JP6853586B2 - Dust remover and vacuum cleaner system - Google Patents

Description

The present invention relates to a dust removing device for removing dust in a suction tool of a vacuum cleaner, and an electric vacuum cleaner system provided with the dust removing device.

Conventionally, there is a device that can remove dust entwined with a brush provided in a suction tool of an electric vacuum cleaner. For example, in Patent Document 1 below, a main body, a pedal rotatably installed between the first position and the second position, and a pedal provided on the main body, and always with the pedal. It is provided with a safety protection device that is locked, and when pushed, the pedal is released from the lock and is configured to move the pedal from the first position to the second position. A charging stand for a vacuum cleaner is disclosed.

The vacuum cleaner charging stand disclosed in Patent Document 1 is provided with a blade in the main body and has an opening formed at a position corresponding to the blade of the pedal. The vacuum cleaner charging stand of Patent Document 1 is configured such that when the pedal is in the second position, the blade extends from the opening and cuts the hair wrapped around the rotating brush of the vacuum cleaner mounted on the pedal. Has been done. Further, the vacuum cleaner charging stand of Patent Document 1 is configured such that the blade is located below the opening when the pedal is in the first position.

JP-A-2017-127855

A conventional vacuum cleaner charging stand has a configuration in which a blade is applied to the brush in order to remove dust entwined with the brush. However, there is a problem that such a conventional charging stand for a vacuum cleaner cannot sufficiently clean dust such as hair and lint entwined with the brush.

Therefore, the present invention relates to a dust removing device capable of effectively removing dust that is difficult to clean due to, for example, entanglement, and an electric vacuum cleaner system provided with the dust removing device. The purpose was to provide.

The dust removing device according to the embodiment of the present invention provided to solve the above-mentioned problems is between a mounting portion on which a vacuum cleaner can be mounted and a first end portion and a second end portion facing each other. The cleaning member is provided with a cleaning member that can move along the opposite direction, and an opening provided in the above-mentioned mounting portion and from which at least a part of the cleaning member protrudes.

According to such a configuration, in a state where the vacuum cleaner is mounted on the mounting portion, the cleaning member is moved along the facing direction between the first end portion and the second end portion facing each other. It is possible to provide a dust removing device capable of effectively removing dust adhering to the cleaning body by a cleaning member whose at least a part is exposed from the opening.

Further, the vacuum cleaner system according to the embodiment of the present invention includes a vacuum cleaner having a rotatable cleaning body and the dust removing device according to the embodiment of the present invention, and the cleaning body is provided along the axial direction. It is characterized in that it has a plurality of groove portions extending in the circumferential direction, and the cleaning member moves in any of the plurality of groove portions.

According to such a configuration, the dust adhering to the cleaning body is effectively removed by moving the cleaning member in any of the plurality of grooves provided so as to extend in the axial direction in the circumferential direction of the cleaning body. It is possible to provide an electric vacuum cleaner system that can be removed.

According to the present invention, in the suction tool of an electric vacuum cleaner, a dust removing device capable of effectively removing dust that is difficult to clean due to, for example, entanglement, and an electric vacuum cleaner system provided with the dust removing device. Can be provided.

It is a side view which shows the vacuum cleaner system which concerns on one Embodiment of this invention. (A) is a perspective view showing a state in which a part of the suction tool of the vacuum cleaner is broken, and (b) and (c) are perspective views showing a support structure on one end side and the other end side in the axial direction of the cleaning body. .. It is a perspective view which shows the cleaning body drive mechanism. (A) is a perspective view showing a cleaning body, and (b) is an enlarged view of part A of (a). It is a perspective view which shows the state which the suction tool of the electric vacuum cleaner is arranged in the arrangement part. It is a perspective view which shows the arrangement part. It is a perspective view which shows the dust removal mechanism and the like built in the arrangement part. FIG. 7 is an enlarged view of part B in FIG. It is a perspective view which shows the state which the main part of FIG. 7 was seen from another angle. It is a flowchart which shows the control flow at the time of cleaning a cleaning body. It is explanatory drawing which showed the relationship between the progress of a cleaning member and a cleaning body in order of operation. It is a perspective view which shows the state which the suction tool of the vacuum cleaner is arranged in the arrangement part which concerns on the modification. It is a flowchart which shows the control flow which concerns on the modification | modification at the time of cleaning a cleaning body. It is a bottom view of the suction tool provided with the dust removing mechanism which concerns on a modification.

Hereinafter, the vacuum cleaner system S and the arrangement unit 100 (dust removing device) according to the embodiment of the present invention will be described in detail with reference to the drawings. As shown in FIG. 1, the vacuum cleaner system S includes a vacuum cleaner 10 and an arrangement unit 100.

The vacuum cleaner 10 is a vacuum cleaner having a stick-shaped (vertical) appearance. The vacuum cleaner 10 can be, for example, a vacuum cleaner that obtains electric power from an external power source via a power cord, but in the present embodiment, it is a rechargeable vacuum cleaner. As shown in FIG. 1, the vacuum cleaner 10 includes a main body 20, an extension pipe 30, and a suction tool 40.

The main body 20 is a portion that forms the main body of the vacuum cleaner 10 and exerts a suction force to collect dust. Specifically, the main body 20 includes a suction fan that sucks air into the housing 22 to generate an air flow, a motor that drives the suction fan, and a drive circuit that drives the motor and other electronic components. It is equipped with a rechargeable battery that supplies power to the drive circuit and other components.

Further, the main body portion 20 includes a grip portion 24 and an operation portion 26. The grip portion 24 is a portion provided for the user of the vacuum cleaner 10 to grip the main body portion 20. That is, the vacuum cleaner 10 is configured to be able to hold the main body 20 by, for example, gripping the grip 24. Further, the operation unit 26 is for operating the vacuum cleaner 10. By providing the operation unit 26 in the vicinity of the grip portion 24 as shown in FIG. 1, for example, the operation unit 26 can be provided so that the user can operate while gripping the grip portion 24. The main body 20 has a suction tool connecting portion 28 to which the joint portion 44 of the suction tool 40 is connected. Further, a support column connecting portion 25 is provided on the back side of the main body portion 20. The column connection portion 25 is a portion connected to the support column 116 erected in the arrangement portion 100 described in detail later. The column connection portion 25 is provided with a vacuum cleaner side terminal (not shown) electrically connected to the rechargeable battery inside the main body portion 20. By connecting the support column connection portion 25 to the support column 116, the vacuum cleaner side terminal is connected to the arrangement unit side terminal (not shown) provided on the support column 116 side, and energization is possible.

