JP2014036750A - Cleaner - Google Patents

Abstract

PROBLEM TO BE SOLVED: To reduce an operation load when rocking rotatively a cleaner body by a user, and to prevent damage of a battery when dropping erroneously the cleaner body, in addition thereto or independently.SOLUTION: A cleaner for sucking refuse to the inside of a housing 11 includes: a motor 12 for generating sucking action in the housing 11; a handle provided in the housing 11, and having a gripping part H1 to be able to be gripped by an operator; a cylinder-shaped body 111 provided in the housing 11, for forming a refuse intake port; and a battery 20 for supplying power to the motor 12. The cleaner has a constitution in which the gripping part H1, the battery 20 and the motor 12 are arranged on each position on the axis line of the cylinder-shaped body 111.

Description

  The present invention relates to a cleaner used for cleaning a living room or the like. In particular, the present invention relates to a small hand-held cleaner called a handy cleaner.

  Conventionally, handy cleaners used for cleaning living rooms and the like are widely known. The handy cleaner is used by a user holding a cleaner body for storing dust (dust). The cleaner main body is formed of a housing, and a motor is provided in the housing to rotate the fan to generate a suction action so that dust can be taken into the dust storage part of the housing from the dust inlet of the cylindrical body. The battery includes a battery for supplying electric power to the motor. The battery is attached to the housing as a rechargeable and detachable configuration.

JP 2003-223998 A JP-A-8-336486

By the way, the battery provided in the handy cleaner is relatively heavy. Also, the motor driven by the battery is relatively heavy. And since the handy cleaner is small, it is used to clean various places. In some cases, the housing of the cleaner main body held by hand may be used by swinging and rotating by hand. During this swinging rotation, a relatively heavy battery or motor may become an operation load and may be difficult to operate.
In addition, when the battery is installed outside the housing and the handy cleaner is accidentally dropped on the floor surface during cleaning, the battery directly collides with the floor surface, and the impact damages the battery. There was also a concern.

  The present invention has been devised in view of the above, and the problem to be solved by the present invention is to reduce the operation load when the user swings and rotates the cleaner body. Further, in addition to this, or alone, the possibility of damaging the battery when the cleaner body is accidentally dropped is reduced.

For this reason, the present invention has the following configuration.
A first invention is a cleaner for sucking dust into a housing, and includes a motor for generating a suction action in the housing, and a grip portion provided in the housing and gripped by an operator. A handle, a cylindrical body that is provided in the housing and forms a dust inlet, and a battery for supplying electric power to the motor, and the gripping portion is positioned on an axis of the cylindrical body. A battery and a motor are arranged.

  According to the first aspect of the present invention, a heavy object such as a battery and a motor exists at a position on the axis of the cylindrical body, and a grip portion exists at a position on the axis of the cylindrical body. For this reason, when the user operates the cleaner by holding the grip portion, the battery, the motor, and the cylindrical body can be positioned on the extension of the user's forearm. Therefore, when the user swings and rotates the cleaner, there is a battery and a motor on the axis of the swing rotation, and the operation load on the user can be reduced.

  According to a second aspect, in the first aspect, the center of gravity of the battery and the center of gravity of the motor are positioned on the extension of the cylindrical body.

  According to the second aspect of the invention, the center of gravity of each heavy object such as a battery and a motor exists at a position on the extension of the cylindrical body. For this reason, when the user operates the cleaner by grasping the grip portion, the center of gravity of the battery and the motor can be positioned on the extension of the user's forearm. Therefore, it is possible to more effectively reduce the operation load when the user swings and rotates the cleaner.

  A third invention is characterized in that, in the first or second invention, the center of gravity of the entire cleaner body is a position on the extension of the cylindrical body.

  According to the third aspect of the present invention, the center of gravity of the entire cleaner body exists at a position on the axis of the cylindrical body. For this reason, when the user operates the cleaner by grasping the grip portion, the center of gravity of the entire cleaner can be positioned on the extension of the user's forearm. Therefore, it is possible to more effectively reduce the operation load when the user swings and rotates the cleaner.

  According to a fourth aspect of the present invention, in any one of the first to third aspects, the housing is formed with an annular forming member, a part of which is a handle, and the annular forming member is a region in the housing. An annular space that defines a part of the battery is formed, and the battery is disposed in the space.

