pipe 12F. .

An exhaust pipe 12G serving as an exhaust section is integrally formed in the fan housing section 12A. The exhaust pipe 12G is formed in a substantially cylindrical shape with its axis extending in the left-right direction, and extends to the left from the upper end of the fan housing portion 12A. As a result, the exhaust port 12G1, which is the opening at the tip of the exhaust pipe 12G, is opened to the left, and the inside of the exhaust pipe 12G communicates with the volute chamber 12C. A dust bag 70 is attached to the exhaust pipe 12G, and the dust bag 70 is arranged on the left side of the dust collector 10. The dust bag 70 is a flexible bag that has a filter inside, and collects the dust discharged from the exhaust pipe 12G into the dust bag 70. Note that the dust bag 70 may be made of hard resin and formed into a substantially rectangular box shape.

The motor housing portion 12B is formed into a substantially rectangular box shape. The vertical dimension of the motor housing part 12B is set smaller than the vertical dimension of the fan housing part 12A, and the horizontal dimension of the motor housing part 12B is set to be substantially the same as the horizontal dimension of the fan housing part 12A. Specifically, the upper end of the motor housing part 12B is arranged below the upper end of the fan housing part 12A, and the lower end of the motor housing part 12B is arranged above the lower end of the fan housing part 12A. There is. That is, an upper step part 12H is formed at the upper end of the housing 12 on the rear side of the fan housing part 12A, and is one step lower than the upper end of the fan housing part 12A. On the rear side of the fan housing part 12A, a lower step part 12J is formed which is one step higher than the lower end part of the fan housing part 12A. A motor cover portion 12K is provided on the rear wall of the motor housing portion 12B at approximately the center in the left-right direction and projects toward the rear side, and the motor cover portion 12K is formed in a substantially bottomed cylindrical shape that is open to the front side. has been done.

A battery mounting portion 12L (see FIGS. 5 and 7) is provided at the lower end of the motor housing portion 12B. The battery mounting portion 12L is formed in a substantially U-shape that is open toward the rear when viewed from below. The battery mounting portion 12L is provided with a battery terminal 20 (see FIGS. 5 and 7), and the battery terminal 20 is electrically connected to a controller 36, which will be described later. A battery 22 serving as a power source is removably attached to the battery attachment portion 12L. Specifically, the battery 22 is attached to the battery attachment section 12L by sliding from the rear side to the front side of the battery attachment section 12L. The battery 22 has a connector (not shown) connected to the battery terminal 20, and the battery 22 supplies power to the controller 36 and the motor 30. When the battery 22 is installed, the battery 22 is disposed below the motor housing portion 12B, and the upper portion of the battery 22 is disposed within the lower step portion 12J. That is, the upper part of the arrangement range of the battery 22 in the vertical direction is arranged at a position that overlaps with the arrangement range of the fan housing part 12A in the vertical direction. In other words, when viewed from the front, the upper part of the battery 22 and the lower end of the fan housing part 12A overlap. Alternatively, the coordinates where the battery 22 is arranged in the vertical direction partially overlap with the coordinates where the fan housing part 12A is arranged in the vertical direction. Moreover, the lower part of the battery 22 is arranged at a position that protrudes lower than the housing 12 (fan housing portion 12A).

A frame portion 14 forming the lower side of the housing 12 is provided. The frame portion 14 is integrally formed with the motor housing portion 12B. The frame portion 14 includes a frame main body portion 14A and a pair of left and right frame connecting portions 14B. The frame main body portion 14A is formed in a substantially U-shape that is open to the rear side in plan view. Specifically, the frame main body portion 14A includes a pair of left and right side frame portions 14A1 extending in the front-rear direction, and a front frame portion 14A2 that connects the front ends of the side frame portions 14A1. There is. The side frame portion 14A1 is disposed on the outside of the lower portion of the battery 22 in the left-right direction, and the front frame portion 14A2 is disposed on the front side of the lower portion of the battery 22. Thereby, the lower part of the battery 22 is surrounded by the frame body part 14A from both left and right sides and from the front side.

