WO2022010335A1 - 청소기 스테이션 - Google Patents
청소기 스테이션 Download PDFInfo
- Publication number
- WO2022010335A1 WO2022010335A1 PCT/KR2021/095072 KR2021095072W WO2022010335A1 WO 2022010335 A1 WO2022010335 A1 WO 2022010335A1 KR 2021095072 W KR2021095072 W KR 2021095072W WO 2022010335 A1 WO2022010335 A1 WO 2022010335A1
- Authority
- WO
- WIPO (PCT)
- Prior art keywords
- cleaner
- dust
- unit
- gear
- cover opening
- Prior art date
Links
- 239000000428 dust Substances 0.000 claims abstract description 451
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Images
Classifications
-
- A—HUMAN NECESSITIES
- A47—FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
- A47L—DOMESTIC WASHING OR CLEANING; SUCTION CLEANERS IN GENERAL
- A47L9/00—Details or accessories of suction cleaners, e.g. mechanical means for controlling the suction or for effecting pulsating action; Storing devices specially adapted to suction cleaners or parts thereof; Carrying-vehicles specially adapted for suction cleaners
- A47L9/10—Filters; Dust separators; Dust removal; Automatic exchange of filters
- A47L9/14—Bags or the like; Rigid filtering receptacles; Attachment of, or closures for, bags or receptacles
- A47L9/149—Emptying means; Reusable bags
-
- A—HUMAN NECESSITIES
- A47—FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
- A47L—DOMESTIC WASHING OR CLEANING; SUCTION CLEANERS IN GENERAL
- A47L5/00—Structural features of suction cleaners
- A47L5/12—Structural features of suction cleaners with power-driven air-pumps or air-compressors, e.g. driven by motor vehicle engine vacuum
- A47L5/22—Structural features of suction cleaners with power-driven air-pumps or air-compressors, e.g. driven by motor vehicle engine vacuum with rotary fans
- A47L5/24—Hand-supported suction cleaners
- A47L5/26—Hand-supported suction cleaners with driven dust-loosening tools
-
- A—HUMAN NECESSITIES
- A47—FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
- A47L—DOMESTIC WASHING OR CLEANING; SUCTION CLEANERS IN GENERAL
- A47L9/00—Details or accessories of suction cleaners, e.g. mechanical means for controlling the suction or for effecting pulsating action; Storing devices specially adapted to suction cleaners or parts thereof; Carrying-vehicles specially adapted for suction cleaners
- A47L9/0009—Storing devices ; Supports, stands or holders
- A47L9/0063—External storing devices; Stands, casings or the like for the storage of suction cleaners
-
- A—HUMAN NECESSITIES
- A47—FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
- A47L—DOMESTIC WASHING OR CLEANING; SUCTION CLEANERS IN GENERAL
- A47L9/00—Details or accessories of suction cleaners, e.g. mechanical means for controlling the suction or for effecting pulsating action; Storing devices specially adapted to suction cleaners or parts thereof; Carrying-vehicles specially adapted for suction cleaners
- A47L9/10—Filters; Dust separators; Dust removal; Automatic exchange of filters
- A47L9/106—Dust removal
-
- A—HUMAN NECESSITIES
- A47—FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
- A47L—DOMESTIC WASHING OR CLEANING; SUCTION CLEANERS IN GENERAL
- A47L9/00—Details or accessories of suction cleaners, e.g. mechanical means for controlling the suction or for effecting pulsating action; Storing devices specially adapted to suction cleaners or parts thereof; Carrying-vehicles specially adapted for suction cleaners
- A47L9/10—Filters; Dust separators; Dust removal; Automatic exchange of filters
- A47L9/16—Arrangement or disposition of cyclones or other devices with centrifugal action
- A47L9/1691—Mounting or coupling means for cyclonic chamber or dust receptacles
-
- A—HUMAN NECESSITIES
- A47—FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
- A47L—DOMESTIC WASHING OR CLEANING; SUCTION CLEANERS IN GENERAL
- A47L9/00—Details or accessories of suction cleaners, e.g. mechanical means for controlling the suction or for effecting pulsating action; Storing devices specially adapted to suction cleaners or parts thereof; Carrying-vehicles specially adapted for suction cleaners
- A47L9/28—Installation of the electric equipment, e.g. adaptation or attachment to the suction cleaner; Controlling suction cleaners by electric means
- A47L9/2868—Arrangements for power supply of vacuum cleaners or the accessories thereof
- A47L9/2873—Docking units or charging stations
-
- A—HUMAN NECESSITIES
- A47—FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
- A47L—DOMESTIC WASHING OR CLEANING; SUCTION CLEANERS IN GENERAL
- A47L9/00—Details or accessories of suction cleaners, e.g. mechanical means for controlling the suction or for effecting pulsating action; Storing devices specially adapted to suction cleaners or parts thereof; Carrying-vehicles specially adapted for suction cleaners
- A47L9/28—Installation of the electric equipment, e.g. adaptation or attachment to the suction cleaner; Controlling suction cleaners by electric means
- A47L9/2868—Arrangements for power supply of vacuum cleaners or the accessories thereof
- A47L9/2884—Details of arrangements of batteries or their installation
-
- A—HUMAN NECESSITIES
- A47—FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
- A47L—DOMESTIC WASHING OR CLEANING; SUCTION CLEANERS IN GENERAL
- A47L2201/00—Robotic cleaning machines, i.e. with automatic control of the travelling movement or the cleaning operation
- A47L2201/02—Docking stations; Docking operations
- A47L2201/022—Recharging of batteries
-
- A—HUMAN NECESSITIES
- A47—FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
- A47L—DOMESTIC WASHING OR CLEANING; SUCTION CLEANERS IN GENERAL
- A47L2201/00—Robotic cleaning machines, i.e. with automatic control of the travelling movement or the cleaning operation
- A47L2201/02—Docking stations; Docking operations
- A47L2201/024—Emptying dust or waste liquid containers
Definitions
- the present invention relates to a cleaner station, and more particularly, to a cleaner station that sucks dust stored in the cleaner into the station.
- a vacuum cleaner is a household appliance that sucks in small garbage or dust by sucking air using electricity and fills the dust bin in the product, and is generally called a vacuum cleaner.
- Such a vacuum cleaner may be divided into a manual cleaner in which the user directly moves the cleaner to perform cleaning, and an automatic cleaner in which the user performs cleaning while driving by themselves.
- Manual vacuum cleaners may be classified into canister-type cleaners, upright cleaners, handy-type cleaners, stick-type cleaners, and the like, depending on the type of cleaner.
- canister-type vacuum cleaners were often used in household cleaners, but recently, a hand-held vacuum cleaner and a stick cleaner, which are convenient to use by providing a dust container and a cleaner body, are increasingly being used.
- the canisty type vacuum cleaner is connected to the main body and the suction port by a rubber hose or pipe, and in some cases, it can be used by inserting a brush into the suction port.
- the Hand Vacuum Cleaner maximizes portability, and since it is light in weight but short in length, there may be restrictions on the cleaning area while sitting. Therefore, it is used to clean localized places such as on a desk or sofa, or in a car.
- the stick vacuum cleaner can be used while standing, so you can clean without bending your back. Therefore, it is advantageous for cleaning while moving a large area. If a hand-held vacuum cleaner cleans a narrow space, the stick-type vacuum cleaner can clean a wider space than that, and can clean a high place that cannot be reached by hand. Recently, a stick cleaner is provided in a module type, and the cleaner type is actively changed and used for various objects.
- the robot vacuum cleaner automatically cleans the area to be cleaned by sucking foreign substances such as dust from the floor while driving in the area to be cleaned.
- the robot cleaner includes a distance sensor that detects a distance to obstacles such as furniture, office supplies, or walls installed in the cleaning area, and a left wheel and a right wheel for moving the robot cleaner.
- the left wheel and the right wheel are configured to be rotated by the left wheel motor and the right wheel motor, respectively, and the robot cleaner changes directions by itself according to the driving of the left wheel motor and the right wheel motor to perform indoor cleaning.
- Prior patent document US 2020-0129025 A1 discloses a dust container combined with a stick-type vacuum cleaner.
- the combination of the dust bin and the vacuum cleaner of the prior patent document is configured to open the dust cover of the vacuum cleaner using a latch structure while coupling the vacuum cleaner to the dust container.
- the latch structure as described above has a limitation in opening the dust cover by the weight of the vacuum cleaner regardless of whether the dust container is opened.
- the present invention was created to improve the problems of the prior art, and it is an object of the present invention to provide a cleaner station capable of eliminating the hassle of a user having to empty the dust bin every time.
- Another object of the present invention is to provide a cleaner station capable of preventing dust from scattering when the dust bin is emptied.
- Another object of the present invention is to provide a cleaner station capable of providing user convenience since dust in the dust bin can be removed without a separate operation by the user.
- Another object of the present invention is to provide a cleaner station capable of removing odor generated by the residue by preventing residual dust from remaining in the dust container.
- Another object of the cleaner is to provide a cleaner station that can be mounted in a state in which the extension tube and the cleaning module are mounted.
- Another object of the present invention is to provide a cleaner station capable of minimizing the space occupied on a horizontal surface even in a state in which the cleaner is mounted.
- Another object of the present invention is to provide a cleaner station that minimizes the loss of flow force for collecting dust.
- Another object of the present invention is to provide a cleaner station in which dust in the dust bin is not visible from the outside while the cleaner is mounted.
- Another object of the present invention is to provide a cleaner station capable of opening a discharge cover of a dust container without a user applying force when the cleaner is coupled to the station.
- Another object of the present invention is to provide a cleaner station capable of automatically opening a discharge cover of a dust bin by sensing the combination of the cleaner when the cleaner is coupled to the station.
- a cleaner station includes: a housing; a dust collecting motor accommodated in the housing and generating a suction force for sucking dust in the dust bin of the vacuum cleaner; a dust collecting unit accommodated in the housing and collecting dust inside the dust bin; a coupling part disposed on the housing and including a coupling surface to which the cleaner is coupled; and a cover opening unit disposed in the coupling portion and configured to open a discharge cover of the dust container.
- the cover opening unit may include a push protrusion that moves when the cleaner is coupled; a cover opening motor providing power to move the push protrusion; and a cover opening gear coupled to the cover opening motor and configured to move the push protrusion using the power of the cover opening motor.
- the cover opening gear may include: an open drive gear coupled to the shaft of the cover opening motor to transmit power of the cover opening motor; and an open driven gear meshed with the open drive gear and coupled to the push protrusion to move the push protrusion.
- the open driven gear may include a gear portion formed in the form of a rack gear to mesh with the open driving gear.
- the cover opening unit may further include a support plate extending from the coupling surface to support the dust container.
- the coupling surface may include a dust passage hole formed in a hole shape corresponding to the shape of the dust container so that the dust of the dust container flows into the dust collecting unit.
- the support plate may be formed to protrude from the coupling surface to block a portion of the dust passage hole.
- the cover opening unit may further include a support protrusion provided to be capable of linear reciprocating movement on the coupling surface to support the dust container.
- the cover opening unit may further include a support projection transfer gear meshed with the cover opening gear and configured to move the support projection through the power of the cover opening motor.
- the coupling surface may include a dust passage hole formed in a hole shape corresponding to the shape of the dust container so that the dust of the dust container flows into the dust collecting unit.
- the support protrusion may reciprocate linearly to open and close a portion of the dust passage hole in association with the movement of the support protrusion transfer gear.