  According to the fourth aspect, the battery is disposed in the space formed between the annular forming member and the housing. For this reason, even if the cleaner is accidentally dropped, the risk of the battery directly colliding with the floor surface can be reduced due to the presence of the annular forming member.

  According to a fifth invention, in any one of the first to third inventions, the first columnar component and the second columnar component have a space in the housing in the axial direction of the cylindrical body. The battery is arranged in a space between the first columnar component and the second columnar component.

  According to the fifth aspect of the invention, the battery is disposed in the spaced space between the first and second columnar components. For this reason, even when the cleaner is accidentally dropped, the risk of the battery directly colliding with the floor surface can be reduced due to the presence of the first or second columnar component.

  According to a sixth invention, in any one of the first to third inventions, a columnar component is formed in the housing toward the axial direction of the cylindrical body, and the switch of the motor is the columnar component. The battery is attached to the housing adjacent to the columnar component.

  According to the sixth aspect, since the switch and the battery are adjacent to each other, the electrical wiring can be shortened.

  The seventh invention is a cleaner for sucking dust into the housing, and has a motor for generating a suction action in the housing, and a grip portion provided in the housing and gripped by an operator. A handle and a battery for supplying electric power to the motor. The housing is formed with an annular forming member, a part of which is a handle, and the housing has the annular forming member. An annular space that defines a part of the region is formed, and the battery is disposed in the space.

  According to the seventh aspect, the battery is disposed in the space formed between the annular forming member and the housing. For this reason, even if the cleaner is accidentally dropped, the risk of the battery directly colliding with the floor surface can be reduced due to the presence of the annular forming member.

  According to an eighth aspect of the present invention, there is provided a cleaner for sucking dust into the housing, a motor for generating a suction action in a dust suction path formed in the housing, and a dust inlet provided in the housing. And a battery for supplying electric power to the motor, and the housing has a first columnar configuration portion and a second columnar configuration in the axial direction of the cylindrical body. The part is formed to have a separation space, and the battery is arranged in a separation space between the first columnar component part and the second columnar component part.

  According to the eighth aspect of the invention, the battery is disposed in the space between the first and second columnar components. For this reason, even when the cleaner is accidentally dropped, the risk of the battery directly colliding with the floor surface can be reduced due to the presence of the first or second columnar component.

  According to a ninth aspect of the present invention, there is provided a cleaner for sucking dust into the housing, a motor for generating a suction action in the housing, a cylindrical body provided in the housing and forming a dust inlet, A battery for supplying electric power to the motor, and the housing has a columnar component portion formed in the axial direction of the cylindrical body, and the switch of the motor is connected to the columnar component portion. The battery is attached to the housing adjacent to the columnar component.

  According to the ninth aspect, since the switch and the battery are adjacent to each other, the electrical wiring can be shortened.

  According to a tenth aspect of the present invention, there is provided a cleaner capable of sucking dust into a housing, a motor for generating a suction action, a handle having a gripping portion that can be gripped by an operator, and supplying electric power to the motor. And the grip portion, the battery, and the motor are arranged in the same straight line.

  According to the tenth aspect, the grip portion, the battery, and the motor are arranged on the same straight line. For this reason, when the user operates the cleaner while holding the grip portion, the battery and the motor can be positioned on the extension of the user's forearm. Therefore, when the user swings and rotates the cleaner, there is a battery and a motor on the axis of the swing rotation, and the operation load on the user can be reduced.

  According to the present invention, the above-described means can reduce the operation load when the user swings and rotates the cleaner body. In addition to this or alone, the possibility of damage to the battery when the cleaner body is accidentally dropped can be reduced.

It is a perspective view which shows the whole handy cleaner of 1st Embodiment. It is a whole sectional view showing the cleaner main part of a 1st embodiment. It is whole sectional drawing which shows the cleaner main body of 2nd Embodiment. It is AA sectional drawing of FIG. It is the 1st modification in the AA sectional view of Drawing 2. It is the 2nd modification in AA sectional drawing of FIG.

Hereinafter, a handy cleaner according to an embodiment of the present invention will be described with reference to the drawings. In the present invention, the dust inlet side of the handy cleaner housing is defined as the front direction. Further, the vertical and horizontal directions are determined from the dust inlet side as viewed from the housing center direction (rear direction).
The handy cleaner is a small and lightweight rechargeable vacuum cleaner that a user can use with one hand, for example, when cleaning the interior of a car or simply cleaning a small room.