The frame connecting portion 14B extends upward from the middle portion of the side frame portion 14A1 in the front-rear direction and is connected to both sides of the motor housing portion 12B in the left-right direction. A mounting portion 14C that protrudes downward is formed at both ends of the side frame portion 14A1 in the front-rear direction. When the dust collector 1 performs dust collection work, the mounting portion 14C is placed on the ground GR. Moreover, the mounting portion 14C is arranged below the battery 22. Thereby, in a state in which the mounting portion 14C is placed on the ground GR, the battery 22 is arranged above the ground GR at a distance. Further, the positions of the rear end of the motor cover part 12K, the rear end of the battery 22, and the rear end of the frame part 14 in the front-rear direction are set to substantially coincide with each other.

A handle 16 is provided on the upper side of the motor housing part 12B, and the handle 16 is formed integrally with the motor housing part 12B. That is, the handle 16 is disposed within the upper stepped portion 12H of the housing 12 and spaced apart from the rear side of the fan housing portion 12A. The handle 16 is formed into a substantially inverted U-shape that is open downward when viewed from the rear side. Specifically, the handle 16 includes a pair of left and right handle connecting portions 16A extending upward from both sides in the left and right direction of the motor housing portion 12B, and a pair of left and right handle connecting portions 16A extending in the left and right direction and connecting the upper ends of the handle connecting portions 16A to each other. The grip portion 16B is configured to include a connecting grip portion 16B. As a result, the grip portion 16B is arranged above the motor housing portion 12B so as to be spaced apart from each other, and the operator grips the grip portion 16B when transporting the dust collector 10 or the like. The upper end of the handle 16 is arranged slightly above the upper end of the housing 12 (fan housing part 12A), and most of the arrangement range of the handle 16 in the vertical direction overlaps with the upper end of the fan housing part 12A. ing. Further, the entire arrangement range of the battery 22 in the left-right direction is arranged at a position overlapping the entire grip portion 16B of the handle 16 (see FIG. 7). Further, the position of the handle 16 is set so that the handle 16 is located approximately in the center of the battery 22 in the front-rear direction when viewed from the left and right.

An operation panel 18 for operating the dust collector 10 is provided at a longitudinally intermediate portion of the upper surface of the grip portion 16B, and the operation panel 18 is configured to be pressable downward. Inside the grip part 16B, a switch mechanism section (not shown) is provided below the operation panel 18, and the switch mechanism section is provided with a switch (not shown) that is activated when the operation panel 18 is operated. It is being The switch is electrically connected to the controller 36, and when the operation panel 18 is operated, an on signal is output from the switch to the controller 36.

(About motor 30)
Motor 30 is housed within motor housing portion 12B. That is, the motor 30 is disposed above the battery 22 and below the handle 16. More specifically, the arrangement range of the motor 30 in the left-right direction is arranged at a position overlapping the entire grip portion 16B of the handle 16 (see FIG. 7). In other words, the grip portion 16B of the handle 16, the motor 30, and the battery 22 overlap in plan view. The motor 30 has a drive shaft 30A whose axial direction is the front-rear direction, and the rear end of the drive shaft 30A is rotatably supported by a bearing 32 held by the motor cover part 12K. The front end side portion is rotatably supported by a bearing 34 held on the partition wall 12D. The drive shaft 30A is located substantially coaxially with the intake pipe 12F, and the front end portion of the drive shaft 30A is disposed in the volute chamber 12C of the fan housing portion 12A through the communication hole 12E. The motor 30 is electrically connected to a controller 36 (see FIG. 6), and the motor 30 is driven under the control of the controller 36. Specifically, when the motor 30 is driven, the drive shaft 30A rotates around its own axis in one direction in the rotational direction (in the direction of arrow A in FIG. 4). The controller 36 is housed in the motor housing portion 12B on the right side of the motor 30.

(About fan 38)
The fan 38 is housed in the volute chamber 12C of the housing 12. The fan 38 is configured as a so-called centrifugal fan. Specifically, the fan 38 includes a fan base 38A and a plurality of impellers 38B. The fan base 38A is formed in a substantially disk shape with the thickness direction extending in the front-rear direction. A mounting boss 38C is formed in the center of the fan base 38A, and the mounting boss 38C is formed in a substantially cylindrical shape that projects forward from the fan base 38A. Then, the drive shaft 30A is inserted into the mounting boss 38C from the rear side, and the mounting boss 38C is fixed to the drive shaft 30A with a fixing bolt 40. Thereby, the fan 38 is connected to the drive shaft 30A so as to be able to rotate integrally with the drive shaft 30A.