- the cover opening unit may further include a support protrusion transfer link linkage coupling the support protrusion and the support protrusion transfer gear.
- the cover opening unit may further include a support plate transfer block disposed on the upper surface of the support projection transfer gear and including an inclined surface for guiding the linear movement of the support plate.
- the cover opening unit may further include a return spring that provides a restoring force to the support protrusion when the support protrusion moves in a straight line.
- the cover opening unit may further include a gear box disposed below the coupling part in the direction of gravity and receiving the cover opening gear therein.
- the gear box may be integrally formed with the first flow path.
- the push protrusion may include a protrusion formed in a protrusion shape to press the coupling lever of the dust container; and a gear coupling block accommodated in the gearbox and linearly reciprocating inside the gearbox by the movement of the cover opening gear.
- the push protrusion may further include a protrusion support plate supporting the protrusion and moving along the upper surface of the gear box.
- the push protrusion may further include a connecting portion that connects the protrusion support plate and the gear coupling block, and has a width narrower than that of the protrusion support plate and the gear coupling block.
- the push protrusion may further include a guide frame formed to protrude from both sides of the gear coupling block and guide the movement of the gear coupling block.
- the gear box may include a guide rail supporting the open driven gear and guiding the movement of the open driven gear.
- the gear box may further include a protrusion through-hole formed in the form of a hole to allow the push protrusion to pass therethrough.
- the cleaner station of the present invention includes: a door unit capable of opening and closing the dust passage hole; and a control unit for controlling the coupling unit, the door unit, and the cover opening unit.
- the controller may operate the cover opening motor when the dust passage hole is opened.
- the cover opening unit may further include a cover opening detection unit disposed inside the gearbox and sensing a position of the push protrusion.
- the cover open detection unit may detect that the push protrusion is in an initial position.
- the open driven gear may include a contact protrusion that is provided to be movable in a straight line according to the rotation of the open driving gear and is disposed to be in contact with the cover open detection unit.
- the control unit after driving the cover opening motor, when receiving a signal indicating that the push protrusion has returned to the initial position from the cover opening detection unit, the driving of the cover opening motor may be terminated.
- control unit does not receive a signal indicating that the push protrusion has returned to its initial position from the cover open detection unit for a preset protrusion reciprocating time after driving the cover opening motor, it is determined that the cover opening unit has malfunctioned.
- the cleaner station according to the present invention there is an effect that the user can eliminate the hassle of emptying the dust bin every time.
- the station when the station senses that the dust container is engaged, it pulls the lever to compress the dust container, thereby preventing residual dust from remaining in the dust container, thereby improving the suction power of the cleaner.
- the cleaner can be mounted on the cleaner station while the extension tube and the cleaning module are mounted.
- the cover opening unit can automatically open the discharge cover of the dust container without the user applying force.
- the cover opening unit can automatically open the discharge cover of the dust bin when the door of the station is opened.
- FIG. 1 is a perspective view of a dust removal system including a cleaner station and a first cleaner and a second cleaner according to an embodiment of the present invention.
- FIG. 2 is a schematic diagram of a configuration of a dust removal system according to an embodiment of the present invention.
- FIG 3 is a view for explaining a first cleaner in the dust removal system according to an embodiment of the present invention.
- FIG. 4 is a view for explaining the center of gravity of the first cleaner according to an embodiment of the present invention.
- FIG. 5 is a view for explaining a coupling unit in a cleaner station according to an embodiment of the present invention.
- FIG. 6 is a view for explaining the arrangement of a fixing unit, a door unit, a cover opening unit, and a lever pulling unit in the cleaner station according to an embodiment of the present invention.
- FIG. 7 is an exploded perspective view illustrating a fixing unit in a cleaner station according to an embodiment of the present invention.
- FIG. 8 is a view for explaining the arrangement of the first cleaner and the fixing unit in the cleaner station according to the embodiment of the present invention.
- FIG. 9 is a cross-sectional view illustrating a fixing unit in a cleaner station according to an embodiment of the present invention.
- FIG. 10 is a view for explaining the relationship between the first cleaner and the door unit in the cleaner station according to the embodiment of the present invention.
- FIG. 11 is a view for explaining a lower surface of the dust container of the first cleaner according to an embodiment of the present invention.
- FIG. 12 is a view for explaining the relationship between the first cleaner and the cover opening unit in the cleaner station according to the first embodiment of the present invention.
- FIG. 13 is a perspective view illustrating a cover opening unit in the cleaner station according to the first embodiment of the present invention.
- FIG. 14 is a cross-sectional view for explaining a second embodiment of the cover opening unit in the cleaner station according to the embodiment of the present invention.
- 15 is a cross-sectional view for explaining a third embodiment of the cover opening unit in the cleaner station according to the embodiment of the present invention.
- 16 is a view for explaining the relationship between the first cleaner and the lever pulling unit in the cleaner station according to the embodiment of the present invention.
- 17 is a view for explaining the arrangement relationship between the center of gravity of the first cleaner and the cleaner station according to the embodiment of the present invention.
- FIG. 18 is a schematic view of FIG. 17 viewed from another direction.
- FIG. 19 is a block diagram illustrating a control configuration in a cleaner station according to an embodiment of the present invention.
- 20 is a view for explaining a cover opening unit in the cleaner station according to the fourth embodiment of the present invention.
- FIG. 21 is a view of FIG. 20 viewed from another angle.
- first, second, etc. may be used to describe various components, but the components may not be limited by the terms. The above terms are only for the purpose of distinguishing one component from another.
- a first component may be referred to as a second component, and similarly, a second component may also be referred to as a first component.
- the term “and/or” may include a combination of a plurality of related listed items or any of a plurality of related listed items.
- FIG. 1 is a perspective view of a dust removal system including a cleaner station and a first cleaner and a second cleaner according to an embodiment of the present invention
- FIG. 2 is a schematic diagram of the configuration of the dust removal system according to an embodiment of the present invention is disclosed.
- the dust removal system 10 may include a cleaner station 100 and cleaners 200 and 300 .
- the cleaners 200 and 300 may include the first cleaner 200 and the second cleaner 300 .
- it may be implemented except for some of these configurations, and additional configurations are not excluded.
- the dust removal system 10 may include a cleaner station 100 .
- a first cleaner 200 and a second cleaner 300 may be disposed in the cleaner station 100 .
- the first cleaner 200 may be coupled to the side of the cleaner station 100 .
- the main body of the first cleaner 200 may be coupled to the side of the cleaner station 100 .
- a second cleaner 200 may be coupled to a lower portion of the cleaner station 100 .
- the cleaner station 100 may remove dust from the dust container 220 of the first cleaner 200 .
- the cleaner station 100 may remove dust from a dust bin (not shown) of the second cleaner 300 .
- FIG. 3 is a view for explaining a first cleaner in the dust removal system according to an embodiment of the present invention
- FIG. 4 is a view for explaining the center of gravity of the first cleaner according to an embodiment of the present invention is disclosed
- FIG. 11 is a view for explaining the lower surface of the dust container of the first cleaner according to the embodiment of the present invention.
- the structure of the first cleaner 200 will be described with reference to FIGS. 1 to 4 and 11 in order to facilitate understanding of the cleaner station 100 of the present invention.
- the first cleaner 200 may mean a cleaner manually operated by a user.
- the first cleaner 200 may mean a hand-held cleaner or a stick cleaner.
- the first cleaner 200 may be mounted on the cleaner station 100 .
- the first cleaner 200 may be supported by the cleaner station 100 .
- the first cleaner 200 may be coupled to the cleaner station 100 .
- the first cleaner 200 may include a body 210 .
- the main body 210 includes a main body housing 211 , a suction unit 212 , a dust separation unit 213 , a suction motor 214 , an air exhaust cover 215 , a handle 216 , an extension unit 217 , and an operation unit ( 218) may be included.
- the body housing 211 may form an exterior of the first cleaner 200 .
- the body housing 211 may provide a space for accommodating the suction motor 214 and the filter (not shown) therein.
- the body housing 211 may be configured in a shape similar to a cylinder.
- the suction part 212 may protrude outward from the main body housing 211 .
- the suction part 212 may be formed in a cylindrical shape with an open inside.
- the suction part 212 may communicate with the extension pipe 280 .
- the suction unit 212 may provide a flow path (hereinafter, may be referred to as a 'suction flow path') through which air containing dust may flow.
- a virtual center line passing through the center of the cylindrical suction unit 212 may be formed. That is, a virtual suction flow path center line a2 passing through the center of the suction flow path may be formed.
- the dust separation unit 213 may communicate with the suction unit 212 .
- the dust separator 213 may separate dust sucked into the dust through the suction part 212 .
- the dust separator 213 may communicate with the dust container 220 .
- the dust separation unit 213 may be a cyclone capable of separating dust by cyclone flow.
- the dust separation unit 213 may communicate with the suction unit 212 . Accordingly, the air and dust sucked in through the suction unit 212 spirally flow along the inner circumferential surface of the dust separation unit 213 . Accordingly, a cyclone flow may occur based on the central axis of the dust separation unit 213 .
- the central axis of the cyclone may form a virtual central axis (a4) of the cyclone extending in the vertical direction.
- the suction motor 214 may generate a suction force for sucking air.
- the suction motor 214 may be accommodated in the body housing 211 .
- the suction motor 214 may generate suction force by rotation.
- the suction motor 214 may be provided similarly to a cylindrical shape.
- a virtual motor axis line a1 extending from the central axis of the suction motor 214 may be formed.
- the air exhaust cover 215 may be disposed on one side in the axial direction of the body housing 211 .
- a filter for filtering air may be accommodated in the air exhaust cover 215 .
- a HEPA filter may be accommodated in the air exhaust cover 215 .
- An air outlet 215a for discharging air sucked by the suction force of the suction motor 214 may be formed in the air discharge cover 215 .
- a flow guide may be disposed on the air exhaust cover 215 .
- the flow guide may guide the flow of air discharged through the air outlet 215a.
- the handle 216 may be gripped by a user.
- the handle 216 may be disposed at the rear of the suction motor 214 .
- the handle 216 may be formed similarly to a cylindrical shape.
- the handle 216 may be formed in a curved cylindrical shape.
- the handle 216 may be disposed at a predetermined angle with the main housing 211 , the suction motor 214 , or the dust separation unit 213 .
- a virtual handle axis line a3 extending the central axis of the handle 216 may be formed.
- the shaft of the suction motor 214 may be disposed between the suction unit 212 and the handle 216 .
- the motor axis a1 may be disposed between the suction unit 212 and the handle 216 .
- the handle axis line a3 may be disposed at a predetermined angle with the motor axis line a1 or the suction flow path center line a2 . Accordingly, the handle axis line a3 may have an intersection that intersects the motor axis line a1 or the suction flow path center line a2 with each other.
- the motor axis line a1 , the suction flow path center line a2 , and the handle axis line a3 may be disposed on the same plane S1 .
- the overall center of gravity of the first cleaner 200 of the present invention may be symmetrically disposed with respect to the above-described plane S1.
- the front may refer to a direction in which the suction unit 212 is disposed with respect to the suction motor 214
- the rear may refer to a direction in which the handle 216 is disposed.
- the upper surface of the handle 216 may form a partial exterior of the upper surface of the first cleaner 200 . Through this, when the user grips the handle 216 , it is possible to prevent one component of the first cleaner 200 from coming into contact with the user's arm.
- the extension 217 may extend from the handle 216 toward the body housing 211 . At least a portion of the extension portion 217 may extend in a horizontal direction.