First, the first embodiment will be described. The first embodiment is shown in FIGS. 1, 2 and 4. The entire handy cleaner 100 is shown in FIG. The handy cleaner 100 is roughly divided into a cleaner body 1 that is held by one hand when a user cleans, a wide area plane nozzle 22 that serves as a mouth for sucking up dust, and the cleaner body 1 and the wide area plane nozzle 22. It consists of a straight pipe 21 to be connected. And when using it, the grip part mentioned later of the cleaner main body 1 is operated with one hand, the nozzle 22 for wide area planes is brought to a position with dust, and dust is sucked up. The battery 20 of the present embodiment is configured to be detachably attached to the outside of the housing 11 that forms the cleaner body 1. Moreover, although the cleaner main body 1, the straight pipe 21, and the wide area plane nozzle 22 are configured as a structure arranged in a straight line, the wide area plane nozzle 22 is configured as follows. That is, the wide area plane nozzle 22 has a structure in which a bent pipe 221 and a substantially rectangular parallelepiped suction portion 222 are rotatably connected.
Here, the structure for making it the structure which connected the bending pipe | tube 221 and the substantially rectangular parallelepiped suction part 222 rotatably is demonstrated.
In order to obtain the structure, a spherical body having a diameter larger than the diameter of the bent pipe 221 is provided at the distal end of the bent pipe 221. Moreover, the suction part 222 is provided with a recess in each of the half-suctioned part 222. The spherical tube provided in the bent tube 221 is sandwiched so as to be accommodated in a recess provided in the suction portion 222, whereby the bent tube 221 and the substantially rectangular parallelepiped suction portion 222 are rotatably connected.
Therefore, when the cleaner body 1 and the straight pipe 21 are swung and rotated in use, the spherical body is displaced with the bent portion of the bent tube 221 as a fulcrum, and the direction of the suction portion 222 of the wide area plane nozzle 22 can be changed. It has become.

The detailed structure of the cleaner body 1 of the first embodiment is shown in FIGS.
The cleaner body 1 has an outer frame formed by a housing 11 constituted by a rear housing 112 and a dust cup 111.
The rear housing 112 is integrally formed by fastening a right housing 112R and a left housing 112L made of resin by a fastening member 113.
A screw is used as the fastening member 113, and the right housing 112R and the left housing 112L are fixed so as not to be separated by using a plurality of the screws.
In the present invention, the rear housing 112 can be divided into a grip housing 112a and a motor housing 112b depending on the function.
The grip housing 112a is a part of the rear housing 112 that constitutes a handle H that can be gripped by the user. The grip housing 112a can be arranged with electrical components such as electrical wiring inside.
The motor housing 112b is a portion of the rear housing 112 excluding the grip housing 112a. The motor housing 112b houses therein an electric motor 12 that is driven by the battery 20 as a power source, a fan 13 that is rotated by the electric motor 12, and the like.
A dust cup 111a is formed at the front end of the dust cup 111, and is formed into a bell shape by integral molding of resin. The dust cup 111 can be detachably attached to the motor housing 112b.
As described above, the battery 20 as a power source is detachably attached to the outside of the housing 11 constituting the cleaner body 1 and can be reused by being removed from the cleaner body 1 and being charged. ing. The cleaner body 1 is configured such that an electric motor 12 that is driven by using a battery 20 as a power source and a suction mechanism that mainly includes a fan 13 that is rotated by the electric motor 12 are built in the housing 11.
The dust sucked by the suction mechanism in the cleaner body 1 is captured by the filtration filter 14 which is a dust collection mechanism. Since the filtration filter is connected to the outside of the rear housing 112, dust or the like is less likely to enter the rear housing 112. Further, the filtration filter is surrounded by a dust cup 111, and captured dust or the like is retained between the dust cup 111 and the filtration filter 14. The cleaner body 1 can be separated into two parts by removing the dust cup 111, and the captured dust or the like can be discharged to the outside of the cleaner body 1.