The impeller 38B extends from the mounting boss 38C to the outside in the radial direction of the fan base 38A, and is formed in a plate shape whose thickness direction is the circumferential direction of the fan base 38A. That is, the impeller 38B protrudes forward from the fan base 38A. When viewed from the front side, the impeller 38B is inclined toward the other side in the rotational direction of the drive shaft 30A as it goes radially outward of the fan base 38A, and is curved in a substantially arc shape. A plurality of impellers 38B are arranged in a line at predetermined angles in the circumferential direction of the fan base 38A.

Further, the fan 38 is disposed below the connection part with the exhaust pipe 12G in the fan housing part 12A. When the fan 38 rotates to one side in the rotational direction together with the drive shaft 30A of the motor 30, the rotation of the impeller 38B generates an airflow AR (see FIG. 4) that flows to one side in the circumferential direction of the fan 38. Specifically, the airflow AR flows into the volute chamber 12C from the intake port 12F1 of the intake pipe 12F, and the airflow AR that flows into the volute chamber 12C is exhausted from the exhaust port 12G1 of the exhaust pipe 12G.

(About cap 50)
As shown in FIGS. 2 to 6 and 8, the cap 50 is attached to the intake pipe 12F of the housing 12 and is configured as a lid that opens and closes the intake port 12F1. The cap 50 is made of a conductive and flexible material. In this embodiment, the cap 50 is made of conductive rubber (rubber material (EPDM) mixed with a filler such as carbon black), and the resistance of the cap 50 is 10 to the 12th power or less (preferably 10 to 12 ohms or less). (4 ohms or less).

The cap 50 includes a mounting cylinder part 52 that is attached to the intake pipe 12F of the housing 12, and a movable cap part 54 that opens and closes the intake port 12F1 of the intake pipe 12F. The mounting cylinder portion 52 is formed in a substantially cylindrical shape with the front-rear direction as the axial direction. The front part of the intake pipe 12F is fitted into the rear part of the mounting cylinder part 52 from the rear side, and the mounting cylinder part 52 is attached to the intake pipe 12F. An engagement rib 52A is formed on the inner peripheral surface of the rear end side of the mounting cylinder portion 52. The engagement rib 52A extends along the circumferential direction of the mounting tube portion 52 and is formed over the entire circumference of the attachment tube portion 52. The engagement rib 52A is fitted into the engagement groove 12F2 of the intake pipe 12F, and the engagement rib 52A and the engagement groove 12F2 are engaged in the longitudinal direction. Thereby, movement of the mounting cylinder portion 52 in the front-rear direction is restricted. Further, a fixed-side engagement hook 52B that protrudes radially inward is formed on the inner peripheral surface of the front end of the mounting cylinder portion 52, and the fixed-side engagement hook 52B extends around the entire circumference of the mounting cylinder portion 52. It is extended across.

The movable cap part 54 has a cap body 54B that is configured to be detachably attached to the front end of the mounting cylinder part 52, and when the cap body 54B is attached to and detached from the mounting cylinder part 52, the state of the cap 50 is changed. It's about to change. Specifically, by attaching the cap body 54B to the mounting cylinder part 52, the cap 50 enters a closed state (the state shown in FIGS. 3 to 6) in which the intake port 12F1 is closed, and the cap body 54B is attached to the mounting cylinder part 52. By removing the cap 50 from the cap 52, the cap 50 is configured to be in an open state (the state shown in FIGS. 2 and 8) in which the intake port 12F1 is opened. When the dust collector 10 performs a dust collection operation, the cap 50 is opened, and when stored after the dust collection operation is completed, the cap 50 is closed. The configuration of the movable cap portion 54 will be described below using the cap 50 in an open state.

The movable cap portion 54 extends from the front end side portion of the mounting tube portion 52 to the radially outer side (specifically, to the lower side) of the attachment tube portion 52. The movable cap portion 54 includes a hinge portion 54A that constitutes a base end portion of the movable cap portion 54, a cap body 54B that constitutes a longitudinally intermediate portion of the movable cap portion 54, and a grounding portion that constitutes a distal end portion of the movable cap portion 54. A grounding knob 54C as a part.