- the manipulation unit 218 may be disposed on the handle 216 .
- the manipulation unit 218 may be disposed on an inclined surface formed in an upper region of the handle 216 .
- the user may input an operation or stop command of the first cleaner 200 through the manipulation unit 218 .
- the first cleaner 200 may include a dust container 220 .
- the dust container 220 may communicate with the dust separator 213 .
- the dust container 220 may store the dust separated by the dust separator 213 .
- the dust container 220 may include a dust container body 221 , a discharge cover 222 , a dust container compression lever 223 , and a compressor (not shown).
- the dust container body 221 may provide a space for storing the dust separated by the dust separation unit 213 .
- the dust container body 221 may be formed similarly to a cylindrical shape.
- a virtual dust container axis line a5 extending from the central axis of the dust container body 221 may be formed.
- the dust container axis line a5 may be disposed on the same axis as the motor axis line a1 .
- the dustbin axis line a5 may also be disposed on a plane S1 formed including the motor axis line a1 , the suction flow path center line a2 , and the handle axis line a3 .
- a lower surface of the dust container body 221 may be partially open.
- a lower surface extension part 221a may be formed on the lower surface of the dust container body 221 .
- the lower surface extension 221a may be formed to block a portion of the lower surface of the dust container body 221 .
- the dust container 220 may include a discharge cover 222 .
- the discharge cover 222 may be disposed on a lower surface of the dust container 220 .
- the discharge cover 222 may selectively open and close the lower portion of the dust container 220 that is opened downward.
- the discharge cover 222 may include a cover body 222a and a hinge portion 222b.
- the cover body 222a may be formed to block a portion of the lower surface of the dust container body 221 .
- the cover body 222a may rotate downward based on the hinge part 222b.
- the hinge part 222b may be disposed adjacent to the battery housing 230 .
- a torsion spring 222d may be provided on the hinge portion 222b.
- the torsion spring 222d may be provided to surround the axis of the hinge part 222b, one end of the torsion spring 222d is supported by the dust container body 221, and the other end of the torsion spring 222d is It may be supported by the cover body 222a.
- the torsion spring 222d may be compressed, and when the discharge cover 222 is separated from the dustbin body 221 , the torsion spring 222d Due to the elastic force (restoring force) of the dust container body 221 , the cover body 222a may be supported while being rotated by a predetermined angle or more about the hinge part 222b as an axis.
- the discharge cover 222 may be coupled to the dust container 220 through a hook coupling.
- the dust container may further include a coupling lever 222c.
- the discharge cover 222 may be separated from the dust container 220 through the coupling lever 222c.
- the coupling lever 222c may be disposed in front of the dust container. Specifically, the coupling lever 222c may be disposed on the front side outer surface of the dust container 220 .
- the coupling lever 222c may elastically deform a hook extending from the cover body 222a to release the hook coupling between the cover body 222a and the dust container body 221 when an external force is applied.
- the discharge cover 222 When the discharge cover 222 is closed, the lower surface of the dust container 220 may be blocked (sealed) by the discharge cover 222 and the lower surface extension part 221a.
- the dust container 220 may include a dust container compression lever 223 .
- the dust container compression lever 223 may be disposed outside the dust container 220 or the dust separation unit 211 .
- the dust container compression lever 223 may be disposed to move up and down on the outside of the dust container 220 or the dust separation unit 211 .
- the dust container compression lever 223 may be connected to a compressor (not shown). When the dust container compression lever 223 moves downward by an external force, the compressor (not shown) may also move downward. Through this, it is possible to provide user convenience.
- the compressor (not shown) and the dust container compression lever 223 may be returned to their original positions by an elastic member (not shown). Specifically, when the external force applied to the dustbin compression lever 223 is removed, the elastic member may move the dustbin compression lever 223 and the compressor (not shown) upward.
- a compressor (not shown) may be disposed inside the dust container body 221 .
- the compressor may move in the inner space of the dust container body 221 . Specifically, the compressor may move up and down within the dust container body 221 . Through this, the compressor may compress the dust in the dust container body 221 downward. Also, when the discharge cover 222 is separated from the dust container body 221 to open the lower part of the dust container 220 , the compressor moves from the upper part to the lower part of the dust container 220 , and foreign substances such as residual dust in the dust container 220 . can be removed. Through this, the suction power of the cleaner may be improved by preventing residual dust from remaining in the dust container 220 . In addition, by preventing residual dust from remaining in the dust container 220 , it is possible to remove odors generated by the residue.
- the first cleaner 200 may include a battery housing 230 .
- the battery 240 may be accommodated in the battery housing 230 .
- the battery housing 230 may be disposed below the handle 216 .
- the battery housing 230 may have a hexahedral shape with an open bottom.
- the rear surface of the battery housing 230 may be connected to the handle 216 .
- the battery housing 230 may include a receiving part that is opened downward.
- the battery 230 may be detached from the receiving part of the battery housing 220 .
- the first cleaner 200 may include a battery 240 .
- the battery 240 may be detachably coupled to the first cleaner 200 .
- the battery 240 may be detachably coupled to the battery housing 230 .
- the battery 240 may be inserted into the battery housing 230 from below the battery housing 230 .
- the battery 240 may be integrally provided inside the battery housing 230 . At this time, the lower surface of the battery 240 is not exposed to the outside.
- the battery 240 may supply power to the suction motor 214 of the first cleaner 200 .
- the battery 240 may be disposed under the handle 216 .
- the battery 240 may be disposed at the rear of the dust container 220 . That is, the suction motor 214 and the battery 240 are arranged not to overlap in the vertical direction, and the arrangement height may also be different.
- the heavy suction motor 214 is disposed in front of the handle 216 , and the heavy battery 240 is disposed below the handle 216 , so that the first cleaner 200 ), the weight can be evenly distributed throughout. Through this, when the user holds the handle 216 and cleans, it is possible to prevent strain on the user's wrist.
- the lower surface of the battery 240 may be exposed to the outside. Since the battery 240 may be placed on the floor when the first cleaner 200 is placed on the floor, the battery 240 may be directly separated from the battery housing 230 . In addition, since the lower surface of the battery 240 is exposed to the outside to directly contact the external air of the battery 240 , the cooling performance of the battery 240 may be improved.
- the structure for attaching and detaching the battery 240 and the battery housing 230 can be reduced, so that the overall size of the first cleaner 200 is reduced. can be reduced, and weight reduction is possible.
- the first cleaner 200 may include an extension tube 250 .
- the extension pipe 300 may communicate with the cleaning module 260 .
- the extension tube 250 may communicate with the body 210 .
- the extension pipe 250 may communicate with the suction part 214 of the body 210 .
- the extension tube 250 may be formed in a long cylindrical shape.
- the body 210 may be connected to the extension tube 250 .
- the body 210 may be connected to the cleaning module 260 through the extension pipe 250 .
- the main body 210 may generate a suction force through the suction motor 214 , and may provide the suction force to the cleaning module 260 through the extension pipe 250 .
- External dust may be introduced into the body 210 through the cleaning module 260 and the extension pipe 250 .
- the first cleaner 200 may include a cleaning module 260 .
- the cleaning module 260 may communicate with the extension pipe 260 . Accordingly, external air may be introduced into the main body 210 of the first cleaner 200 through the cleaning module 260 and the extension pipe 250 by the suction force generated in the main body 210 of the first cleaner 200 . .
- the first cleaner 200 may be coupled to a side surface of the housing 110 .
- the main body 210 of the first cleaner 200 may be mounted on the coupling part 120 .
- the dustbin 220 and the battery housing 230 of the first cleaner 200 may be coupled to the coupling surface 121 , and the outer peripheral surface of the dustbin body 221 may be coupled to the dustbin guide surface 122 .
- the suction unit 212 may be coupled to the suction unit guide surface 126 of the coupling unit 120 .
- the central axis of the dust container 220 may be disposed in a direction parallel to the ground, and the extension tube 250 may be disposed along a direction perpendicular to the ground (refer to FIG. 2 ).
- Dust in the dust container 220 of the first cleaner 200 may be collected by the dust collecting unit 170 of the cleaner station 100 by gravity and the suction force of the dust collecting motor 191 .
- the dust in the dust bin can be removed without a separate operation by the user, user convenience can be provided.
- a virtual center of gravity plane ( S1) can be formed.
- the suction unit 212 may be disposed on the virtual extension surface of the center of gravity plane S1.
- the dust separation unit 213 may be disposed on the virtual extension surface of the center of gravity plane S1 .
- the suction motor 214 may be disposed on an imaginary extension surface of the center of gravity plane S1 .
- the handle 216 may be disposed on an imaginary extension surface of the center of gravity plane S1 .
- the dust container 220 may be disposed on the virtual extension surface of the center of gravity plane S1 .
- the overall center of gravity of the first cleaner 200 may be symmetrically disposed with respect to the center of gravity plane S1 .
- the dust removal system 10 may include a second cleaner 300 .
- the second cleaner 300 may mean a robot cleaner.
- the second cleaner 300 may automatically clean the area to be cleaned by sucking foreign substances such as dust from the floor while driving in the area to be cleaned by itself.
- the second cleaner 300 may include a distance sensor that detects a distance to an obstacle, such as furniture, office supplies, or walls, installed in the cleaning area, and a left wheel and a right wheel for moving the robot cleaner.
- the second cleaner 300 may be coupled to the cleaner station 100 . Dust in the second cleaner 300 may be collected by the dust collecting unit 170 through the second flow path 182 .
- FIG. 17 is a diagram for explaining the arrangement relationship between the center of gravity of the first cleaner and the cleaner station according to an embodiment of the present invention
- FIG. 18 is a schematic view of FIG. 17 viewed from a different direction.
- the cleaner station 100 of the present invention will be described as follows.
- a first cleaner 200 and a second cleaner 300 may be disposed in the cleaner station 100 .
- the first cleaner 200 may be coupled to the side of the cleaner station 100 .
- the main body of the first cleaner 200 may be coupled to the side of the cleaner station 100 .
- a second cleaner 200 may be coupled to a lower portion of the cleaner station 100 .
- the cleaner station 100 may remove dust from the dust container 220 of the first cleaner 200 .
- the cleaner station 100 may remove dust from a dust container (not shown) of the second cleaner 300 .
- the cleaner station 100 may include a housing 110 .
- the housing 110 may form the exterior of the cleaner station 100 .
- the housing 110 may be formed in a pillar shape including at least one outer wall surface.
- the housing 110 may be formed in a shape similar to a rectangular pole.
- the housing 110 may have a dust collecting unit 170 for storing dust therein and a space for accommodating the dust suction module 190 generating a flow force for collecting dust to the dust collecting unit 170 .
- the housing 110 may include a bottom surface 111 and an outer wall surface 112 .
- the bottom surface 111 may support the lower side in the gravity direction of the dust suction module 190 . That is, the bottom surface 111 may support the lower side of the dust collecting motor 191 of the suction module 190 .
- the bottom surface 111 may be disposed toward the ground.
- the bottom surface 111 may be disposed parallel to the ground, as well as inclined at a predetermined angle to the ground.
- the floor surface 111 may further include a ground support part (not shown) that increases an area in contact with the ground in order to prevent the cleaner station 100 from falling down and maintain a balance.
- the ground support part may be in the form of a plate extending from the bottom surface 111 , and one or more frames may be formed to protrude from the bottom surface 111 in the direction of the ground.