A first columnar component 151 and a second columnar component 152 of the annular forming member 15 are formed rearward from above and below the battery mounting portion 18 provided in the housing 11. This direction is the same as the axial direction of the cylindrical body of the dust inlet 111a formed at the tip of the dust cup 111. The end portions of the first columnar component 151 and the second columnar component 152 are integrally connected by the third columnar component 153 of the annular forming member 15. As a result, an annular space portion is formed by the annular forming member 15 including the portion of the rear housing 112 where the annular forming member 15 is provided, and the first columnar component portion 151, the second columnar component portion 152, and the third columnar component portion 153. S1 is formed.
In this configuration, the first columnar component and the third columnar component are the grip housing 112a, and the other rear housing 112 is the motor housing 112b.
The annular forming member 15 includes a handle H and an exhaust pipe E. The handle H is configured by a first columnar component 151 and a third columnar component 153, and the exhaust pipe E is configured by a second columnar component 152. The positions of the annular space S1 formed by the annular forming member 15, the handle H, and the exhaust pipe E are opposite to the dust inlet 111a of the cylindrical body formed at the tip of the dust cup 111. This is the rear position of the housing 11.

On the inner peripheral side of the first columnar component part 151 and the third columnar component part 153 constituting the handle H, one switch lever 16 that is pulled by the user with a fingertip is provided. The handle H has a first holding portion H1 configured at the third columnar component 153. In addition, the second gripping portion H2 is configured and set in the first columnar component 151. Each of the first gripping part H1 and the second gripping part H2 has a structure that allows the user to grip it with one hand. The switch lever 16 is provided adjacent to both the first grip portion H1 and the second grip portion H2. Therefore, the user can pull the switch lever 16 with a hand holding the handle H regardless of whether the user holds the first holding part H1 or the second holding part H2. Accordingly, when the first gripping portion H1 is gripped, the switch lever 16 can be operated with the index finger, and when the second gripping portion H2 is gripped, the switch is made with the little finger or the ring finger. The lever 16 can be operated. When this switch lever 16 is pulled, the electric power is supplied from the battery 20 to the electric motor 12, and the electric motor 12 is activated, so that dust or the like can be sucked from the dust intake 111a.
In addition, the connection structure of the 3rd columnar structure site | part 153 and the 1st columnar structure site | part 151 is T-shaped coupling | bonding. That is, the rear end portion of the first columnar component 151 is slightly protruded rearward from the position where the third columnar component 153 is disposed. With this configuration, when the third columnar component 153 is gripped, the hand gripped by the protruding portion is always positioned, so that the user can easily grip it.
Further, the third columnar component 153 is inclined such that the coupling end side with the first columnar component 151 is relatively on the dust inlet 111a side as compared with the coupling end side with the second columnar component 152. Is formed. That is, the third columnar component 153 is formed such that the upper side is inclined forward. Thereby, it becomes easy to hold | grip so that the longitudinal direction of the forearm to hold | grip may become the same direction as the axial direction of the cylindrical body of the dust inlet 111a.
The shape of the third columnar component 153 is such that the center of the palm when the third columnar component 153 is gripped is an extension of the cylindrical body of the dust inlet 111a. For this reason, it is easy to perform rocking rotation about the axis of the cylindrical body of the dust inlet 111a as the central axis.
Further, the size of the grip portion on the coupling end side of the third columnar component portion 153 and the second columnar component portion 152 is smaller than the size of the grip portion at the center position of the third columnar component portion 153. It is formed so that it is easy to grip.

In the present embodiment, the second gripping part H2 is set and configured separately from the first gripping part H1. For this reason, use the first gripping part H1 when cleaning places where there are no obstacles around, and the second gripping part H2 when cleaning places where there are obstacles around, such as under the desk. It is possible to change the way of holding depending on the environment. In addition, since one part of the 1st holding part H1 and the 2nd holding part H2 is covered with the elastomer resin, the grip comfort is also favorable.
In addition, a hanging strap (not shown) is attached to an appropriate position of the annular forming member 15 so as to be convenient when the handy cleaner is suspended and stored. The first columnar component 151 of the annular forming member 15 is provided with a lighting device 19 that is convenient for cleaning in a dark place. The illuminating device 19 is incorporated in a state where it does not protrude from a portion of the first columnar component 151 on the dust inlet 111a side where there is no obstacle ahead. The illumination tool 19 mainly brightly illuminates the vicinity of the dust intake 111a. An LED (light emitting diode) is used as the light source of the illuminator 19, but an incandescent bulb or a fluorescent lamp may be used instead of the LED. The battery 20 is also used as a power source for the lighting device 19.