As shown by breaking a part of FIG. 2, the suction tool 40 includes a head main body 42, a joint portion 44, a cleaning body 46, and a cleaning body driving mechanism 48. The head body 42 is a portion arranged on the floor during cleaning, and has a shape that is longer in the left-right direction with respect to the front-rear direction, which is the direction operated by the user during cleaning. Inside the head body 42, a suction space for sucking air and dust from the outside is formed with the floor surface side as an open end. Further, the joint portion 44 is rotatably attached to the head main body 42 within a predetermined rotation range (front-rear direction and left-right direction). The joint portion 44 is a portion to which the end portion of the extension pipe 30 described above is connected. The joint portion 44 has a tubular shape, and the internal space communicates with the suction space.

As shown in FIGS. 2 and 4, the cleaning body 46 has a cleaning body body 50 extending in the longitudinal direction (left-right direction) of the head body 42, and a mounting portion 52. The cleaning body body 50 is assumed to have a brush mounting portion 56 provided on the outside of the cleaning portion main body 55 formed in a tubular shape, and a groove portion 57 provided between the brush mounting portions 56 and 56 adjacent to each other in the circumferential direction. There is. The brush mounting portion 56 and the groove portion 57 may be provided, for example, substantially linearly in the direction of the cleaning portion main body 55 axis, but in the present embodiment, the cleaning body main body 50 is centered on the axial center position. , The cleaning body body 50 is provided so as to draw a spiral on the outer circumference. The brush mounting portion 56 has a rail shape, and the brush (not shown) can be sandwiched and held in a state of protruding toward the outside of the cleaning body main body 50.

The attachment portion 52 is a portion used for attaching the cleaning body 46 to the head main body 42. The attachment portion 52 is attached to the cleaning body main body 50 as a separate member from the cleaning unit main body 55 on one side and the other side in the longitudinal direction of the cleaning body main body 50, but is integrated with the cleaning unit main body 55. May be good. The cleaning body 46 is rotatably supported with respect to the head body 42 by mounting the mounting portion 52 at a predetermined mounting position provided in the head body 42. Specifically, as shown in FIGS. 2B and 2C, the shafts 56a and 56b on one end side and the other end side in the axial direction of the cleaning body 46 are connected to both sides of the cleaning unit main body 55. The shafts are rotatably supported by the portions, and the ends 56a and 56b are rotatably supported by being fitted into the receiving portions 42a and 42b provided on the head body 42. As will be described in detail later, the cleaning body 46 is connected to the cleaning body driving mechanism 48 on the end portion 56b side, and can freely rotate by receiving power from the cleaning body driving mechanism 48.

Of the mounting portions 52, the mounting portion 52a provided on one side in the longitudinal direction is provided with a plurality of groove portions 54 extending in the axial direction in the circumferential direction. The groove portion 54 may have an appropriate configuration, for example, one that extends substantially linearly in the axial direction, but the cleaning member 122 provided in the arrangement portion 100, which will be described in detail later, is provided around the cleaning body main body 50. It is preferable to make the shape in consideration of making it easy to guide the groove portions 57 formed between the brush mounting portions 56 and 56 arranged in the direction. Based on this finding, for example, the groove portion 54 is tapered or the like as shown in FIG. 4, so that the groove portion 54 becomes wider from the connection position between the mounting portion 52 and the cleaning body main body 50 toward the end portion of the cleaning body 46. It is good to have a shape that becomes. As a result, on the wide side of the end portion of the mounting portion 52a, the portion that hinders the entry of the cleaning member 122 is reduced in the circumferential direction, so that the cleaning member 122 can be easily guided to any of the groove portions 54 arranged in the circumferential direction. Become. Further, the groove portion 54 may be formed so as to be continuous with the groove portion 57 in the gap between the brush mounting portions 56 and 56 arranged in the circumferential direction of the cleaning body main body 50 on the connection side between the mounting portion 52 and the cleaning body main body 50. When the cleaning member 122 is inserted into the groove portion 54 from the end of the cleaning body 46 and the cleaning member 122 is moved in the longitudinal direction of the cleaning body 46, the cleaning member 122 is guided to the groove portion 54 formed in a substantially tapered shape. It reaches the boundary portion with the cleaning body main body 50 and enters the groove portion 57 formed so as to be continuous with the groove portion 54.

The suction tool 40 does not necessarily have to be driven by the cleaning body 46 receiving power, but in the present embodiment, the cleaning body driving mechanism 48 is provided, and the cleaning body 46 is driven by the power output from the cleaning body driving mechanism 48. It is supposed to be driven by receiving. As shown in FIG. 3, the cleaning body drive mechanism 48 includes a drive device 60, a power transmission body 62, an output side pulley 64, a driven side pulley 66, and the like. The drive machine 60 is composed of a motor or the like provided in the head main body 42. Further, the power transmission body 62 is composed of a toothless endless belt. Further, the output side pulley 64 is a toothed pulley attached to the output shaft of the motor forming the drive machine 60. Further, the driven side pulley 66 is a toothed pulley integrally provided on the mounting portion 52b provided on the side opposite to the mounting portion 52a among the pair of mounting portions 52. The cleaning body drive mechanism 48 has a configuration in which a power transmission body 62 composed of an endless belt is hung between an output side pulley 64 and a driven side pulley 66. Therefore, by operating the drive machine 60, the rotational power can be transmitted to the mounting portion 52b side, and the cleaning body 46 can be rotationally driven in the suction space of the head main body 42.

As shown in FIGS. 1 and 5, the arranging unit 100 is for arranging the vacuum cleaner 10. The arranging unit 100 has a function as a dust removing device for removing dust or the like adhering to the cleaning body 46 or the like. Further, although not essential in the vacuum cleaner system S, the arrangement unit 100 also has a function as a charging stand for charging the vacuum cleaner 10. The arrangement unit 100 includes an arrangement unit main body 110, a dust removing mechanism 120 (see FIG. 7), a drive control unit 150 (see FIG. 7), and an operation instruction unit 160 (see FIG. 7).

The shape of the arrangement portion main body 110 is not particularly limited, but in the present embodiment, like the suction tool 40, the arrangement portion main body 110 has a shape longer in the left-right direction (axial direction of the cleaning body 46) than the front-rear direction, and is made of resin or the like. It is formed. As shown in FIGS. 5 and 6, the arrangement portion main body 110 has a placement portion 112 on the top surface. The mounting portion 112 is a portion on which the head main body 42 of the suction tool 40 is mounted, and has a concave shape according to the shape of the head main body 42, for example. Therefore, by mounting the head main body 42 on the mounting portion 112 and fitting it, the bottom surface of the head main body 42 and the mounting portion 112 are in contact with each other.