- the ground support part is arranged symmetrically in order to maintain left-right balance and front-rear balance based on the front surface on which the first cleaner 200 is mounted.
- the outer wall surface 112 may mean a surface formed along the direction of gravity, and may mean a surface connected to the bottom surface 111 .
- the outer wall surface 112 may mean a surface vertically connected to the bottom surface 111 .
- the outer wall surface 112 may be disposed to be inclined at a predetermined angle with the bottom surface 111 .
- the outer wall surface 112 may include at least one surface.
- the outer wall surface 112 may include a first outer wall surface 112a, a second outer wall surface 112b, a third outer wall surface 112c, and a fourth outer wall surface 112d.
- the first outer wall surface 112a may be disposed on the front side of the cleaner station 100 .
- the front may mean a surface to which the first cleaner 200 or the second cleaner 300 is coupled. Accordingly, the first outer wall surface 112a may form the exterior of the front surface of the cleaner station 100 .
- the direction may be defined while the first cleaner 200 is mounted on the cleaner station 100 .
- the surface including the extension line 212a of the suction part 212 may be referred to as a front surface (see FIG. 1 ). That is, in a state in which the first cleaner 200 is mounted on the cleaner station 100 , a portion of the suction unit 212 may be in contact with and coupled to the suction unit guide surface 126 , and the suction unit 212 may be the suction unit 212 . A portion not coupled to the sub-guide surface 126 may be disposed to be exposed to the outside from the first outer wall surface 112a.
- an imaginary extension line 212a of the suction unit 212 may be disposed on the first outer wall surface 112a, and the surface including the extension line 212a of the suction unit 212 may be called a front surface. have.
- the surface including the externally exposed surface of the lever pulling arm 161 may be referred to as a front surface.
- the outer surface of the cleaner station 100 through which the main body 210 of the first cleaner passes while the first cleaner 200 is mounted on the cleaner station 100 may be referred to as a front surface.
- the direction in which the first cleaner 200 is exposed to the outside of the cleaner station 100 may be referred to as a front.
- the direction in which the suction motor 214 of the first cleaner 200 is disposed may be referred to as a front.
- a direction opposite to the direction in which the suction motor 214 is disposed in the cleaner station 100 may be referred to as a rearward direction.
- the direction in which the intersection point of the handle axis a3 and the motor axis a1 intersects with respect to the cleaner station 100 may be referred to as a front.
- the direction in which the intersection point where the handle axis line a3 and the suction flow path center line a2 intersect is arranged may be referred to as a front.
- the direction in which the intersection point where the motor axis line a1 and the suction flow path center line a2 intersect is arranged may be referred to as a front.
- a direction opposite to the direction in which the intersection point is disposed with respect to the cleaner station 100 may be referred to as a rearward direction.
- a surface in a direction facing the front with respect to the inner space of the housing 110 may be referred to as a rear surface of the cleaner station 100 . Accordingly, the rear surface may refer to a direction in which the second outer wall surface 112b is formed.
- the left side may be referred to as a left side
- the right side may be referred to as a right side.
- the seat surface may mean a direction in which the third outer wall surface 112c is formed
- the right surface may indicate a direction in which the fourth outer wall surface 112d is formed.
- the first outer wall surface 112a may be formed not only in a flat shape, but also in a curved shape as a whole, or may be formed to include a curved surface in a portion thereof.
- the first outer wall surface 112a may have an appearance corresponding to the shape of the first cleaner 200 .
- the coupling part 120 may be disposed on the first outer wall surface 112a. With this configuration, the first cleaner 200 may be coupled to the cleaner station 100 and may be supported by the cleaner station 100 . A detailed configuration of the coupling unit 120 will be described later.
- the lever pulling unit 161 may be disposed on the first outer wall surface 112a.
- the lever pulling arm 161 of the lever pulling unit 160 may be mounted on the first outer wall surface 112a.
- an arm receiving groove in which the lever pulling arm 161 can be accommodated may be formed in the first outer wall surface 112a.
- the arm receiving groove may be formed to correspond to the shape of the lever pulling arm 161 . Therefore, when the lever pulling arm 161 is mounted in the arm receiving groove, the first outer wall surface 112a and the outer surface of the lever pulling arm 161 can form a continuous outer shape, and the According to the operation, the stroke may move so that the lever pulling arm 161 protrudes from the first outer wall surface 112a.
- a structure to which the second cleaner 300 can be coupled may be added to the first outer wall surface 112a. Accordingly, a structure corresponding to the shape of the second cleaner 300 may be added to the first outer wall surface 112a.
- a cleaner bottom plate to which the lower surface of the second cleaner 300 can be coupled may be additionally coupled to the first outer wall surface 112a.
- the cleaner bottom plate may be formed in a form connected to the bottom surface 111 .
- the second outer wall surface 112b may be a surface facing the first outer wall surface 112a. That is, the second outer wall surface 112b may be disposed on the rear surface of the cleaner station 100 .
- the rear surface may be a surface facing the surface to which the first cleaner 200 or the second cleaner 300 is coupled. Accordingly, the second outer wall surface 112b may form the exterior of the rear surface of the cleaner station 100 .
- the second outer wall surface 112b may be formed in a planar shape.
- the cleaner station 100 can be brought into close contact with the wall of the room, and the cleaner station 100 can be stably supported.
- a structure for mounting various types of cleaning modules 260 used in the first cleaner 200 may be added to the second outer wall surface 112b.
- a structure to which the second cleaner 300 can be coupled may be added to the second outer wall surface 112b. Accordingly, a structure corresponding to the shape of the second cleaner 300 may be added to the second outer wall surface 112b.
- a cleaner bottom plate (not shown) to which the lower surface of the second cleaner 300 can be coupled may be additionally coupled to the second outer wall surface 112b.
- the cleaner bottom plate (not shown) may be formed in a form connected to the bottom surface 111 . According to this configuration, when the second cleaner 300 is coupled to the cleaner bottom plate (not shown), the overall center of gravity of the cleaner station 100 is lowered to stably support the cleaner station 100 .
- the third outer wall surface 112c and the fourth outer wall surface 112d may refer to a surface connecting the first outer wall surface 112a and the second outer wall surface 112b.
- the third outer wall surface 112c may be disposed on the left surface of the station 100
- the fourth outer wall surface 112d may be disposed on the right surface of the cleaner station 100 .
- the third outer wall surface 112c may be disposed on the right surface of the cleaner station 100
- the fourth outer wall surface 112d may be disposed on the seat surface of the cleaner station 100 .
- the third outer wall surface 112c or the fourth outer wall surface 112d may be formed not only in a flat shape, but may also be formed in an overall curved shape, or may be formed to include a curved surface in a portion thereof.
- a structure to which the second cleaner 300 can be coupled may be added to the third outer wall surface 112c or the fourth outer wall surface 112d. Accordingly, a structure corresponding to the shape of the second cleaner 300 may be added to the third outer wall surface 112c or the fourth outer wall surface 112d.
- a cleaner bottom plate to which the lower surface of the second cleaner 300 can be coupled may be additionally coupled to the third outer wall surface 112c or the fourth outer wall surface 112d.
- the cleaner bottom plate may be formed in a form connected to the bottom surface 111 .
- FIG. 5 is a view for explaining a coupling part in a cleaner station according to an embodiment of the present invention
- FIG. 6 is a fixed unit, a door unit, a cover opening unit and a lever pulling unit in the cleaner station according to an embodiment of the present invention. A drawing for explaining the arrangement is disclosed.
- the coupling part 120 of the cleaner station 100 of the present invention will be described with reference to FIGS. 5 and 6 .
- the cleaner station 100 may include a coupling unit 120 to which the first cleaner 200 is coupled.
- the coupling part 120 is disposed on the first outer wall surface 112a, and the main body 210 of the first cleaner 200, the dust container 220, and the battery housing 230 may be coupled to each other.
- the coupling part 120 may include a coupling surface 121 .
- the coupling surface 121 may be disposed on a side surface of the housing 110 .
- the coupling surface 121 may mean a surface formed in a groove shape concave toward the inside of the cleaner station 100 on the first outer wall surface 112a. That is, the coupling surface 121 may mean a surface formed by forming a step with the first outer wall surface 112a.
- the first cleaner 200 may be coupled to the coupling surface 121 .
- the coupling surface 121 may be in contact with the dust container 220 of the first cleaner 200 and the lower surface of the battery housing 230 .
- the lower surface may mean a surface facing the ground when the user uses or puts the first cleaner 200 on the ground.
- the coupling between the coupling surface 121 and the dust container 220 of the first cleaner 200 may mean a physical coupling in which the first cleaner 200 and the cleaner station 100 are coupled and fixed. This may be a premise for flow path coupling through which the dust container 220 and the flow path unit 180 are in communication with each other to allow a fluid to flow.
- the coupling between the coupling surface 121 and the battery housing 230 of the first cleaner 200 may mean a physical coupling in which the first cleaner 200 and the cleaner station 100 are coupled and fixed. This may be a premise for an electrical coupling in which the battery 240 and the charging unit 128 are electrically connected.
- the angle between the coupling surface 121 and the ground may be a right angle.
- the coupling surface 121 may be disposed to be inclined at a predetermined angle to the ground. Through this, when the first cleaner 200 is coupled to the coupling surface 121 , the cleaner station 100 may be stably supported.
- a dust passage hole 121a may be formed in the coupling surface 121 to allow air from the outside of the housing 110 to flow into the coupling surface 121 .
- the dust passage hole 121a may be formed in a hole shape corresponding to the shape of the dust container 220 so that the dust of the dust container 220 flows into the dust collecting unit 170 .
- the dust passage hole 121a may be formed to correspond to the shape of the discharge cover 222 of the dust container 220 .
- the dust passage hole 121a may be formed to communicate with a first flow path 181 to be described later.
- the coupling part 120 may include a dust container guide surface 122 .
- the dust container guide surface 122 may be disposed on the first outer wall surface 112a.
- the dust container guide surface 122 may be connected to the first outer wall surface 112a.
- the dust container guide surface 122 may be connected to the coupling surface 121 .
- the dust bin guide surface 122 may be formed to have a shape corresponding to the outer surface of the dust bin 220 .
- the front outer surface of the dust container 220 may be coupled to the dust container guide surface 122 . Through this, it is possible to provide convenience in which the first cleaner 200 is coupled to the coupling surface 121 .
- the coupling part 120 may include a guide protrusion 123 .
- the guide protrusion 123 may be disposed on the coupling surface 121 .
- the guide protrusion 123 may protrude upward from the coupling surface 121 .
- Two guide protrusions 123 may be disposed to be spaced apart from each other. A distance between the two guide protrusions 123 spaced apart from each other may correspond to the width of the battery housing 230 of the first cleaner 200 . Through this, it is possible to provide convenience in which the first cleaner 200 is coupled to the coupling surface 121 .
- the coupling part 120 may include a sidewall 124 .
- the side wall 124 may mean wall surfaces disposed on both sides of the coupling surface 121 , and may be vertically connected to the coupling surface 121 .
- the side wall 124 may be connected to the first outer wall surface 112a.
- the side wall 124 may be connected to the dust container guide surface 122 . That is, the side wall 124 may form a surface connected to the dust container guide surface 122 . Through this, the first cleaner 200 can be stably accommodated.
- the coupling unit 120 may include a coupling sensor 125 .
- the coupling sensor 125 may detect whether the first cleaner 200 is coupled to the coupling unit 120 .
- the coupling sensor 125 may include a contact sensor.