The annular forming member 15 is provided with an exhaust pipe E together with a handle H. The exhaust pipe E is provided in the second columnar component 152. A louver 152 a is provided at the end of the exhaust pipe E. The louver 152a can change the traveling direction of the exhaust discharged from the cleaner body 1. Therefore, even if the user's body is located on the longitudinal extension of the cleaner body 1, it is possible to prevent the exhaust from hitting the user by changing the traveling direction of the exhaust with the louver 152a. Yes.
The end portion of the exhaust pipe E provided with the louver 152a is located on the left side as viewed in FIG. 2, and the cylindrical body of the dust inlet 111a attached to the tip of the housing 11 is the axial direction of the cylindrical body. It is in a symmetrical position across the housing 11 as viewed. And since the advancing direction of the suction | inhalation flow in the dust inlet 111a and the exhaust flow in the edge part of the exhaust pipe E is the same direction, the pressure loss of the gas which passes the inside of the cleaner main body 1 can be reduced.

The battery 20 is disposed in an annular space S <b> 1 formed in the housing 11 and is detachably attached to the outside of the housing 11. Specifically, a battery mounting portion 18 is provided on the outer surface portion of the housing 11 forming the annular space S1, and the battery 20 is detachably mounted on the battery mounting portion 18. The battery 20 is attached to and detached from the battery attachment portion 18 by sliding in a specific direction. This attaching / detaching direction is a space opening direction of the annular space S1 and a direction perpendicular to the axial direction of the cylindrical body of the dust intake port 111a. In addition, the attachment direction to the battery attachment part 18 of the battery 20 and the removal direction are reverse directions. For this reason, the battery 20 is attached to and detached from the battery mounting portion 18 from one opening side of the annular space S1.
A positive terminal 23 a and a negative terminal 23 a are formed on the battery mounting portion 18 so as to protrude rearward. The positive terminal 23a and the negative terminal 23a are formed long in the left-right direction.
In addition, a positive terminal 23 b and a negative terminal 23 b are provided in the battery 20 as terminals corresponding to the terminal 23 a of the battery mounting portion 18.
The battery 20 and the battery mounting portion 18 are provided with an engagement recess or an engagement projection that can be engaged with each other. The engaging concave portion and the engaging convex portion are configured such that the battery 20 can be slidably mounted on the battery mounting portion 18.
The battery 20 is fixed to the battery mounting portion 18 by sliding the battery 20 from the right direction with respect to the battery mounting portion 18. For this reason, it is not necessary to make the annular forming member 15 into a complicated shape. That is, when the battery 20 is fixed to the battery mounting portion 18 by sliding from the vertical direction or the front-rear direction, the shape becomes complicated. However, by adopting a configuration in which the battery 20 is fixed by sliding in the left-right direction, there is no need to adopt the complicated shape.
The battery 20 is disposed below in the annular space S1. That is, the battery 20 is separated from the first columnar component 151. Further, the battery 20 is close to the second columnar component 152. For this reason, the 2nd holding | grip part H2 provided in the 1st columnar structure site | part 151 is securable favorably.

The circuit board 17 is disposed adjacently so as to face the battery mounting portion 18, and the circuit board 17 is disposed adjacently forward so as to face the surface on which the terminals of the electric motor 12 are disposed.
As shown in FIG. 2, the dust inlet 111a, the filtration filter 14, the fan 13, the electric motor 12, the circuit board 17, the battery 20, and the first gripping portion H1 are arranged on substantially the same straight line.
In particular, the battery 20 and the electric motor 12 have a high weight ratio in the configuration of the cleaner body 1, but the first gripping portion H1, the battery 20 and the electric motor 12 are on the same straight line, so that the first gripping portion is used during use. The user's operation burden is reduced when the swing rotation operation is performed about the straight line while holding the portion H1. This is because the force required for the swinging / rotating operation is approximately proportional to the distance between the center of gravity of the object to be rotated and the rotation axis, but if there is an object to be rotated on the rotation axis, the position of the center of gravity of the object to be rotated and the rotation axis This is because the distance required for the rotation operation can be shortened and the force required for the rotation operation can be reduced.
In particular, since the cleaner is often operated to swing and rotate around the cylindrical body of the dust inlet 111a, the first gripping portion H1 and the battery 20 are located at positions on the axis of the cylindrical body forming the dust inlet 111a. And the electric motor 12 is preferably located.