Further, the mounting portion 112 is provided with an opening 114. The opening 114 is provided at a position facing the cleaning body 46 when the head main body 42 is arranged on the mounting portion 112. The opening 114 has a slit shape, and is formed so as to extend in the longitudinal direction of the cleaning body 46 in a state where the cleaning body 46 is arranged on the mounting portion 112. The opening 114 is for exposing at least a part of the cleaning member 122 (blade) forming the dust removing mechanism 120, which will be described in detail later, to the outside of the mounting portion 112, and guides the movement of the cleaning member 122. It also functions as a guide for.

As shown in FIG. 1, a support pillar 116 is erected on the top surface of the arrangement portion main body 110 and on the back side with respect to the mounting portion 112 (not shown in FIGS. 5 and 6). abridgement). The support pillar 116 is connected to the support pillar connecting portion 25 provided on the back side of the main body portion 20 of the vacuum cleaner 10 described above in a state where the head main body 42 of the vacuum cleaner 10 is mounted on the mounting portion 112. You have reached a possible position. Therefore, the vacuum cleaner 10 is erected by arranging the vacuum cleaner 10 so that the head main body 42 is mounted on the mounting portion 112 and the support column connecting portion 25 is connected to the support column 116. Can be held at. Further, on the upper end side of the support pillar 116, an arrangement portion side terminal (not shown) that can be connected to a vacuum cleaner side terminal (not shown) provided in the main body 20 of the electric vacuum cleaner 10 is provided. .. The arrangement portion side terminals provided on the support pillar 116 are electrically connected to the power supply. Therefore, by setting the vacuum cleaner 10 in the arrangement unit 100 as described above, the vacuum cleaner 10 can be connected to the power source and charged.

As shown in FIG. 7, a storage portion 118 is provided inside the arrangement portion main body 110 and on one side of the above-mentioned opening 114 in the longitudinal direction. The storage portion 118 may be provided on the other end side of the opening 114 in the longitudinal direction or the like. The storage portion 118 forms a space for storing the cleaning member 122 (blade) of the dust removing mechanism 120, which will be described in detail later, inside the arrangement portion main body 110 when it is not necessary to expose it from the opening 114. Is. More specifically, as shown in FIG. 5, the internal space of the storage portion 118 is not exposed to the outside of the arrangement portion main body 110, but exists inside the arrangement portion main body 110. As shown in FIG. 6, the accommodating portion 118 is located adjacent to the opening 114 on the outer side in the longitudinal direction of the opening 114. A gate portion 117 is provided on a side surface 115 of the arrangement portion main body 110 that forms a storage portion 118 and faces the opening 114 side. The gate portion 117 exists on an extension line of the opening 114. The gate portion 117 is for allowing the cleaning member 122 to enter and exit from the storage portion 118. The gate portion 117 may be, for example, a communication port that communicates at all times, or may be an opening / closing type opening that opens / closes at the timing when the cleaning member 122 enters / exits the storage portion 118 from the viewpoint of improving safety.

The dust removing mechanism 120 includes a cleaning member 122, a support member 124, a guide unit 126, a drive unit 128, and a drive transmission unit 130.

The cleaning member 122 is a member for cleaning the roller-shaped cleaning body 46 provided on the suction tool 40 of the vacuum cleaner 10 from the mounting portion 112 side. The cleaning member 122 may be any material as long as the cleaning body 46 can be cleaned, but for example, the blade itself or a member provided with the blade may be used.

The support member 124 is a member for supporting the cleaning member 122 so as to be movable in the direction along the cleaning body 46 of the suction tool 40 arranged on the mounting portion 112. The support member 124 is composed of a block-shaped member. As shown in FIGS. 8 and 9, the support member 124 is provided with three through holes 124a to 124c so as to penetrate in the same direction. Of the through holes 124a to 124c, a female screw is formed on the inner peripheral surface forming the through hole 124a, and the inner peripheral surface forming the other through holes 124b and 124c is a substantially smooth surface. The support member 124 is installed so that the penetration direction of the through holes 124a to 124c faces the moving direction of the cleaning member 122. Further, the support member 124 supports the cleaning member 122 in a posture in which the blade forming the cleaning member 122 faces the moving direction of the cleaning member 122.

The guide portion 126 is for guiding the movement of the support member 124 described above. The guide portion 126 comprises three shaft portions 126a to 126c linearly arranged along the opening direction of the opening 114 and two end members 126d and 126e (first end portion and second end portion). Have. The shaft portions 126a to 126c are arranged so as to be substantially parallel to each other inside the arrangement portion main body 110 and substantially parallel to the opening 114, respectively. The shaft portions 126a to 126c are supported by end members 126d and 126e at both ends, respectively. The end members 126d and 126e are provided at positions deviating from the opening region of the opening 114 to the outside in the longitudinal direction of the shaft portions 126a to 126c, respectively. The end members 126d and 126e are arranged so as to face each other, and the support member 124 can be moved between the end members 126d and 126e by the guide portion 126 along the opposite direction of the end members 126d and 126e. The facing direction here can also be said to be the left-right direction of the arrangement portion main body 110 or the opening direction of the opening 114. Further, among the shaft portions 126a to 126c, the driven side pulley 126f is integrally attached to one end side of the shaft portion 126a and inside the axial direction (support member 124 side) with respect to the terminal member 126d. As shown enlarged in FIG. 9, the driven pulley 126f is a pulley with teeth (the terminal member 126d is not shown in FIG. 9 and is omitted).

Of the shaft portions 126a to 126c, the shaft portion 126a is a screw shaft having a male screw formed on the outer circumference, and the other shaft portions 126b and 126c are rod-shaped having no screw formed on the surface. The shaft portion 126a is inserted into the through hole 124a of the support member 124 described above. The male screw formed on the shaft portion 126a engages with the female screw formed on the through hole 124a. Further, the shaft portions 126b and 126c are inserted into the through holes 124b and 124c of the support member 124 so that the shaft portions 126b and 126c can freely slide inside the through holes 124b and 124c. Therefore, by rotating the shaft portion 126a, the support member 124 can be moved along the shaft portions 126a to 126c.