- the coupling sensor 125 may include a micro switch.
- the coupling sensor 125 may be disposed on the guide protrusion 123 . Therefore, when the battery housing 230 or the battery 240 of the first cleaner 200 is coupled between the pair of guide protrusions 123, the coupling sensor 125 is brought into contact, and the coupling sensor 125 is the first 1 It may be detected that the cleaner 200 is physically coupled to the cleaner station 100 .
- the coupling sensor 125 may also include a non-contact sensor.
- the coupling sensor 125 may include an infrared sensor unit (IR sensor).
- the coupling sensor 125 may be disposed on the sidewall 124 . Accordingly, when the dust bin 220 or the main body 210 of the first cleaner 200 passes the side wall 124 and reaches the engaging surface 121 , the engaging sensor 125 detects the dust bin 220 or the main body 210 of the dustbin 220 or the main body 210 . The presence may be detected, and it may be detected that the first cleaner 200 is physically coupled to the cleaner station 100 .
- IR sensor infrared sensor unit
- the coupling sensor 125 may face the dust container 220 or the battery housing 230 of the first cleaner 200 .
- the coupling sensor 125 may be a means for determining whether the first cleaner 200 is coupled together with power being applied to the battery 240 of the first cleaner 200 .
- the coupling part 120 may include a suction part guide surface 126 .
- the suction unit guide surface 126 may be disposed on the first outer wall surface 112a.
- the suction unit guide surface 126 may be connected to the dust container guide surface 122 .
- the suction unit 212 may be coupled to the suction unit guide surface 126 .
- the shape of the suction part guide surface 126 may be formed to correspond to the shape of the suction part 212 . Through this, it is possible to provide convenience in which the main body 210 of the first cleaner 200 is coupled to the coupling surface 121 .
- the coupling part 120 may include a fixing member entry/exit hole 127 .
- the fixing member access hole 127 may be formed in the form of a long hole along the side wall 124 so that the fixing member 131 can enter and exit.
- the fixing member access hole 127 may be a rectangular hole formed along the side wall 124 . A detailed description of the fixing member 131 will be described later.
- the dust bin guide surface 122 when the user couples the first cleaner 200 to the coupling part 120 of the cleaner station 100 , the dust bin guide surface 122 , the guide protrusion 123 , and the suction part guide surface 126 are attached to each other. Accordingly, the main body 210 of the first cleaner 200 may be stably disposed on the coupling part 120 . Through this, it is possible to provide convenience in which the dust container 220 and the battery housing 230 of the first cleaner 200 are coupled to the coupling surface 121 .
- FIG. 7 is an exploded perspective view for explaining the fixed unit in the cleaner station according to the embodiment of the present invention
- FIG. 8 is the arrangement of the first cleaner and the fixed unit in the cleaner station according to the embodiment of the present invention.
- a drawing for explanation is disclosed
- FIG. 9 is a cross-sectional view for explaining a fixing unit in a cleaner station according to an embodiment of the present invention.
- the cleaner station 100 of the present invention may include a fixed unit 130 .
- the fixing unit 130 may be disposed on the side wall 124 . Also, the fixing unit 130 may be disposed on the back surface of the coupling surface 121 .
- the fixing unit 130 may fix the first cleaner 200 coupled to the coupling surface 121 . Specifically, the fixing unit 130 may fix the dust container 220 and the battery housing 230 of the first cleaner 200 coupled to the coupling surface 121 .
- the fixing unit 130 may include a fixing member 131 for fixing the dust container 220 and the battery housing 230 of the first cleaner 200 , and a fixing motor 133 for driving the fixing member 131 .
- the fixed unit 130 converts the rotational motion of the fixed unit gear 134 and the fixed unit gear 134 to transmit the power of the fixed unit motor 133 to the fixed member 131 as a reciprocating motion of the fixed unit 131 .
- It may further include a fixed link 135 for converting.
- the fixed unit 13 may further include a fixed unit housing 132 for accommodating the fixed unit motor 133 and the fixed unit gear 134 therein.
- the fixing member 131 may be disposed on the side wall 124 of the coupling unit 120 and may be provided to be reciprocally movable on the side wall 124 to fix the dust container 220 . Specifically, the fixing member 131 may be accommodated in the fixing member access hole 127 .
- the fixing members 131 may be respectively disposed on both sides of the coupling part 120 .
- two fixing members 131 may be arranged in pairs symmetrically with respect to the coupling surface 121 .
- the fixing member 131 may include a link coupling portion 131a, a moving panel 131b, and a moving sealer 131c.
- the link coupling part 131a may be disposed on one side of the movable panel 131b
- the movable sealer 131c may be disposed on the other side of the movable panel 131b.
- the link coupling part 131a is coupled to the fixing part link 135 at one side of the moving panel 131b.
- the link coupling portion 131a may be formed to protrude in the form of a cylindrical or circular pin from the connecting jaw 131bb in which one end of the movable panel 131b is bent and extended. Accordingly, the link coupling part 131a may be rotatably inserted and coupled to one end of the fixing part link 135 .
- the moving panel 131b may be connected to the link coupling unit 131a and reciprocally moved from the sidewall 124 toward the dust container 220 by driving the fixing unit motor 133 .
- the moving panel 131b may be provided to be reciprocally linearly movable along the guide frame 131d.
- one side of the movable panel 131b may be disposed to be accommodated in the space inside the first outer wall surface 112a, and the other side of the movable panel 131b may be disposed to be exposed on the side wall 124 . .
- the moving panel 131b may include a panel body 131ba, a connecting jaw 131bb, a first pressing part 131bc, and a second pressing part 131bd.
- the panel body 131ba may be formed in a flat plate shape.
- a connecting jaw 131bb may be disposed at one end of the panel body 131ba.
- a first pressing part 131bc may be formed at the other end of the panel body 131ba.
- the connecting jaw 131bb may be bent and extended from one end of the panel body 131ba toward the fixing motor 131 .
- a link coupling portion 131a may be formed to protrude from the front end of the connecting jaw 131bb.
- a frame through hole through which the guide frame 131d can pass may be formed in the connecting jaw 131bb.
- the frame through hole may be formed in a shape similar to the letter 'I'.
- the first pressing part 131bc is formed at the other end of the panel body 131ba and may be formed in a shape corresponding to the shape of the dust container 220 in order to airtight the dust container 220 .
- the first pressing part 131bc may be formed in a shape that can surround the cylinder. That is, the first pressing part 131bc may mean an end formed in a concave arc shape on the other side of the panel body 131ba.
- the second pressing part 131bd is connected to the first pressing part 131bc and may be formed in a shape corresponding to the shape of the battery housing 230 in order to airtight the battery housing 230 .
- the second pressing part 131bd may be formed in a shape that can press the battery housing 230 . That is, the second pressing part 131bd may mean an end formed in a straight line on the other side of the panel body 131ba.
- the moving sealer 131c is disposed at the distal end of the moving panel 131b in the reciprocating direction, and may seal the dust container 220 .
- the movable sealer 131c is coupled to the first pressing part 131bc, and when the first pressing part 131bc surrounds and presses the dust container 220, the dust container 220 and the first pressing part 131bc The space between them can be sealed.
- the movable sealer 131c is coupled to the second pressing part 131bd, and when the second pressing part 131bd presses the battery housing 230, between the battery housing 230 and the second pressing part 131bd. of space can be sealed.
- the fixing unit 130 may further include a guide frame 131d coupled to the housing 110 to pass through the movable panel 131b and guide the movement of the fixing member 131 .
- the guide frame 131d may be an 'I'-shaped frame passing through the connecting jaw 131bb. With this configuration, the moving panel 131b may reciprocate linearly along the guide frame 131d.
- the fixing unit housing 132 may be disposed inside the housing 110 .
- the fixing unit housing 132 may be disposed on the back surface of the coupling surface 121 .
- the fixing unit housing 132 may form a space capable of accommodating the fixing unit gear 134 therein.
- the fixing part housing 132 may accommodate the fixing part motor 133 .
- the fixing unit housing 132 may include a first fixing unit housing 132a, a second fixing unit housing 132b, a link guide hole 132c, and a motor receiving unit 132d.
- the first fixing unit housing 132a and the second fixing unit housing 132b may be coupled to each other to form a space for accommodating the fixing unit gear 134 therein.
- the first fixing unit housing 132a may be disposed in a direction facing the outside of the cleaner station 100
- the second fixing unit housing 132b may be disposed in a direction facing the inside of the cleaner station 100 .
- the first fixing unit housing 132a may be disposed in a direction toward the coupling surface 121
- the second fixing unit housing 132b may be disposed in a direction toward the second outer wall surface 112b.
- the link guide hole 132c may be formed in the first fixing unit housing 132a.
- the link guide hole 132c may refer to a hole formed to guide the movement path of the fixing part link 135 .
- the link guide hole 132c may mean an arc-shaped hole formed along the circumferential direction with respect to the rotation axis of the fixed gear 134 .
- Two link guide holes 132c may be formed to guide a pair of fixing part links 135 that move the pair of fixing members 132 .
- the two link guide holes 132c may be formed symmetrically with each other.
- the motor accommodating part 132d may be provided to accommodate the fixed part motor 133 .
- the motor accommodating part 132d may be formed to protrude from the first fixing part housing 132a in a cylindrical shape to accommodate the fixing part motor 133 therein.
- the fixing part motor 133 may provide power to move the fixing member 131 .
- the fixed part motor 133 may rotate the fixed part gear 134 in a forward or reverse direction.
- the forward direction may refer to a direction in which the fixing member 131 is moved from the inside of the side wall 124 in a direction in which the dust container 220 is pressed.
- the reverse direction may mean a direction in which the fixing member 131 moves from a position in which the dust container 220 is pressed to the inside of the side wall 124 .
- the forward direction may be opposite to the reverse direction.
- the fixed part gear 134 may be coupled to the fixed part motor 133 and move the fixed member 131 by using the power of the fixed part motor 133 .
- the fixed gear 134 may include a driving gear 134a, a connection gear 134b, a first link rotation gear 134c, and a second link rotation gear 134d.
- the drive gear 134a may be inserted and coupled to the shaft of the fixed part motor 133 .
- the drive gear 134a may be fixedly coupled to the shaft of the fixed part motor 133 .
- the driving gear 134a may be integrally formed with the shaft of the fixed part motor 133 .
- connection gear 134b may mesh with the driving gear 134a and the first link rotation gear 134c.
- the first link rotation gear 134c may be rotatably coupled to the other end of the fixing part link 135 , and may transmit a rotational force transmitted from the driving gear 134a to the fixing part link 135 .
- the first link rotation gear 134c may include a rotation shaft 134ca, a rotation surface 134cb, a gear tooth 134cc, and a link coupling part 134cd.
- the rotation shaft 134ca may be coupled to and supported by the first fixing unit housing 132a and the second fixing unit housing 132b.
- the rotation surface 134cb may be formed in the form of a disk having a predetermined thickness with respect to the rotation axis 134ca.
- the gear teeth 134cc are formed on the outer peripheral surface of the rotation surface 134cb, and may be meshed with the connection gear 134b. Also, the gear teeth 134cc may be meshed with the second link rotation gear 134d.
- the first link rotation gear 134c receives power provided from the fixed part motor 133 through the driving gear 134a and the connection gear 134b, and transmits it to the second link rotation gear 134d.
- the link coupling part 134cd may be formed to protrude from the rotation surface 134cb in a cylindrical or circular pin shape along the axial direction.