In FIG. 2, the center of gravity position of the battery 20 in the attached state is indicated by G1, the center of gravity of the electric motor 12 is indicated by G2, and the center of gravity of the entire cleaner body 1 is indicated by G0. A part of the boundary of the region extending in the axial direction of the cylindrical body of the dust inlet 111a is indicated by a broken line T. The cleaner according to the present embodiment is such that the center of gravity position G1 of the battery 20, the center of gravity position G2 of the electric motor 12, and the center of gravity position G0 of the entire cleaner body 1 are all located in the region extending in the axial direction of the cylindrical body. The main body 1 is configured. In addition, the area | region extended in the axial direction of the said cylindrical body in the above is the largest area among perpendicular | vertical cross-sectional areas with respect to the axial direction of the dust inlet 111a regarding the internal peripheral surface of the cylindrical shape part among the dust inlet 111a. This means a region formed when the portion having is extended in the axial direction of the dust inlet 111a.
With the above-described configuration of the center of gravity position, the center of gravity position is on the extension of the cylindrical body of the dust intake port 111a both when the battery 20 is attached and when the battery 20 is removed. When the battery 20 is removed, the dust intake 111a is often held downward, but in this way, the center of gravity moves in a substantially vertical direction when the battery 20 is attached and removed. Therefore, it is possible to keep the variation in the center of gravity due to the presence or absence of the battery 20 within a range that the user does not care about.
In the present embodiment, the center of gravity G0 of the cleaner body 1 as a whole when the battery 20 is mounted is on the axis of the electric motor 12, and is substantially the same as the position where the circuit board 17 disposed between the battery 20 and the electric motor 12 is disposed. Match.

The battery 20 is a rechargeable lithium ion battery having a voltage of 14.4 V, and can be repeatedly used by charging with a separately prepared charger.
Generally, a lithium ion battery is lighter than a nickel metal hydride battery. For example, a nickel metal hydride battery commonly distributed in the market, which has a voltage of 14.4 V and a nominal capacity of 3.3 Ah, weighs 1020 g, but also has a voltage of 14.4 V and a nominal capacity of 3.0 Ah The ion battery weighs about 500 g and is reduced to about 1/2. Therefore, it is possible to reduce the weight of the handy cleaner as a whole by using a lithium ion battery as a power source.

According to the handy cleaner of the first embodiment configured as described above, the following operational effects can be obtained.
First, the handy cleaner according to the above embodiment includes the first gripping portion H1 configured in the third columnar component portion 153 of the annular forming member 15, the battery 20 disposed in the annular space S1, and the housing 11. The electric motor 12 to be equipped is arranged in a straight line. These are arranged on the axis of the cylindrical body of the dust inlet 111 a attached to the tip of the housing 11. For this reason, it is possible to reduce the operation load when using the cleaner body 1 while swinging and rotating.
In particular, in the present embodiment, the center of gravity position G1 of the battery 20, the center of gravity position G2 of the electric motor, and the center of gravity position G0 of the entire cleaner body 1 are within the region on the extension line of the cylindrical body of the dust inlet 111a. Therefore, the operation load can be further reduced. Furthermore, if the respective gravity center positions G1, G2, G0 are arranged on the central axis of the cylindrical body of the dust intake port 111a, the operation load can be reduced most.
Next, in the above embodiment, the battery 20 is configured to be disposed in the annular space S <b> 1 formed by the annular forming member 15 and a part of the outer surface of the housing 11. For this reason, even if the cleaner body 1 is accidentally dropped during use, the battery 20 can be prevented from directly hitting the floor surface and protected. That is, since the battery 20 falls in a state protected by the annular forming member 15, the possibility that the battery 20 is damaged is reduced.
Furthermore, according to the above embodiment, the battery 20 can be slid and attached to and removed from the battery attachment portion 18 provided in the vicinity of the handle H.
Further, the battery 20 according to the above embodiment is arranged so that the battery 20 is mounted on a part of the outer surface portion of the housing 11 of the handy cleaner, unlike the main body built-in type in which the conventional battery is incorporated in the cleaner main body. It is a cartridge type. For this reason, it is not necessary to open and close the lid or the like when attaching or detaching the battery 20, and in this respect, the usability (operability) of the handy cleaner can be improved with respect to the attachment and detachment operations of the battery 20.
Furthermore, since the above embodiment is not a built-in type in which the battery 20 is accommodated in the housing 11 but a cartridge type that is attached to the cleaner body 1 so as to be exposed, the relationship of the dimensions of the cleaner body 1 to the battery mounting portion 18 is attached. If only these are matched, the battery can be shared with other types of handy cleaners or power tools regardless of their sizes.
Further, the electric motor 12 or the conversion circuit for a wide range of voltages makes it possible to use the battery 20 having different voltages such as 12V, 14.4V, or 18V.