The hinge portion 54A is formed into a substantially rectangular plate shape whose width direction is the left-right direction and whose longitudinal direction is the up-down direction, and extends downward from the front end side portion of the mounting cylinder portion 52. The cap body 54B is formed in a substantially disk shape with the thickness direction in the front-rear direction, and the lower end of the hinge portion 54A is connected to the upper outer circumference of the cap body 54B. The outer diameter of the cap main body 54B substantially matches the outer diameter of the mounting cylinder portion 52, and is set larger than the width dimension of the hinge portion 54A. A fitting cylindrical portion 54B1 is formed on the outer circumference of the cap body 54B, and the fitting cylindrical portion 54B1 is formed in a substantially cylindrical shape with the axial direction in the front-rear direction, and protrudes toward the front side of the cap body 54B. There is. A movable side engagement hook 54B2 that protrudes radially outward is formed at the tip of the fitting cylinder portion 54B1, and the movable side engagement hook 54B2 extends over the entire circumference of the fitting cylinder portion 54B1. has been done.

In the closed state of the cap 50, the hinge portion 54A is bent upward to form a substantially U-shape when viewed from the side, and the cap body 54B assumes an inverted posture in the front-rear direction and is attached to the front end of the mounting cylinder portion 52. Once attached, the opening of the mounting tube 52 is closed. Specifically, the cap main body 54B is arranged adjacent to the front side of the mounting cylinder part 52, and the fitting cylinder part 54B1 is fitted into the front end of the mounting cylinder part 52. In addition, when the cap 50 is in the closed state, the movable engagement hook 54B2 is arranged adjacent to the rear side of the fixed engagement hook 52B, and the movable engagement hook 54B2 and the fixed engagement hook 52B are engaged in the front-rear direction. match. Thereby, the closed state of the cap 50 is maintained.

Like the hinge part 54A, the grounding knob part 54C is formed into a substantially rectangular plate shape with the width direction being the left-right direction and the longitudinal direction being the up-down direction, and extends downward from the outer peripheral part of the lower end of the cap body 54B. . The width of the grounding knob 54C is set to be approximately the same as the width of the hinge 54A. When the cap 50 is in the closed state, the grounding knob 54C projects upward from the cap body 54B. This allows the operator to grasp the grounding knob 54C and switch to the cap 50 state.

Further, the extension length L (see FIGS. 2 and 8) of the movable cap portion 54 is longer than the separation distance H (see FIG. 5) between the mounting cylinder portion 52 and the lower end of the frame portion 14 in the vertical direction. It is set. Therefore, when the dust collector 10 is placed on the ground GR during the dust collection operation of the dust collector 10, the grounding knob 54C of the movable cap part 54 comes into contact with the ground GR, and the cap 50 is grounded on the ground GR. (See Figure 2). That is, the cap 50 is configured to function as a grounding member that is grounded to the ground GR.

(About hose 60)
As shown in FIG. 2, the hose 60 is formed into a substantially cylindrical shape with an axial direction extending in the front-rear direction. One end of the hose 60 is connected to a cutting machine such as a circular saw (not shown). On the other hand, the other end of the hose 60 is inserted from the front side into the mounting cylinder part 52 of the open cap 50 and connected to the cap 50. As a result, the airflow AR generated by the rotation of the fan 38 sucks dust generated during cutting into the volute chamber 12C from the intake pipe 12F, and discharges it from the exhaust port 12G1 to the dust bag 70. There is.

(effect)
During dust collection work using the dust collector 1 configured as described above, the cap main body 54B is removed from the mounting tube portion 52, and the cap 50 is placed in an open state. Further, one end of the hose 60 is attached to a cutting machine such as a circular saw, and the other end of the hose 60 is attached to the mounting cylinder portion 52 of the cap 50. Furthermore, a dust bag 70 is attached to the exhaust pipe 12G.

Then, when the operator operates the operation panel 18, the motor 30 is driven, and the fan 38 rotates around the drive shaft 30A in one direction in the rotational direction. Thereby, the airflow AR flows into the volute chamber 12C from the intake port 12F1 of the intake pipe 12F. The airflow AR flowing into the volute chamber 12C flows in the circumferential direction of the fan 38 due to the rotation of the fan 38, flows into the exhaust pipe 12G, and is blown into the dust bag 70 from the exhaust port 12G1 of the exhaust pipe 12G. . Thereby, dust generated during cutting and the like can be collected in the dust bag 70.