- the link coupling part 134cd may be rotatably coupled to the other end of the fixing part link 135 .
- the link coupling part 134cd may pass through the link guide hole 132c and be coupled to the other end of the fixing part link 135 .
- the second link rotation gear 134d may mesh with the first link rotation gear 134c and rotate in the opposite direction to the first link rotation gear 134c.
- the second link rotation gear 134d may be rotatably coupled to the other end of the fixing part link 135 , and may transmit a rotational force transmitted from the driving gear 134a to the fixing part link 135 .
- the second link rotation gear 134d may include a rotation shaft 134da, a rotation surface 134db, a gear tooth 134dc, and a link coupling part 134dd.
- the rotation shaft 134da may be coupled to and supported by the first fixing unit housing 132a and the second fixing unit housing 132b.
- the rotation surface 134db may be formed in the form of a disk having a predetermined thickness around the rotation shaft 134da.
- the gear teeth 134dc are formed on the outer peripheral surface of the rotation surface 134db, and may be meshed with the first link rotation gear 134c. With this configuration, the second link rotation gear 134d may receive power provided from the fixed part motor 133 through the driving gear 134a, the connection gear 134b and the first link rotation gear 134c. .
- the link coupling part 134dd may be formed to protrude from the rotation surface 134db in a cylindrical or circular pin shape along the axial direction.
- the link coupling part 134dd may be rotatably coupled to the other end of the fixing part link 135 .
- the link coupling part 134dd may pass through the link guide hole 132c and be coupled to the other end of the fixing part link 135 .
- the fixing part link 135 may link the fixing part gear 134 and the fixing member 131 and convert the rotation of the fixing part gear 134 into a reciprocating movement of the fixing member 131 .
- One end of the fixing part link 135 may be coupled to the link coupling part 131a of the fixing member 131 , and the other end may be coupled to the link coupling parts 134cd and 134dd of the fixing part gear 134 .
- the fixing part link 135 may include a link body 135a, a first link connection part 135b, and a second link connection part 135c.
- the link body 135a may be formed in a frame shape in which a central portion is bent. This is to improve the efficiency of power transmission by changing the power transmission angle.
- a first link connection part 135b may be disposed at one end of the link body 135a, and a second link connection part 135c may be disposed at the other end of the link body 135a.
- the first link connection part 135b may be formed to protrude in a cylindrical shape from one end of the link body 135a.
- a hole into which the link coupling part 131a can be inserted and coupled may be formed in the first link connection part 135b.
- the second link connection part 135c may be formed to protrude in a cylindrical shape from the other end of the link body 135a. In this case, the protruding height of the second link connecting portion 135c may be higher than the protruding height of the first link connecting portion 135b.
- a hole into which the link coupling parts 134cd and 134dd can be inserted and coupled may be formed in the second link connection part 135c.
- the fixed sealer 136 may be disposed on the dust container guide surface 122 to seal the dust container 220 when the cleaner 200 is coupled thereto. With this configuration, when the dust container 220 of the cleaner 200 is coupled, the fixed sealer 136 can be pressed by the weight of the cleaner 200 , and the dust container 220 and the dust container guide surface 122 are sealed. can be
- the fixed sealer 136 may be disposed on an imaginary extension line of the movable sealer 131c. With this configuration, when the fixing member motor 133 is operated and the fixing member 131 presses the dust container 220 , the perimeter of the dust container 220 at the same height can be sealed. That is, the fixed sealer 136 and the movable sealer 131c may seal the outer peripheral surface of the dust container 220 disposed on concentric circles.
- the fixed sealer 136 may be disposed on the dust container guide surface 122 in a bent line shape corresponding to the arrangement of the cover opening unit 150 to be described later.
- the fixing unit 130 may fix the main body 210 of the first cleaner 200 .
- the fixing unit motor 133 is configured to operate the fixing member 131 . ) to fix the body 210 of the first cleaner 200 .
- Control of the fixed unit 130 will be described later while explaining the control unit 400 of the cleaner station 100 of the present invention.
- the amount of vibration and shock generated when the discharge cover 222 of the main body 210 of the fixed first vacuum cleaner 200 is separated from the dust container 220 is increased to remove the dust stored in the dust container 220 as a cleaner.
- the efficiency of moving to the dust collecting unit 170 of the station 100 may be improved. That is, the suction power of the cleaner may be improved by preventing residual dust from remaining in the dust container. In addition, by preventing residual dust from remaining in the dust bin, it is possible to remove odors generated by the residue.
- FIG. 10 is a view for explaining the relationship between the first cleaner and the door unit in the cleaner station according to the embodiment of the present invention.
- the door unit 140 of the present invention will be described with reference to FIGS. 5, 6 and 10 as follows.
- the cleaner station 100 of the present invention may include a door unit 140 .
- the door unit 140 may be configured to open and close the dust passage hole 121a.
- the door unit 140 may include a door 141 , a door motor 142 , and a door arm 143 .
- the door 141 is hinged to the coupling surface 121 and may open and close the dust passage hole 121a.
- the door 141 may include a door body 141a, a hinge part 141b, and an arm coupling part 141c.
- the door body 141a may be formed in a shape capable of blocking the dust passage hole 121a.
- the door body 141a may be formed similarly to a disk shape. Based on the state in which the door body 141a blocks the dust passage hole 121a, the hinge part 141b is disposed on the upper side of the door body 141a, and the arm coupling part 141c is disposed on the lower side of the door body 141a. ) can be placed.
- the door body 141a may be formed to seal the dust passage hole 121a.
- the outer surface of the door body 141a exposed to the outside of the cleaner station 100 is formed to have a diameter corresponding to the diameter of the dust passage hole 121a, and is disposed inside the cleaner station 100 .
- the side surface is formed to have a larger diameter than the diameter of the dust passage hole 121a.
- a step may be generated between the outer surface and the inner surface.
- at least one reinforcing rib for connecting the hinge part 141b and the arm coupling part 141c to the inner surface and strengthening the supporting force of the door body 141a may be formed to protrude.
- the hinge part 141b may be a means for hingedly coupling the door 141 to the coupling surface 121 .
- the hinge part 141b may be disposed at an upper end of the door body 141a and may be coupled to the coupling surface 121 .
- the arm coupling part 141c may be a means to which the door arm 143 is rotatably coupled.
- the arm coupling part 141c may be disposed on the lower side of the inner surface, and the door arm 143 may be rotatably coupled thereto.
- the door motor 142 may provide power to rotate the door 141 .
- the door motor 142 may rotate the door arm 143 in a forward or reverse direction.
- the forward direction may mean a direction in which the door arm 143 pulls the door 141 . Accordingly, when the door arm 143 rotates in the forward direction, the dust passage hole 121a may be opened.
- the reverse direction may mean a direction in which the door arm 143 pushes the door 141 . Accordingly, when the door arm 143 rotates in the reverse direction, the dust passage hole 121a may be at least partially closed.
- the forward direction may be opposite to the reverse direction.
- the door arm 143 may connect the door 141 and the door motor 142 , and may open and close the door 141 using power generated from the door motor 142 .
- the door arm 143 may include a first door arm 143a and a second door arm 143b.
- One end of the first door arm 143a may be coupled to the door motor 142 .
- the first door arm 143a may be rotated by the power of the door motor 142 .
- the other end of the first door arm 143a may be rotatably coupled to the second door arm 143b.
- the first door arm 143a may transmit the force transmitted from the door motor 142 to the second door arm 143b.
- One end of the second door arm 143b may be coupled to the first door arm 143a.
- the other end of the second door arm 143b may be coupled to the door 141 .
- the second door arm 143b may open or close the dust passage hole 121a by pushing or pulling the door 141 .
- the door unit 140 may further include a door opening/closing detection unit 144 .
- the door opening/closing detection unit 144 may be provided inside the housing 100 and may detect whether the door 141 is in an open state.
- the door opening/closing detection unit 144 may be disposed at both ends of the rotational movement region of the door arm 143 , respectively.
- the door opening/closing detection units 144 may be respectively disposed at both ends of the moving region of the door 141 .
- the door open/close detection unit 144 may detect that the door is opened. Also, when the door arm 143 moves to the predetermined closing position DP2 or the door 141 is opened to the predetermined position, the door opening/closing detecting unit 144 may detect that the door is opened.
- the door opening/closing detection unit 144 may include a contact sensor.
- the door opening/closing detection unit 144 may include a micro switch.
- the door opening/closing detection unit 144 may include a non-contact sensor.
- the door opening/closing detection unit 144 may include an infrared sensor unit (IR sensor).
- the door unit 140 selectively opens and closes at least a portion of the coupling surface 121 to communicate the outside of the first outer wall surface 112a with the first flow path 181 and/or the dust collecting unit 170 .
- the door unit 140 may be opened together when the discharge cover 222 of the first cleaner 200 is opened. Also, when the door unit 140 is closed, the discharge cover 222 of the first cleaner 200 may be closed together.
- the door motor 142 may rotate the door 141 to couple the discharge cover 222 to the dust container body 221 .
- the door motor 142 rotates the door 141 by rotating the door 141 to rotate the door 142 based on the hinge part 141b, and the door 142 rotating based on the hinge part 141b causes the discharge cover ( 222) may be pushed toward the dust container body 221 .
- FIG. 11 is a view for explaining a lower surface of a dust bin of a first cleaner according to an embodiment of the present invention
- FIG. 12 is a relationship between the first cleaner and the cover opening unit in the cleaner station according to the first embodiment of the present invention.
- a diagram for explaining the is disclosed
- FIG. 13 is a perspective view for explaining a cover opening unit in the cleaner station according to the first embodiment of the present invention.
- the cover opening unit 150 of the first embodiment of the present invention will be described with reference to FIGS. 5, 6 and 11 to 13 .
- the cleaner station 100 of the present invention may include a cover opening unit 150 .
- the cover opening unit 150 may be disposed below the coupling part 120 in the direction of gravity, and may open the discharge cover 222 of the first cleaner 200 .
- the cover opening unit 150 may include a push protrusion 151 , a cover opening motor 152 , a cover opening gear 153 , a support plate 154 , and a gear box 155 .
- the push protrusion 151 may move to press the coupling lever 222c when the first cleaner 200 is coupled.
- the push protrusion 151 may be disposed on the dust container guide surface 122 .
- a protrusion moving hole may be formed in the dust container guide surface 122 , and the push protrusion 151 may pass through the protrusion moving hole and be exposed to the outside.
- the push protrusion 151 may be disposed at a position where the coupling lever 222c can be pressed when the first cleaner 100 is coupled. That is, the coupling lever 222c may be disposed on the protrusion moving hole. In addition, the coupling lever 222c may be disposed on the moving region of the push protrusion 151 .
- the push protrusion 151 may reciprocate linearly to press the coupling lever 222c. Specifically, the push protrusion 151 may be coupled to the gear box 155 to guide linear movement. The push protrusion 151 may be coupled to the cover opening gear 153 and move together by the movement of the cover opening gear 153 .
- the push protrusion 151 may include a protrusion 151a, a protrusion support plate 151b, a connection part 151c, a gear coupling block 151d, and a guide frame 151e.
- the protrusion 151a may be formed to press the coupling lever 222c.
- the protrusion 151a may be formed in a protrusion shape similar to a hook or a right-angled triangle or trapezoid.
- the protrusion support plate 151b is connected to the protrusion 151a and may be formed in the form of a flat plate supporting the protrusion 151a.