Next, a second embodiment will be described.
The cleaner body 3 of the handy cleaner according to the second embodiment is shown in FIG. FIG. 3 is shown in comparison with FIG. 2 showing the first embodiment described above. In the configuration of the second embodiment, a different configuration from the first embodiment is a configuration regarding the switch. Since the other configuration is substantially the same, the same reference numerals as those in the first embodiment are used, and detailed description thereof is omitted.
As shown in FIG. 3, the switch of the second embodiment is a switch that is turned on by pressing an electronic switch on the switch plate 36 instead of a trigger switch that is turned on by pulling.
The switch plate 36 is disposed adjacent to the lighting device 19 at the base of the first columnar component 151 extending from the housing 11.
An A wiring 24 a is provided as a wiring for connecting the battery mounting portion 18 and the circuit board 17. Further, a B wiring 24 b is provided as a wiring for connecting the circuit board 17 and the electric motor 12. Further, a C wiring 24 c is provided as a wiring for connecting the circuit board 17 and the switch plate 36. In addition, a D wiring 24 d is provided as a wiring for connecting the circuit board 17 and the lighting device 19. Although not described in detail in the first embodiment, the configuration is the same in the first embodiment.
In the second embodiment, as shown in FIG. 3, components that require electrical wiring are concentrated in the central portion of the cleaner body 3. As a result, the electrical wiring concentrates on a quarter length region at the center of the gripping portion when the length of the cleaner body 3 is divided into four equal parts, so that the length of the wiring required for the cleaner body 3 is increased. It is possible to shorten the length.
Also in the second embodiment, substantially the same operational effects as those described in the first embodiment can be obtained.

Next, a modification of the first embodiment will be described.
FIG. 5 shows a first modified example in which the AA sectional view of the first embodiment is modified.
The configuration shown in FIG. 5 is different from the configuration shown in FIG. 4 in the width of the second columnar component 152 in the left-right direction. That is, in the configuration shown in FIG. 4, the width in the left-right direction of the second columnar component 152 is slightly shorter than the width in the left-right direction of the battery 20, but the configuration shown in FIG. , The width of the second columnar component 152 in the left-right direction is longer than the width of the battery 20 in the left-right direction.
As shown in FIG. 5, when the horizontal width of the second columnar component 152 is configured to be longer than the horizontal width of the battery 20, when the cleaner 100 rolls down and falls to the floor In addition, the possibility that the second columnar component 152 contacts the floor is increased. Therefore, it is possible to reduce the possibility that the battery 20 is damaged.
FIG. 6 shows a second modified example in which the AA sectional view of the first embodiment is modified.
The configuration shown in FIG. 6 is different from the configuration shown in FIGS. 4 and 5 in the width of the second columnar component 152 in the left-right direction. That is, in the configuration shown in FIGS. 4 and 5, a part of the battery 20 appears on a plane in contact with the first columnar component 151 and the second columnar component 152, but is shown in FIG. 6. In the configuration, a part of the battery 20 does not appear on a plane in contact with the first columnar component 151 and the second columnar component 152.
As shown in FIG. 6, if a configuration in which a part of the battery 20 does not appear on a plane in contact with the first columnar component part 151 and the second columnar component part 152, the cleaner 100 is tilted on the floor. Even if it falls, the possibility that the first columnar component 151 or the second columnar component 152 contacts the floor more than the battery 20 is further increased, and the possibility of damage to the battery 20 can be further reduced.

As mentioned above, although two embodiment and two modifications of this invention were described, this invention can be implemented with various forms other than the above.
For example, the battery can be structured so that it can be taken in and out from the direction perpendicular to the axial direction of the dust inlet, and can also be structured so that it can be taken in and out from the direction inclined with respect to the axial direction of the dust inlet. It is.
Moreover, in the said embodiment, although the battery is provided in the exterior of a housing, it can also be set as the structure provided in a housing.
Moreover, in the said embodiment, although the dust collection method using a filtration filter is employ | adopted, various dust collection means, such as centrifugation and an electric dust collection, can be employ | adopted, and two or more dust collection methods are employable. It is also possible to use means together.
In the first embodiment, one switch lever is used, but two or more switch levers may be provided. Further, a switch lever and a push button may be used in combination.
In addition, the member extending from the housing may be provided with only the first columnar component and the second columnar component without providing the third columnar component, and the second and third columnar components are provided. Alternatively, a mode in which only the first columnar component is provided is also possible.