The drive unit 128 outputs the power required to drive the dust removing mechanism 120. The drive unit 128 may be any as long as it can output a driving force, but in the present embodiment, a motor is used. The output shaft of the motor forming the drive unit 128 is arranged substantially parallel to the shaft unit 126a described above. In the present embodiment, as shown in FIG. 7, the accommodating portion 125 for arranging the driving portion 128 is provided on the front side of the guide portion 126. For example, the position is located on the rear side of the guide portion 126 (support member 124). If the drive unit 128 is provided in the recess 127, the accommodating unit 125 may not be provided. Further, a drive unit side pulley 128a is attached to the output shaft of the drive unit 128.

The drive transmission unit 130 is for transmitting the driving force output from the drive unit 128 to the shaft unit 126a. Therefore, the dust removing mechanism 120 can linearly move the support member 124 and the cleaning member 122 supported by the support member 124 via the shaft portion 126a along the opening 114 by operating the drive unit 128. it can. The drive transmission unit 130 may be any as long as it transmits power from the drive unit 128 to the shaft unit 126a, but as shown in FIG. 9, in the present embodiment, the drive transmission unit 130 is provided on the output shaft of the drive unit 128. It is provided with a drive unit side pulley 128a, a driven side pulley 126f provided on one end side of the shaft portion 126a, and an endless belt 132 hung between the drive unit side pulley 128a and the driven side pulley 126f. Has been done. Therefore, by operating the drive unit 128, the rotational power can be transmitted to the shaft unit 126a side.

As described above, the dust removing mechanism 120 can move the support member 124 and the cleaning member 122 linearly along the opening 114 by operating the drive unit 128. By controlling the operation of the drive unit 128, the dust removing mechanism 120 is located outside the area directly below the opening 114 with respect to the opening 114 in addition to the area where the cleaning member 122 is exposed from the opening 114. The cleaning member 122 can be moved to the area where the storage portion 118 is provided. Therefore, the dust removing mechanism 120 does not need to expose the cleaning member 122, for example, when it is necessary to expose the cleaning member 122 from the opening 114 for cleaning the cleaning body body 50 provided on the head body 42. In the state, the cleaning member 122 can be stored in the storage unit 118.

The drive control unit 150 controls the operation of the dust removing mechanism 120. The drive control unit 150 is supposed to control the operation of the drive unit 128, which is the power source of the dust removing mechanism 120. The drive control unit 150 drives the drive unit 128 on condition that a cleaning event for cleaning the cleaning body body 50 of the head body 42 occurs.

The operation instruction unit 160 controls the operation of the vacuum cleaner 10 set in the arrangement unit 100. The operation instruction unit 160 operates the vacuum cleaner 10 on condition that the end of the cleaning event described above is detected, and gives an instruction to remove the dust removed by the cleaning event.

In the above-mentioned vacuum cleaner system S, the vacuum cleaner 10 is appropriately set in the arrangement portion 100 in order to clean the cleaning body 46. It is expected that the suction tool 40 is placed by the user so that the cleaning body 46 faces the opening 114 of the arrangement portion 100 and the cleaning body 46 is aligned with the opening direction of the opening 114. The suction tool 40 may be appropriately set on the mounting portion 112 depending on the shape of the mounting portion 112 or a notation prompting the placement. Further, the vacuum cleaner system S includes an event (cleaning event) for cleaning dust such as hair and dust adhering to the cleaning body 46 of the suction tool 40 by setting the vacuum cleaner 10 in the arrangement portion 100, and electric cleaning. An event (dust collection event) that causes the machine 10 to perform at least a suction operation is performed. In this dust collection event, the vacuum cleaner 10 may perform an operation of rotating the cleaning body 46 in addition to the suction operation. The cleaning body 46 can be cleaned by the vacuum cleaner 10 performing the cleaning event and the dust collection event. Hereinafter, the control flow when cleaning the cleaning body 46 will be described in detail with reference to FIG.

(Step 1-1)
When cleaning the cleaning body 46, the drive control unit 150 first confirms in step 1-1 whether or not the vacuum cleaner 10 is installed in the arrangement unit 100. Whether or not the vacuum cleaner 10 is arranged in the arrangement unit 100 can be detected by various methods. For example, contact between the arrangement unit side terminal and the vacuum cleaner side terminal, or in the vacuum cleaner 10 or the arrangement unit 100. It may be detected by detecting the operation of the provided switch that can start cleaning. When it is detected in step 1-1 that the vacuum cleaner 10 is arranged in the arrangement unit 100, a cleaning start event occurs, and the control flow proceeds to step 1-2.

(Step 1-2)
In step 1-2, the drive control unit 150 confirms the charge amount of the rechargeable battery (not shown) of the vacuum cleaner 10. That is, in the dust collecting event performed in step 1-4 described later, it is necessary to operate the vacuum cleaner 10. Therefore, if the charge amount of the electric vacuum cleaner 10 is insufficient, the dust collection event cannot be performed. Since charging and operation of the vacuum cleaner 10 cannot be performed in parallel, it is confirmed whether or not the charge amount of the vacuum cleaner 10 is equal to or more than a predetermined amount T at the stage where the cleaning start event occurs. Here, the predetermined amount T, which is a criterion for determining the charge amount, can be appropriately set, but is carried out later in consideration of the fact that the vacuum cleaner 10 cannot be operated while charging the vacuum cleaner 10, for example. It is advisable to set a predetermined amount T based on the amount of electric power required for the dust collection event to be performed. Further, by adding the estimated charge amount to be charged during the occurrence of the cleaning event to the charge amount of the vacuum cleaner 10, the amount of electric power required for the dust collection event to be carried out later can be reached. A predetermined amount T may be set based on whether or not. If the charge amount is the predetermined amount T or more, the control flow proceeds to step 1-3, and if the charge amount is less than the predetermined amount T, the control flow is step 1 in order to prioritize the charge and delay the occurrence of the cleaning event. Proceed to -7.

(Step 1-3)
When the control flow proceeds to steps 1-3, a cleaning event is performed under the control of the drive control unit 150. Specifically, when the cleaning event is started, the drive unit 128 is driven in the forward direction, and the cleaning member 122 and the support member 124 are guided by the guide unit 126 from the storage unit 118, which is the movement start position. It moves along the slit of the opening 114 to the other end (terminating member 126e side). After that, the drive unit 128 reversely drives and returns to the storage unit 118 (termination member 126d side). At this time, the cleaning member 122 is guided to one of a plurality of tapered groove portions 54 provided in the mounting portions 52 forming the ends of the cleaning body 46 of the suction tool 40, and naturally in the circumferential direction of the cleaning body main body 50. It enters the gap between the brush mounting portions 56 and 56 lined up in the above direction and moves in the longitudinal direction of the cleaning body body 50.