Here, in the dust collector 10, the motor 30 and the fan 38 are housed in the housing 12, the battery 22 is attached to the battery attachment part 12L of the housing 12, and the battery 22 supplies electric power to the motor 30. The battery 22 is disposed below the motor 30, and is disposed at a position where its range in the vertical direction overlaps with the housing 12. Specifically, the upper part of the battery 22 is disposed within the lower stepped part 12J formed at the rear part of the housing 12, and the upper part of the battery 22 and the fan housing part 12A of the housing 12 overlap when viewed from the front. For this reason, the size of the dust collector 10 is reduced compared to a configuration in which the battery 22 is arranged at a position offset downward so that the entire arrangement range of the battery 22 in the vertical direction does not overlap with the housing 12. be able to.

Further, the battery 22 is attached to the battery attachment portion 12L of the housing 12 from the rear side. Further, the exhaust pipe 12G of the housing 12 extends to the left from the upper end of the fan housing portion 12A, the exhaust port 12G1 of the exhaust pipe 12G is opened to the left, and the dust bag 70 is attached to the exhaust pipe 12G. As a result, the dust bag 70 is placed on the left side of the housing 12, and the battery 22 is attached to the housing 12 from the rear side. As a result, it is possible to prevent the battery 22 from interfering with the dust bag 70, for example, when the battery 22 is attached or detached. Therefore, the dust bag 70 can be placed at a position that does not affect the operation of attaching and detaching the battery 22.

Further, the housing 12 is provided with a handle 16 above the motor 30, and the range of the handle 16 in the vertical direction is arranged at a position overlapping with the housing 12. Specifically, the handle 16 is disposed within the upper stepped portion 12H of the housing 12, and the upper end of the fan housing portion 12A overlaps with the handle 16 when viewed from the front. Therefore, compared to a configuration in which the handle 16 is arranged at a position offset upward so that the entire arrangement range of the handle 16 in the vertical direction does not overlap with the housing 12, the size of the dust collector 10 is further reduced. be able to. In other words, the size of the dust collector 10 can be reduced compared to a case where the upper stepped portion 12H is omitted from the housing 12 and the entire handle 16 is configured to protrude above the housing 12.

Further, the handle 16 is arranged at a position overlapping the battery 22 and the motor 30 in plan view. That is, in the dust collector 10, the comparatively heavy battery 22 and motor 30 are arranged below the handle 16. This allows the dust collector 10 to be well balanced when the handle 16 is gripped and the dust collector 10 is lifted. Thereby, the transportability of the dust collector 10 can be improved.

The handle 16 also includes a pair of left and right handle connecting parts 16A extending upward from the motor housing part 12B, and a gripping part 16B extending in the left and right direction and connected to the pair of handle connecting parts 16A. It is configured. That is, the extending direction of the grip portion 16B held by the operator and the direction of attachment and detachment of the battery 22 are perpendicular to each other in plan view. As a result, the direction of the operating force input to the housing 12 when attaching or detaching the battery 22 and the extending direction of the grip portion 16B are orthogonal in plan view. Therefore, for example, when an operator holds the grip part 16B with one hand and attaches or detaches the battery 22 with the other hand, the operator can attach or remove the battery 22 while properly supporting the grip part 16B. I can do it. Therefore, work efficiency when attaching and detaching the battery 22 can be improved.

Further, the entire arrangement range of the motor 30 in the left-right direction is arranged at a position overlapping with the grip portion 16B of the handle 16. That is, the motor 30 is arranged directly below the grip part 16B that is gripped by the operator. Therefore, it is possible to maintain better balance when lifting the dust collector 10 by gripping the handle 16. Thereby, the transportability of the dust collector 10 can be further improved.

Further, the entire arrangement range of the battery 22 in the left-right direction is arranged at a position overlapping with the grip portion 16B of the handle 16. That is, the battery 22 is placed directly below the grip portion 16B that is gripped by the operator. Therefore, it is possible to maintain better balance when lifting the dust collector 10 by gripping the handle 16. Thereby, the transportability of the dust collector 10 can be further improved.