1, 3 Cleaner body 11 Housing 12 Electric motor 13 Fan 14 Filtration filter 15 Annular forming member 16 Switch lever 17 Circuit board 18 Battery mounting part 111 Dust cup 111a Dust inlet (cylindrical body)
112 Rear housing 112a Grip housing 112b Motor housing 112R Right housing 112L Left housing 113 Fastening member 151 First columnar component 152 Second columnar component 152a Louver 153 Third columnar component 20 Battery 21 Straight pipe 22 Wide area plane nozzle 23a Terminal (Battery mounting part)
23b terminal (battery)
24a A wiring 24b B wiring 24c C wiring 24d D wiring 36 Switch plate S1 Annular space G1 Center of gravity position G2 Center of gravity G0 of the electric motor Center of gravity T of the entire cleaner body T Extended in the axial direction of the cylindrical body of the dust inlet Region boundary

Claims (10)

A cleaner in which dust is sucked into the housing,
A motor for generating a suction action in the housing;
A handle provided on the housing and having a gripper that can be gripped by an operator;
A cylindrical body provided in the housing and forming a dust inlet;
A battery for supplying electric power to the motor,
The cleaner characterized by the said holding part, the battery, and the motor being arrange | positioned in the position on the axis line of the said cylindrical body. The cleaner according to claim 1,
A cleaner characterized in that the position of the center of gravity of the battery and the position of the center of gravity of the motor are positions on the extension of the cylindrical body. The cleaner according to claim 1 or 2,
A cleaner characterized in that the position of the center of gravity of the entire cleaner body is a position on the extension of the cylindrical body. A cleaner according to any one of claims 1 to 3,
The housing is formed with an annular forming member, a part of which is a handle, and the housing is formed with an annular space in which the annular forming member defines a part of the region. A cleaner arranged in the space. A cleaner according to any one of claims 1 to 3,
In the housing, a first columnar component and a second columnar component are formed with a spacing space in the axial direction of the cylindrical body, and the battery is connected to the first columnar component and the first columnar component. The cleaner characterized by being arrange | positioned in the separation space of 2 columnar structure site | parts. A cleaner according to any one of claims 1 to 3,
A columnar component is formed in the housing in the axial direction of the cylindrical body, the motor switch is disposed in the columnar component, and the battery is adjacent to the columnar component. A cleaner characterized by being attached to a housing. A cleaner in which dust is sucked into the housing,
A motor for generating a suction action in the housing;
A handle provided on the housing and having a gripper that can be gripped by an operator;
A battery for supplying electric power to the motor,
An annular forming member, a part of which is a handle, is formed in the housing, and an annular space portion in which the annular forming member defines a part of the region is formed in the housing,
The said battery is arrange | positioned in the said space part, The cleaner characterized by the above-mentioned. A cleaner in which dust is sucked into the housing,
A motor for generating a suction action in a dust suction path formed in the housing;
A cylindrical body provided in the housing and forming a dust inlet;
A battery for supplying electric power to the motor,
In the housing, a first columnar component and a second columnar component are formed with a spacing space in the axial direction of the cylindrical body, and the battery is connected to the first columnar component and the first columnar component. The cleaner characterized by being arrange | positioned in the separation space of 2 columnar structure site | parts. A cleaner in which dust is sucked into the housing,
A motor for generating a suction action in the housing;
A cylindrical body provided in the housing and forming a dust inlet;
A battery for supplying electric power to the motor,
A columnar component is formed in the housing in the axial direction of the cylindrical body, the motor switch is disposed in the columnar component, and the battery is adjacent to the columnar component. A cleaner characterized by being attached to a housing. A cleaner that can suck dust inside the housing,
A motor for producing a suction action;
A handle having a gripper that can be gripped by an operator;
A battery for supplying electric power to the motor,
The cleaner characterized by the said holding | grip part, a battery, and a motor being arrange | positioned at the same linear form.

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