Specifically, as shown by the broken line in FIG. 11A, first, the cleaning member 122 is a tapered groove portion 54 provided in a plurality of attachment portions 52 forming an end portion of the cleaning body 46 of the suction tool 40. Enter one. After that, as shown by an arrow in the drawing, when the cleaning member 122 moves in the axial direction of the cleaning body 46, the cleaning member 122 enters the groove portion 57 formed between the brush mounting portions 56 and 56 adjacent in the circumferential direction. , It moves linearly in the groove portion 57 in the axial direction (opposite direction of the terminal members 126d and 126e). While the cleaning member 122 is moving, when the cleaning member 122 advances to the position shown by the solid line in FIG. 11A, the cleaning member 122 hits the wall surface of the groove portion 57. After that, when the cleaning member 122 is further advanced in the axial direction of the cleaning body 46, as shown by the arrow in FIG. 11A, the cleaning member 122 pushes the cleaning body 46 around while the cleaning member 122 is the cleaning body. Proceed in the axial direction of 46. When the cleaning member 122 is advanced in this way, the cleaning member 122 advances as shown in FIG. 11B, and eventually reaches the other end side of the cleaning body 46 as shown in FIG. 11C. The cleaning member 122 may reach the mounting portion 52b side beyond the boundary with the mounting portion 52b on the other end side of the cleaning body 46, but in the present embodiment, as shown in FIG. 11C. The cleaning member 122 reaches the boundary between the other end side of the cleaning body 46 and the mounting portion 52b or its vicinity. When the cleaning member 122 is moved in the axial direction of the cleaning body 46 in this way, the cleaning member 122 reaches the cleaning body 46 from one end side to the other end side while the cleaning body 46 rotates. The cleaning member 122 then returns in the opposite direction with the rotation of the cleaning body 46 in the axial direction of the cleaning body 46, and returns to the original position. In the process of moving the cleaning member 122 in the axial direction of the cleaning body 46 in this way, dust such as hair and dust wrapped around the outer periphery of the cleaning body 46 is cut by the cleaning member 122. This ends the cleaning event. When the cleaning event is completed in this way, the control flow proceeds to steps 1-4. It should be noted that the detection that the cleaning event has ended can be realized by various methods. For example, a sensor (not shown) capable of detecting contact between the support member 124 and the terminal members 126d and 126e is provided, and the positions of the support member 124 and the cleaning member 122 are detected based on the output of this sensor. It may be configured to detect the end of the cleaning event with. As another method, for example, the output of the drive unit 128, which is the drive source of the cleaning member 122 and the support member 124, is detected, and the support member 124 and the end members 126d, 126e are in contact with each other, so that the current value is reached. The end of the cleaning event may be detected based on the current value by utilizing the change in the current value.

(Step 1-4)
When the control flow shifts to steps 1-4, the dust collection event is started. The dust collection event is carried out by starting the operation of the vacuum cleaner 10 set in the arrangement unit 100 under the control of the operation instruction unit 160. When the vacuum cleaner 10 starts operation, the suction operation and the rotation operation of the cleaning body 46 are executed in the vacuum cleaner 10 mounted on the mounting portion 112. As a result, the dust cut at the cleaning event is collected by the vacuum cleaner 10. When the dust collection event is started, the control flow proceeds to steps 1-5.

(Step 1-5)
When the control flow shifts to step 1-5, it is confirmed whether or not a predetermined time has elapsed after the start of the dust collection event. The implementation time of the dust collection event may be set to a time sufficient to collect the dust removed from the cleaning body 46 by the cleaning event, and corresponds to, for example, a predetermined amount T used as a judgment criterion in step 1-2. It is preferable to set the time during which the vacuum cleaner 10 can be operated according to the amount of charge. When the lapse of a predetermined time is confirmed after the start of the dust collection event, the control flow proceeds to step 1-6.

(Step 1-6)
When the control flow shifts to step 1-6, the operation instruction unit 160 outputs a command to stop the operation of the vacuum cleaner 10. As a result, the cleaning of the cleaning body 46 is completed.

(Step 1-7)
If it is determined in step 1-3 described above that the charge amount of the vacuum cleaner 10 is less than the predetermined amount T, the control flow proceeds to step 1-7. In steps 1-7, the cleaning event is put on standby. After that, the control flow proceeds to step 1-8.

(Step 1-8)
In step 1-8, the vacuum cleaner 10 is charged and the control flow is returned to step 1-2. Steps 1-7 and 1-8 described above are continued until the charge amount of the vacuum cleaner 10 reaches a predetermined amount T.

In the arrangement unit 100 and the vacuum cleaner system S of the present embodiment, the installation unit 112 on which the vacuum cleaner 10 can be placed and the end members 126d, 126e (first end portion, second end portion) facing each other A cleaning member 122 that can move along the opposite direction and an opening 114 that is provided in the mounting portion 112 and from which at least a part of the cleaning member 122 protrudes are provided in between. ..

According to this configuration, with the vacuum cleaner 10 mounted on the mounting portion 112, the cleaning member 122 is placed between the terminal members 126d and 126e (first end portion and second end portion) facing each other. The arrangement unit 100 and the vacuum cleaner system S capable of effectively removing dust adhering to the cleaning body 46 by the cleaning member 122 whose at least part is exposed from the opening 114 by moving along the opposite direction. Can be provided.

In the arrangement unit 100 and the vacuum cleaner system S of the present embodiment, the installation unit 112 on which the suction tool 40 of the vacuum cleaner 10 is placed and the cleaning body 46 rotatably provided on the suction tool 40 are placed. A cleaning member 122 that is cleaned from the portion 112 side, an opening 114 that is provided in the mounting portion 112 and can expose at least a part of the cleaning member 122, and a cleaning member that can be moved along the axial direction of the cleaning body 46. It is provided with a support member 124 that supports 122.

By configuring the arrangement unit 100 and the vacuum cleaner system S as described above, the cleaning member 122 supported by the support member 124 is simply moved in the axial direction of the cleaning body 46 and adheres to the cleaning body 46. The dust can be effectively removed. That is, the arrangement unit 100 and the vacuum cleaner system S of the present embodiment can move the cleaning member 122 along the axial direction of the cleaning body while exposing the cleaning member 122 from the opening 144. Therefore, for example, dust such as hair and dust that is wrapped around or entangled with the cleaning body 46 can be cleaned by cutting with the cleaning member 122 and removed from the cleaning body 46. Therefore, according to the arrangement unit 100 and the vacuum cleaner system S having the above-described configuration, the dust adhering to the cleaning body 46 can be effectively removed.