Further, a controller 36 for controlling the motor 30 is housed in the motor housing portion 12B of the housing 12, and the controller 36 is arranged on the right side of the motor 30. Thereby, the controller 36 can be housed in the housing 12 while suppressing the increase in size of the housing 12 in the vertical direction.

Further, a frame portion 14 constituting a lower end portion of the dust collector 10 is provided on the lower side of the housing 12, and the frame portion 14 surrounds the battery 22 from the front side and from both sides in the left and right direction. Thereby, it is possible to protect the battery 22 and ensure attachment and detachment of the battery 22 to the housing 12 by utilizing the frame portion 14 placed on the ground GR.

In this embodiment, the handle 16 extends in the left-right direction, but the handle 16 may extend in the front-rear direction and be disposed within the upper stepped portion 12H of the housing 12.

Further, in this embodiment, the controller 36 is placed on the right side of the motor 30, but the controller 36 may be placed on the left side of the motor 30.

Further, in the present embodiment, the mounting cylinder part 52 and the movable cap part 54 are integrally formed in the cap 50, but as shown in FIG. The cap 50 may be integrated by forming them separately and connecting them to each other. In this case, for example, the mounting cylinder portion 52 may be formed of conductive resin (resin material mixed with filler such as carbon), and the movable cap portion 54 may be formed of conductive rubber. Thereby, for example, the rigidity of the mounting cylinder portion 52 attached to the housing 12 can be increased.

Further, the inner circumferential surface of the hose 60 of this embodiment may be made of a conductive material. Thereby, for example, when the hose 60 attached to the mounting cylinder part 52 of the cap 50 collects dust that has fallen onto the ground GR, the end of the hose 60 comes into contact with the ground GR, so that the hose 60 Charged static electricity can be discharged.

1 Dust collector (work equipment)
10 Dust collector (main unit)
12 Housing 12F Intake pipe (intake part)
12F1 Intake port 12G1 Exhaust port 14 Frame portion 16 Handle 16A Handle connection portion 16B Grip portion 22 Battery (power source)
30 Motor (drive part)
36 Controller 38 Fan 54C Ground knob part (ground part)
70 Dust bag (dust collection section)

Claims (10)

a main body having an intake port and an exhaust port;
a dust collecting part attached to the main body part, into which the air flow exhausted from the exhaust port flows;
Equipped with
The main body portion is
A drive unit;
a fan that is operated by the driving force of the drive unit and generates the airflow from the intake port toward the exhaust port;
a housing that accommodates the drive unit and the fan and has the intake port and the exhaust port;
a power supply unit that is attached to the housing, is located below the drive unit and at a position where an arrangement range in the vertical direction overlaps with the housing, and supplies power to the drive unit;
A work machine consisting of: A direction perpendicular to the up-down direction is a first direction, a direction orthogonal to the up-down direction and the first direction is a second direction,
The power supply section is attached to the housing from one side in the first direction,
2. The housing is formed with an exhaust section extending from an outer circumference toward one side in the second direction and having the exhaust port at a tip, and the dust collecting section is attached to the exhaust section. Work equipment described in. 3. The working machine according to claim 2, wherein the housing is provided with a handle above the drive part, and the handle is arranged at a position where an arrangement range in the vertical direction overlaps with the housing. The working machine according to claim 3, wherein the handle is arranged at a position overlapping the power supply section and the drive section when viewed from above. The handle is
a pair of handle connecting parts extending upward from the housing;
a grip part extending in the second direction and having both longitudinal ends connected to the handle connecting part;
The work machine according to claim 4, wherein the work machine includes: The work machine according to claim 5, wherein the entire arrangement range of the drive section in the second direction is arranged at a position overlapping the grip section. The working machine according to claim 5, wherein the entire arrangement range of the power supply section in the second direction is arranged at a position overlapping with the grip section. The working machine according to claim 2, wherein the housing accommodates a controller that controls the drive section, and the controller is disposed on one side or the other side of the drive section in the second direction. A frame portion constituting a lower end portion of the main body portion is provided on the lower side of the housing, and the frame portion surrounds the power source portion from the other side in the first direction and both sides in the second direction. The working machine according to any one of claims 2 to 8. The housing includes a drive part housing part that houses the drive part, and a fan housing part that houses the fan,
The working machine according to claim 1, wherein the power supply section has an arrangement range in a vertical direction that overlaps with the fan housing section.

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