- the protrusion support plate 151b may be provided to be movable along the upper surface of the gear box 155 .
- the connection part 151c may connect the protrusion support plate 151b and the gear coupling block 151d.
- the connection part 151c may be formed to have a narrower width than the protrusion support plate 151b and the gear coupling block 151d.
- connection part 151c may be disposed to pass through the protrusion through hole 155b formed in the gear box 155 .
- the gear coupling block 151d may be coupled to the cover opening gear 153 .
- the gear coupling block 151d may be fixedly coupled to the cover opening gear 153 using a member such as a screw or a piece.
- the gear coupling block 151d is accommodated in the gearbox 155 and may linearly reciprocate inside the gearbox 155 by the movement of the cover opening gear 153 .
- the guide frame 151e may be formed to protrude from both sides of the gear coupling block 151d, respectively.
- the guide frame 151e may be formed to protrude from the gear coupling block 151d in the form of a square pillar.
- the guide frame 151e may be disposed to pass through the guide hole 155c formed in the gear box 155 . Accordingly, the guide frame 151e may linearly reciprocate along the guide hole 155c when the gear coupling block 151d moves linearly.
- the cover opening motor 152 may provide power to move the push protrusion 151 .
- the cover opening motor 152 may rotate the motor shaft 152a in a forward direction or a reverse direction.
- the forward direction may mean a direction in which the push protrusion 151 presses the coupling lever 222c.
- the reverse direction may mean a direction in which the push protrusion 151 pressing the coupling lever 222c is returned to its original position. The forward direction may be opposite to the reverse direction.
- the cover opening motor 152 may be disposed outside the gear box 155 .
- the motor shaft 152a of the cover opening motor 152 may be coupled to the cover opening gear 153 through the motor through hole 155e of the gear box 155 .
- the motor shaft 152a may be coupled to the open driving gear 153a to rotate together.
- the cover opening gear 153 is coupled to the cover opening motor 152 , and may move the push protrusion 151 using the power of the cover opening motor 152 .
- the cover opening gear 153 may be accommodated in the gear box 155 .
- the cover opening gear 153 may be coupled to the cover opening motor 152 to receive power.
- the cover opening gear 153 may be coupled to the push protrusion 151 to move the push protrusion 151 .
- the cover opening gear 153 may include an opening driving gear 153a and an opening driven gear 153b. Specifically, the open drive gear 153a may receive rotational power of the cover opening motor 152 by being inserted and coupled to the shaft 152a of the cover opening motor 152 .
- the open driven gear 153b may be engaged with the open driving gear 153a and may be engaged with the gear coupling block 151d of the push protrusion 151 to move the push protrusion 151 .
- the open driven gear 153b may be formed in the form of a rack gear to mesh with the open driving gear 153a in the form of a pinion gear.
- the open driven gear 153b may include a body portion 153ba coupled to the gear coupling block 151d.
- the open driven gear 153b may include a gear portion 153bb that is formed below the body portion 153ba and meshes with the open drive gear 153a.
- the open driven gear 153b may include guide shafts 153bc protruding from both sides of the body portion 153ba.
- the open driven gear 153b may include a gear wheel 153bd to which the guide shaft 153bc is inserted and rolled along the guide rail 155d formed on the inner surface of the gearbox 155 .
- the support plate 154 may be provided to support one surface of the dust container 220 . Specifically, the support plate 154 may be formed to extend from the coupling surface 121 . The support plate 154 may be formed to protrude from the coupling surface 121 toward the center of the dust passage hole 121a.
- the support plate 154 may be formed to protrude symmetrically from the coupling surface 121 , but is not limited thereto, and supports the lower surface extension 221a of the first cleaner 200 or the lower surface of the dust container 220 . It can include all of the various possible forms.
- the lower surface of the dust container 220 may be disposed in the dust passage hole 121a, and the support plate 154 may hold the lower surface of the dust container 220 .
- a lower surface of the dust container 220 may include a discharge cover 222 to be opened and closed, and may include a cylindrical dust container body 221 and a lower surface extension 221a extending therefrom.
- the support plate 154 may be in contact with and support the lower surface extension portion 221a.
- the push protrusion 151 may press the engagement lever 222c of the sales cover 222 .
- the discharge cover 222 may be provided with a torsion spring (222d).
- the discharge cover 222 may be rotated by a predetermined angle or more by the elastic force of the torsion spring 222d, and may be supported in the rotated position. Accordingly, the discharge cover 222 may be opened, and the dust passage hole 121a may communicate with the inside of the dust container 220 . That is, the flow passage 180 and the inside of the dust container 220 may communicate with each other by the opening of the discharge cover 222 , and the cleaner station 100 and the first cleaner 200 may be coupled to allow the flow of fluid. possible (euro bond).
- the gear box 155 is coupled to the inner surface of the housing 110 , is disposed below the coupling part 120 in the direction of gravity, and the cover opening gear 153 may be accommodated therein. Specifically, a space for accommodating the cover opening gear 153 is formed inside the box body 155a, and the connection part 151c of the push protrusion 151 passes through the upper surface of the box body 155a. A through hole 155b is formed. In addition, guide holes 155c are formed in the left and right side surfaces of the box body 155a in the form of a long hole, and the guide frame 151e of the push protrusion 151 may be disposed to pass therethrough.
- guide rails 155d may be formed on the inner side of the left and right side surfaces of the box body 155a.
- the guide rail 155d may support the open driven gear 153b and guide the movement of the open driven gear 153b.
- a motor through hole 155e is formed in one side of the gear box 155 so that the shaft 152a of the cover opening motor 152 can pass therethrough.
- a cover open detection unit 155f may be disposed on a side surface of the gear box 155 .
- the cover open detection unit 155f may include a contact sensor.
- the cover open detection unit 155f may include a micro switch.
- the cover open detection unit 155f may include a non-contact sensor.
- the cover open detection unit 155f may include an infrared sensor unit. Accordingly, the cover open detection unit 155f may detect the position of the guide frame 151e, and through this, the position of the push protrusion 151 may be detected.
- the cover open detection unit 155f may be disposed at both ends of the long hole-shaped guide hole 155c, respectively. Therefore, when the push protrusion 151 moves to a position where the discharge cover 222 can be opened by pressing the coupling lever 222c, the guide frame 151e is positioned at a predetermined cover opening point CP1, and the cover opening is detected. The part 155f may detect that the discharge cover 222 is opened. In addition, when the push protrusion 151 returns to its original position, the guide frame 151e is positioned at a predetermined cover non-open point CP2, and the cover open detection unit 155f has the push protrusion 151 returned to its original position. can detect
- FIG. 14 is a cross-sectional view illustrating a second embodiment of a cover opening unit in a cleaner station according to an embodiment of the present invention.
- the cover opening unit 1150 in an embodiment of the present invention may further include a support protrusion 1156 , a support protrusion transfer gear 1157 , and a support protrusion transfer link 1158 .
- the support protrusion 1156 may linearly reciprocate to open and close a portion of the dust passage hole 121a in association with the movement of the support protrusion transfer gear 1157 .
- the support protrusion 1156 may be provided to support one surface of the dust container 220 . Specifically, the support protrusion 1156 moves linearly on the coupling surface 121 according to the operation of the cover opening motor 1152 to contact the lower surface extension part 221a. That is, while the push protrusion 1151 moves to press the discharge cover 222 , the support protrusion 1156 moves through the dust passage hole 121a on the coupling surface 121 to support the lower surface extension 221a. You can move upwards towards the center.
- the support projection transfer gear 1157 may mesh with the cover opening gear 1153 , and may move the support projection 1156 through the power of the cover opening motor 1152 .
- the support projection transfer gear 1157 may be provided in the form of a rack gear so as to be meshed with the open driving gear 1153a.
- the support projection transfer link 1158 may link the support projection 1156 and the support projection transfer gear 1157 . Specifically, one end of the support protrusion transfer link 1158 may be rotatably coupled to the support protrusion transfer gear 1157 , and the other end may be coupled to the support protrusion 1156 . With this configuration, when the cover opening motor 1152 is operated in the cover opening direction, the support projection transfer gear 1157 may move toward the outside of the cleaner station 100, and the support projection transfer link 1158 rotates while The support protrusion 1156 may be pushed upward in the direction of gravity. Accordingly, the support protrusion 1156 may move upward from the coupling surface 121 toward the center of the dust passage hole 121a.
- the support projection transfer gear 1157 may be moved toward the inside of the cleaner station 100 , and the support projection transfer link 1158 rotates while the support projection 1156 is rotated. ) can be lowered downward in the direction of gravity.
- FIG. 15 is a cross-sectional view for explaining a third embodiment of the cover opening unit in the cleaner station according to the embodiment of the present invention.
- the cover opening unit 2150 in another embodiment of the present invention may further include a support projection 2156 , a support projection transfer gear 2157 , a support projection transfer block 2158 and a return spring 2159 .
- the support protrusion 2156 and the support protrusion transfer gear 2157 are the same as the support protrusion 1156 and the support protrusion transfer gear 1157 of the second embodiment of the present invention, so they can be used.
- the support projection transfer block 2158 is disposed on the upper surface of the support projection transfer gear 2157 and may include an inclined surface for guiding the linear movement of the support projection 2156 .
- the return spring 2159 may provide a restoring force to the support protrusion 2156 when the support protrusion 2156 linearly moves.
- the return spring 2159 may be a coil spring.
- One end of the return spring 2159 may be coupled to the upper surface of the support projection transfer gear 2157 .
- the other end of the return spring 2159 may be coupled to the lower side of the support protrusion 2156 .
- FIG. 20 is a view for explaining a fourth embodiment of a cover opening unit in a cleaner station according to an embodiment of the present invention
- FIG. 21 is a view of FIG. 20 viewed from another angle.
- the cover opening unit 3150 of the present invention will be described with reference to FIGS. 5, 6, 11, 20 and 21 as follows.
- the cleaner station 100 of the present invention may include a cover opening unit 3150 .
- the cover opening unit 3150 may be disposed on the coupling part 120 , and may open the discharge cover 222 of the first cleaner 200 .
- the cover opening unit 3150 may include a push protrusion 3151 , a cover opening motor 3152 , a cover opening gear 3153 , a support plate 3154 , a gear box 3155 , and a cover opening detection unit 3156 . .
- the cover opening motor 3152 and the support plate 3154 have the same structure and effect as the cover opening motor 152 and the support plate 154 in the first embodiment of the present invention, so they can be used. .
- the push protrusion 3151 may move to press the coupling lever 222c when the first cleaner 200 is coupled.
- the push protrusion 3151 may be disposed on the dust container guide surface 122 .
- a protrusion moving hole may be formed on the dust container guide surface 122 , and the push protrusion 3151 may pass through the protrusion moving hole and be exposed to the outside.
- the push protrusion 3151 may be disposed at a position where the coupling lever 222c can be pressed when the first cleaner 100 is coupled. That is, the coupling lever 222c may be disposed on the protrusion moving hole. In addition, the coupling lever 222c may be disposed on the moving region of the push protrusion 3151 .
- the push protrusion 3151 may reciprocate linearly to press the coupling lever 222c. Specifically, the push protrusion 3151 may be coupled to the gear box 3155 to guide linear movement. The push protrusion 3151 may be coupled to the cover opening gear 3153 and move together by the movement of the cover opening gear 3153 .
- the push protrusion 3151 may include a protrusion 3151a, a protrusion support plate 3151b, a connection part 3151c, and a gear coupling block 3151d.