The arrangement unit 100 and the vacuum cleaner system S described above include shaft portions 126a to 126c extending along the axial direction of the cleaning body 46 (opposite directions of the terminal members 126d and 126e) and support members 124, and support the cleaning body 46. The member 124 is movably supported along the shaft portions 126a to 126c (opposite directions of the terminal members 126d and 126e).

According to such a configuration, by moving the support member 124 along the shaft portions 126a to 126c, the cleaning member 122 is moved along the axial direction of the cleaning body 46, and the hair wrapped or entangled with the cleaning body 46 or the like. Dust such as dust can be effectively removed by the cleaning member 122.

In the above embodiment, an example is shown in which the shaft portions 126a to 126b for moving the support member 124 in the axial direction of the cleaning body 46 is provided, but the present invention is not limited to this, and for example, the shaft. A configuration may be provided in which a larger number than the portions 126a to 126c is provided, or a configuration in which two shaft portions 126a and 126c are provided may be provided. Further, for example, the support member 124 may be movable in the axial direction of the cleaning body 46 (the direction opposite to the terminal members 126d and 126e) by providing a rail or a slider for guiding the support member 124. Even in such a case, the support member 124 can move between one end (first end) and the other end (second end) of the rail (slider).

The arrangement unit 100 and the vacuum cleaner system S described above include a drive unit 128 and a drive transmission unit 130 that transmits the driving force of the drive unit 128 to the support member 124, and the cleaning member 122 is transmitted from the drive transmission unit 130. It is supposed to move by driving force.

According to such a configuration, the cleaning member 122 can be moved by driving the drive unit 128, and the dust adhering to the cleaning body 46 can be effectively removed by the cleaning member 122.

In the above embodiment, an example is shown in which the support member 124 and the cleaning member 122 are moved by using the power generated by the drive unit 128 by providing the drive unit 128 and the drive transmission unit 130. It is not limited to. As a configuration in which the drive unit 128 and the drive transmission unit 130 are not provided, as illustrated in FIG. 12, an operation member 170 such as a lever for manually operating the support member 124 is provided on the arrangement unit main body 110, and the operation member is provided. The support member 124 and the cleaning member 122 may be moved by operating the 170. In the example of FIG. 12, the operation member 170 is connected to the support member 124 provided inside the arrangement portion main body 110, and is connected to the front of the arrangement portion main body 110 in the left-right direction like the opening 114. A slit 172 formed so as to extend (along the opposite direction of the terminal members 126d and 126e) is provided, and the operating member 170 can be manually moved along the slit 172. Therefore, in the example of FIG. 12, by operating the operation member 170, the support member 124 and the cleaning member 122 can be moved, and the dust adhering to the cleaning body 46 can be removed by the cleaning member 122.

In the above-mentioned arrangement unit 100 and the vacuum cleaner system S, the mounting unit 112 is provided with a storage unit 118 in which the cleaning member 122 is housed.

With such a configuration, the cleaning member 122 is housed in the storage portion 118, and safety is improved, except when the cleaning member 122 must be exposed as in the case where the cleaning body 46 is cleaned by the cleaning member 122. Can be made to.

In the present embodiment, an example in which the storage unit 118 is provided in the arrangement unit 100 and the vacuum cleaner system S is shown, but the present invention is not limited to this, and the storage unit 118 is not provided. Is also good. Even when the storage unit 118 is not provided, from the viewpoint of ensuring safety, for example, in order to minimize the exposure of the cleaning member 122, for example, a member for storing the cleaning member 122 or a cleaning member may be provided. It is advisable to provide a member that covers the 122.

In the above-mentioned arrangement portion 100 and the vacuum cleaner system S, the cleaning body 46 has a tubular cleaning body main body 50 and a mounting portion 52 for rotatably attaching the cleaning body main body 50, and the mounting portion 52 is axially oriented. The cleaning member 122 has a plurality of groove portions 54 extending along the same in the circumferential direction, and the cleaning member 122 is supposed to move at least one groove portion 54 among the plurality of groove portions 54.

With such a configuration, the cleaning member 122 can be surely introduced into the groove portion 54, and the cleaning member 122 can be guided to move in an appropriate direction. As a result, the dust adhering to the cleaning body 46 can be removed more effectively by the cleaning member 122. The present invention is not limited to this, and may be one that does not include a groove portion 54 or one in which the shape of the groove portion 54 is different from that described above.

In the above-mentioned arrangement portion 100 and the vacuum cleaner system S, it is preferable that the attachment portion 52 becomes wider toward each of the plurality of groove portions 54 at at least one of both ends in the axial direction.

According to such a configuration, the cleaning member 122 can be introduced into the groove 54 more reliably and smoothly, and the cleaning member 122 can be guided to move in an appropriate direction. The present invention is not limited to this, and the shape of the groove 54 is, for example, one in which the groove width extends in the same axial direction, or a part of the end side of the mounting portion 52 is tapered. The shape may be different from that described above, such as a shape in which the other portion on the cleaning portion main body 55 side extends in the same groove width in the axial direction.

The arrangement unit 100 and the vacuum cleaner system S described above include a drive control unit 150 that controls the drive unit 128, and the drive control unit 150 drives the drive control unit 150 on condition that a cleaning event for cleaning the vacuum cleaner 10 occurs. It drives the unit 128.

According to such a configuration, the drive unit 128 can be driven and the cleaning member 122 and the support member 124 can be moved along the opening 114 on condition that a cleaning event occurs. Therefore, according to the above-described configuration, the vacuum cleaner 10 can be accurately cleaned by the cleaning member 122 when a cleaning event occurs.

In the present embodiment, an example is shown in which the drive control unit 150 is provided and the drive unit 128 can be driven on condition that a cleaning event occurs, but the present invention is not limited to this. For example, the arrangement unit 100 and the vacuum cleaner system S may not include the drive control unit 150 and may drive the drive unit 128 by operating an operation device such as a switch provided separately. Further, the arrangement unit 100 and the vacuum cleaner system S may have other conditions added as conditions for driving the drive unit 128 in addition to the occurrence of the cleaning event.

The arrangement unit 100 and the vacuum cleaner system S described above include an operation instruction unit 160 that instructs the vacuum cleaner 10 to operate the vacuum cleaner 10 when the end of the cleaning event is detected.

According to such a configuration, the dust removed from the cleaning body 46 by the cleaning event can be collected by the vacuum cleaner 10, and the arrangement unit 100, the vacuum cleaner system S, and the like can be kept clean. In the present embodiment, an example is shown in which the operation instruction unit 160 is provided and the vacuum cleaner 10 is operated on the condition that the end of the cleaning event is detected, but the present invention is not limited to this. For example, the vacuum cleaner 10 can be operated by operating an operation device such as a switch separately provided after the cleaning event is completed without providing the operation instruction unit 160 in the arrangement unit 100 and the vacuum cleaner system S. good. It should be noted that the detection that the cleaning event has ended can be realized by various methods. For example, a sensor (not shown) capable of detecting contact between the support member 124 and the terminal members 126d and 126e is provided, and the positions of the support member 124 and the cleaning member 122 are detected based on the output of this sensor. It may be configured to detect the end of the cleaning event with. As another method, for example, the output of the drive unit 128, which is the drive source of the cleaning member 122 and the support member 124, is detected, and the support member 124 and the end members 126d, 126e are in contact with each other, so that the current value is reached. The end of the cleaning event may be detected based on the current value by utilizing the change in the current value. Further, in addition to the end of the cleaning event, the arrangement unit 100 and the vacuum cleaner system S may add other conditions as conditions for operating the vacuum cleaner 10.

In the above-described embodiment, the control flow of FIG. 10 is illustrated as an example of the control flow when cleaning the cleaning body 46, but the present invention is not limited thereto. For example, in the control flow of FIG. 10, in the stage prior to the cleaning event of step 1-3 (corresponding to step 1-2), it is confirmed whether the charge amount is a predetermined amount T or more. Is not limited to this. For example, instead of the control flow of FIG. 10, a cleaning event is generated at a stage prior to the step of confirming whether the charge amount is T or more, and the cleaning event ends or the cleaning event ends. After that, the charge amount may be confirmed at a predetermined timing, and the process may shift to the dust collection event. Specifically, the control flow for cleaning the cleaning body 46 is changed to step 1-2 and step 1-3 in FIG. 10 as in the control flow shown in FIG. 13, instead of the control flow in FIG. The order of the corresponding steps may be changed. Hereinafter, the flow of FIG. 13 will be described. In the following description, the parts common to the flow of FIG. 10 described above will be omitted in detail and will be outlined.

(Step 2-1)
In step 2-1 it is confirmed whether or not the vacuum cleaner 10 is installed in the arrangement unit 100 in the same manner as in step 1-1 of the flow shown in FIG. 10 described above. When it is detected in step 2-1 that the vacuum cleaner 10 is arranged in the arrangement unit 100, the control flow proceeds to step 2-2.

(Step 2-2)
Step 2-2 corresponds to step 1-3 of the flow shown in FIG. 10 described above, and a cleaning event is performed under the control of the drive control unit 150. The cleaning event is performed in the same manner as in steps 1-3 described above. When the cleaning event for cleaning the dust (dust) such as hair entwined with the cleaning body 46 of the suction tool 40 is completed by the cleaning event, the control flow proceeds to steps 2-3.

(Step 2-3)
Steps 2-3 are the same steps as steps 1-2 of the control flow shown in FIG. In step 2-3, the drive control unit 150 sets the charge amount of the rechargeable battery (not shown) of the vacuum cleaner 10 based on the amount of electric power required for the dust collection event performed in step 2-4 described later. It is confirmed whether or not it is equal to or more than the predetermined amount T. That is, in the flow shown in FIG. 13, the rechargeable battery of the vacuum cleaner 10 at the stage when the vacuum cleaner 10 is installed in the arrangement unit 100 as in step 1-2 in the control flow of FIG. 10 (shown in the figure). Instead of checking the charge amount of the rechargeable battery (not shown), check the charge amount of the rechargeable battery (not shown) after charging before reaching step 2-3 after the cleaning event of step 2-2 is completed. To do. If the charge amount is the predetermined amount T or more, the control flow proceeds to step 2-4, and if the charge amount is less than the predetermined amount T, the control flow is step 2 in order to prioritize the charge and delay the occurrence of the cleaning event. Proceed to -7.

(Steps 2-4 to 2-8)
Steps 2-4 to 2-8 of FIG. 13 are steps that perform the same or similar operations as steps 1-4 to 1-8 of FIG. 10 described above. That is, in step 2-4, the dust collection event is started in the same manner as in step 1-4 of FIG. When the dust collection event is started, the control flow proceeds to step 2-5. In step 2-5, similarly to step 1-5 of FIG. 10, it is confirmed whether or not a predetermined time has elapsed after the start of the dust collection event in step 2-4. When it is confirmed that a predetermined time has elapsed after the start of the dust collection event in step 2-5, the process proceeds to step 2-6. In step 2-6, the operation of the vacuum cleaner 10 is stopped and the cleaning of the cleaning body 46 is completed in the same manner as in step 1-6 of FIG.

On the other hand, if it is determined in step 2-3 described above that the charge amount of the vacuum cleaner 10 is less than the predetermined amount T, the dust collection event is put into a standby state in step 2-7. After that, the control flow proceeds to step 2-8. In step 2-8, the vacuum cleaner 10 is charged and the control flow is returned to step 2-2. Steps 2-7 and 2-8 described above are continued until the charge amount of the vacuum cleaner 10 reaches a predetermined amount T.

As described above, assuming that the control flow for cleaning the cleaning body 46 is shown in FIG. 13, the operation takes into consideration that the charge amount increases during the cleaning event of step 2-2. Can be done.

In the above embodiment, the cleaning member 122 and the support member 124 are used as separate members, but they may be integrated as a cleaning member. Further, although an example in which a blade is used as an example of the cleaning member 122 is shown, for example, a heat ray or the like may be used instead of the blade or in addition to the blade. Even in the case of such a configuration, the dust adhering to the cleaning body 46 can be effectively removed by the cleaning member 122 as in the case of the arrangement unit 100 and the vacuum cleaner system S described above.

Further, in the present embodiment, an example in which a stick-shaped (vertical type) vacuum cleaner is used as an example of the vacuum cleaner 10 is shown, but the present invention is not limited thereto. Whether it is a handheld vacuum cleaner with a suction tool connected to the vacuum cleaner body or a canister type vacuum cleaner with a suction tool connected to the vacuum cleaner body via a hose, the suction tool is placed on the mounting part. It is applicable if it can be placed on 112. Further, the present invention can be applied to a vacuum cleaner having a suction port and a cleaning body in the vacuum cleaner body instead of the vacuum cleaner 10. In the robot cleaner as an example of such a vacuum cleaner, it is preferable that the robot cleaner can reach the mounting portion 112 by itself by providing an inclined surface on the front side of the arranging portion 100. With such a configuration, the rotatable cleaning body of the robot cleaner can be cleaned by the cleaning member 122. Further, the cleaning body in the robot cleaner can be configured in the same manner as the cleaning body 46 in the present embodiment.

Further, in the present embodiment, an example in which the dust removing mechanism 120 is provided on the side of the arrangement portion 100 is shown, but the present invention is not limited to this, and for example, the suction tool 40 or the like is replaced with the dust removing mechanism 120. May be provided. Specifically, for example, as in the dust removing mechanism 180 shown in FIG. 14, the shaft portion 182 is provided in parallel with the cleaning body 46 provided on the suction tool 40, and the cleaning body 46 is provided along the shaft portion 182. A support member 184 that can move freely in the axial direction is provided. The support member 184 supports the cleaning member 186. Further, in the support member 184, a portion (lever portion 184a) that functions as an operation lever is exposed to the outside from a slit-shaped opening 188 provided on the front side of the head main body 42. The support member 184 is a cleaning member by pushing the lever portion 184a toward the inside of the head body 42 to project the cleaning member 186 toward the cleaning body 46 and pulling the lever portion 184a back toward the outside of the head body 42. The 186 can be hidden inside the support member 184. By providing the suction tool 40 with such a dust removing mechanism 180, it is possible to clean the cleaning body 46 in the same manner as in the case where the dust removing mechanism 120 described above is provided.

The above-mentioned vacuum cleaner system S includes a vacuum cleaner 10 having a rotatable cleaning body 46 and an arrangement portion 100 (dust removing device), and the cleaning body 36 surrounds a groove portion 57 extending in the axial direction. The cleaning member 122 has a plurality of directions, and is characterized in that the cleaning member 122 moves in any of the plurality of groove portions 57.

According to such a configuration, the cleaning member 122 is moved to the cleaning body 46 by moving the cleaning member 122 in any of the groove 57s provided so as to extend in the circumferential direction and the axial direction of the cleaning body 46. It is possible to provide an electric vacuum cleaner system S capable of effectively removing dust.

The above-mentioned vacuum cleaner system S is characterized in that, for each of the plurality of groove portions 57, at least one of both ends in the axial direction becomes wider toward the end portion.

According to such a configuration, on the wide side of the end portion, the portion that hinders the entry of the cleaning member 122 is reduced in the circumferential direction, so that the cleaning member 122 can be easily guided to any of the groove portions 54 arranged in the circumferential direction. ..
The cleaning body 46 included in the vacuum cleaner according to the present embodiment is provided with the tapered groove portion 57 in the mounting portion 52 so that the blade can be easily guided to the groove portion 57 even if the cleaning body 46 is not used as a set with the arrangement portion 100. Therefore, it is sufficiently effective in removing dust. That is, even when the user uses scissors or a cutter without using the arranging portion 100, there is an effect that the dust entangled in the cleaning body 46 can be easily removed.

The present invention is not limited to those shown in the above-described embodiments, and it can be easily understood by those skilled in the art that there may be other embodiments from the teaching and spirit within the scope of the claims. Yeah.

INDUSTRIAL APPLICABILITY The present invention can be suitably used in a dust removing device for removing dust in a suction tool of a vacuum cleaner, and a general vacuum cleaner system provided with the dust removing device.

10: Vacuum cleaner 40: Suction tool 46: Cleaning body 50: Cleaning body body 52: Mounting part 54: Groove part 100: Arrangement part (dust removal device)
110: Arrangement body 112: Mounting part 114: Opening 118: Storage part 122: Cleaning member 124: Support member 126a: Shaft part 126b: Shaft part 126c: Shaft part 128: Drive part 130: Drive transmission part 144: Opening Unit 150: Drive control unit 160: Operation instruction unit S: Vacuum cleaner system

Claims (9)

A mounting part where a vacuum cleaner can be mounted and
A cleaning member that can move along the opposite direction between the first end and the second end facing each other.
A shaft portion having a screw shaft and extending along the opposite direction,
Drive unit and
A drive transmission unit that transmits the driving force of the drive unit to the cleaning member via the shaft unit, and
It is provided with an opening provided in the above-mentioned resting portion and in which at least a part of the cleaning member protrudes.
The cleaning member is engaged with the screw shaft, Chiri挨removing apparatus characterized that you moved by rotation of the shaft portion. A mounting part where a vacuum cleaner can be mounted and
A cleaning member that can move along the opposite direction between the first end and the second end facing each other.
An opening provided in the above-mentioned place where at least a part of the cleaning member protrudes,
Drive unit and
A drive transmission unit that transmits the driving force of the drive unit to the cleaning member,
A drive control unit that controls the drive unit is provided.
The cleaning member is moved by the driving force transmitted from the driving transmission unit, and is moved.
The drive control unit
The drive unit is driven on condition that a cleaning event for cleaning the vacuum cleaner occurs.
The dust collecting event for operating the vacuum cleaner is executed after the cleaning event, and the dust collecting event is executed.
When the charge amount of the vacuum cleaner is equal to or more than the threshold value, the dust collection event is executed, and when the charge amount of the electric vacuum cleaner is less than the threshold value, after charging the electric vacuum cleaner which becomes the threshold value or more. , A dust removing device, characterized in that the dust collecting event is executed. The drive control unit according to claim 2, wherein when the charge amount of the vacuum cleaner is less than the threshold value, the drive control unit starts charging the vacuum cleaner before the start of the cleaning event. Dust removal device. The dust removing device according to any one of claims 1 to 3, wherein the above-described resting portion includes a storage portion in which the cleaning member is housed. A drive control unit that controls the drive unit is provided.
The dust removing device according to claim 1 , wherein the drive control unit drives the drive unit on condition that a cleaning event for cleaning the vacuum cleaner occurs. Any of claims 2, 3 and 5, characterized in that an operation instruction unit for instructing the vacuum cleaner to operate the vacuum cleaner is provided on condition that the end of the cleaning event is detected. The dust remover according to the description. The drive control unit is characterized in that it determines that the cleaning event has ended based on a detection result indicating that the cleaning member has reached each of the first end portion and the second end portion. The dust removing device according to any one of 2, 3, 5, and 6. A vacuum cleaner with a rotatable cleaning body and
The dust removing device according to any one of claims 1 to 7 is included.
The cleaning body has a plurality of grooves extending in the axial direction in the circumferential direction.
An electric vacuum cleaner system, wherein the cleaning member moves any of the plurality of grooves. The vacuum cleaner system according to claim 8 , wherein each of the plurality of groove portions becomes wider toward the end portion at at least one of both ends in the axial direction.

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