- the protrusion 3151a may be formed to press the coupling lever 222c.
- the protrusion 3151a may be formed in a protrusion shape similar to a hook or a right-angled triangle or trapezoid.
- the protrusion support plate 3151b is connected to the protrusion 3151a and may be formed in the form of a flat plate supporting the protrusion 3151a.
- the protrusion support plate 3151b may be movably provided along the upper surface of the gear box 3155 .
- connection part 3151c may connect the protrusion support plate 3151b and the gear coupling block 3151d.
- the connection part 3151c may be formed to have a narrower width than the protrusion support plate 3151b and the gear coupling block 3151d.
- the connection part 3151c may be disposed to pass through the protrusion through hole 3155c formed in the gear box 3155 .
- the gear coupling block 3151d may be coupled to the cover opening gear 3153 .
- the gear coupling block 3151d may be fixedly coupled to the cover opening gear 3153 using a member such as a screw or a piece.
- the gear coupling block 3151d is accommodated in the gearbox 3155 , and may linearly reciprocate inside the gearbox 3155 by movement of the cover opening gear 3153 .
- the cover opening gear 3153 is coupled to the cover opening motor 3152 , and may move the push protrusion 3151 using the power of the cover opening motor 3152 .
- the cover opening gear 3153 may be accommodated in the gear box 3155 .
- the cover opening gear 3153 may be coupled to the cover opening motor 3152 to receive power.
- the cover opening gear 3153 may be coupled to the push protrusion 3151 to move the push protrusion 3151 .
- the cover opening gear 3153 may include an open driving gear 3153a and an open driven gear 3153b. Specifically, the open drive gear 3153a may receive rotational power of the cover opening motor 3152 by inserting and coupling the shaft 3152a of the cover opening motor 3152 .
- the open driven gear 3153b may be meshed with the open driving gear 3153a and may be coupled with the gear coupling block 3151d of the push protrusion 3151 to move the push protrusion 3151 .
- the open driven gear 3153b may be formed in the form of a rack gear to mesh with the open driving gear 3153a in the form of a pinion gear.
- the open driven gear 3153b may include a body portion 3153ba coupled to the gear coupling block 3151d.
- the open driven gear 3153b may include a gear portion 3153bb formed below the body portion 3153ba to mesh with the open driving gear 3153a.
- the open driven gear 3153b may include a gear wheel 3153bc coupled to both sides of the body 3153ba and rolling along the guide rail 3155b formed on the inner surface of the gearbox 3155.
- the open driven gear 3153b may include a contact protrusion 3153bd protruding from one side surface of the body 3153ba and protruding by a length capable of contacting the cover open detection unit 3156 .
- the contact protrusion 3153bd may be provided to be linearly movable together with the body 3153ba according to the rotation of the open driving gear 3153a , and may be disposed to be in contact with the cover open detection unit 3156 .
- the contact protrusion 3153bd may be disposed below the body portion 3153ba in the direction of gravity, and may be disposed farther than the gear portion 3153bb with respect to the outer circumferential surface 181a of the first flow path 181 .
- the gear wheel 3153bc guides the linear reciprocating motion of the body portion 3155ba while rolling along the guide rail 3155b.
- the contact protrusion 3153bd contacts the cover open detection unit 3156 and adjusts the positions of the open driven gear 3153b and the push protrusion 3151 to the cover opening detection unit 3156. and to the control unit 400 .
- the gear box 3155 may be disposed inside the housing 110 , and may be disposed below the coupling part 120 in the direction of gravity.
- the gear box 3155 may be disposed on the outer circumferential surface 181a of the first flow path 181 .
- the gear box 3155 may be integrally formed with the pipe of the first flow path 181 , and may be formed to protrude outwardly in the radial direction from the outer circumferential surface 181a of the first flow path 181 pipe, and the inside It is possible to form a space to accommodate the cover opening gear (3153).
- the left and right side surfaces of the gear box 3155 of this embodiment guide the linear movement of the push protrusion 3151.
- the hole is not formed.
- the gear box 3155 may minimize a space (gap) through which air may escape, and may prevent loss of suction power when the dust collecting motor 191 is operated.
- a cover opening gear 3153 may be accommodated inside the gear box 3155 .
- a space for accommodating the cover opening gear 153 is formed inside the gear box 3155, and the connection part 3151c of the push protrusion 3151 passes through the upper surface of the gear box 3155.
- a protrusion through hole 3155c may be formed.
- a driving gear support 3155a and a guide rail 3155b may be formed on the inner side of the left and right side surfaces of the gearbox 3155 .
- the driving gear support 3155a may protrude from the inner surface of one side of the gear box 3155 to support the open driving gear 3153a.
- the driving gear support 3155a may be formed in a cylindrical shape in which an upper portion of the driving gear support 3155a is opened in the direction of gravity.
- the shaft of the driving gear support 3155a formed in a cylindrical shape may be disposed in a direction perpendicular to one side of the gear box 3155 .
- at least one end of the driving gear support 3155a in the axial direction is formed in a closed shape, and a hole may be formed in the center so that the shaft of the open driving gear 3153a is inserted.
- the other axial end of the driving gear support 3155a is formed in an open shape, which may mean a hole formed in one side of the gear box 3155, and the shaft of the cover opening motor 3152 penetrates through it.
- a space coupled with the open drive gear 3153a may be provided.
- the cover opening motor 3152 is disposed on the outside of one side of the gear box 3155, and the driving gear support 3155a receives the open driving gear 3153a rotatably to accommodate the cover opening unit 3150. can be stably supported.
- the guide rails 3155b may protrude from the inner surfaces of both sides of the gearbox 3155 to support the open driven gear 3153b and guide the movement of the open driven gear 3153b.
- the cover open detection unit 3156 may be accommodated in the gear box 3155 and disposed at a position capable of contacting the contact protrusion 3153bd of the open driven gear 3153b.
- the cover open detection unit 3156 may include a contact sensor.
- the cover open detection unit 3156 may include a micro switch.
- the cover open detection unit 3156 may include a non-contact sensor.
- the cover open detection unit 3156 may include an infrared sensor unit (IR sensor). Accordingly, the cover open detection unit 3156 may detect the position of the contact protrusion 3153bd, and through this, the position of the push protrusion 3151 may be detected.
- IR sensor infrared sensor unit
- the cover open detection unit 3156 may be disposed to detect that the push protrusion 3151 is in an initial position (a position before the push protrusion 3151 presses the coupling lever 222c).
- the cover open detection unit 3156 is preferably disposed in a position far from the first flow path 181 in the inside of the gear box 3155 . That is, when the maximum length of the gear box 3155 from the pipe outer circumferential surface 181a of the first flow path 181 is L, between the cover open detection unit 3156 and the pipe outer circumferential surface 181a of the first flow path 181 . It is preferable that the shortest distance of is more than 0.5L.
- the cover open detection unit 3156 is preferably disposed farther than the rotation axis of the open driving gear 3153a with respect to the outer circumferential surface 181a of the pipe of the first flow path 181 .
- the cover opening detection unit 3156 is a contact protrusion (3153bd) and contact can be detected.
- the cover open detection unit 3156 may transmit a signal for contact with the contact protrusion 3153bd to the control unit 400, and the control unit 400 receives this signal to move the push protrusion 3151 to the initial position. It can be judged that there is
- the cover open detection unit 3156 detects that the contact with the contact protrusion 3153bd has stopped, and , a signal for stopping contact with the contact protrusion 3153bd may be transmitted to the controller 400 .
- the controller 400 may receive this signal, operate a timer, and calculate the time after the contact with the contact protrusion 3153bd is stopped.
- the control unit 400 may determine that the cover opening unit 150 has malfunctioned. Then, the control unit 400 may drive the cover opening motor 3152 again to return the contact protrusion 3153bd to the initial position.
- the control unit 400 may instruct the display unit 500 to display an error or a content that an inspection is required.
- this embodiment can determine the position of the push protrusion 3151 with one cover open detection unit 3156 and , it is possible to determine whether the cover opening unit 3150 malfunctions.
- the cover opening unit 3150 may further include a support pipe 3157 .
- the support tube 3157 includes a first support tube 3157a and a second support tube 3157b.
- the first support tube 3157a and the second support tube 3157b may be coupled to the inner surface of the gear box 3155 , and support the cover open detection unit 3156 to determine the position of the cover open detection unit 3156 .
- the first support pipe 3157a may be disposed below the gravity direction of the cover open detection unit 3156 and may contact and support the lower surface of the cover open detection unit 3156 .
- the second support pipe 3157b may be disposed at the rear of the cover open detection unit 3156 (in the direction of the first flow path 181 ), and may contact and support the cover open detection unit 3156 .
- the support tube 3157 maintains the position of the cover open detection unit 3156 to stably detect the position of the push protrusion 151 .
- first support tube 3157a and the second support tube 3157b may accommodate electric wires therein.
- first support tube 3157a and the second support tube 3157b are formed in a square tube shape, and the electric wire may be accommodated therein.
- the electric wire connected to the cover open detection unit 3156 may be disposed inside the gear box 3155 through the first support tube 3157a and the second support tube 3157b.
- the cover open detection unit 3156 may receive power stably and may transmit an electrical signal to the control unit 400 .
- the cover opening units 150 , 1150 , 2150 , and 3150 can selectively open and close the lower portion of the dust container 220 by separating the coupling lever 222c from the dust container 220 .
- the dust in the dust container 220 may be collected by the dust collecting unit 170 due to the impact that the discharge cover 222 is separated from the dust container 220 .
- the cover opening motor 152 moves the push protrusions 151 , 1151 , 2151 , and 3151 to the discharge cover 222 . can be separated from the dust container 220 .
- dust in the dust container 220 may be collected by the dust collecting unit 170 .
- the user can open the dust container 220 without separately opening the discharge cover 222 of the first cleaner by the cover opening unit 150 , thereby improving convenience.
- FIG. 16 is a view for explaining the relationship between the first cleaner and the lever pulling unit in the cleaner station according to the embodiment of the present invention.
- lever pulling unit 160 of the present invention will be described as follows.
- the cleaner station 100 of the present invention may include a lever pulling unit 160 .
- the lever pulling unit 160 may be disposed on the first outer wall surface 112a of the housing 110 .
- the lever pulling unit 160 may compress the dust inside the dust container 220 by pressing the dust container compression lever 223 of the first cleaner 200 .
- the lever pulling unit 160 may include a lever pulling arm 161 , an arm gear 162 , a stroke driving motor 163 , a rotation driving motor 164 , and an arm movement detecting unit 165 .
- the lever pulling arm 161 may be accommodated in the housing 110 and may be provided to enable stroke movement and rotation movement.
- the lever pulling arm 161 may be accommodated in the arm receiving groove formed in the first outer wall surface 112a. At this time, if a virtual cylinder is drawn with the lower end of the arm receiving groove as an axis, the dust container compression lever 223 may be disposed within the virtual cylinder.
- the lever pulling arm 161 may be provided to press the dust container compression lever 223 .
- the lever pulling arm 161 may be formed to correspond to the shape of the arm receiving groove.
- the lever pulling arm 161 may be formed in a shape similar to an elongated bar.
- One surface of the lever pulling arm 161 may be formed so as to form a continuous surface with the first outer wall surface 112a while being accommodated in the arm receiving groove.
- An arm gear 162 may be coupled to one side of the other surface of the lever pulling arm 161 .
- the arm gear 162 may be coupled to the lever pulling arm 161 , the stroke driving motor 163 and the rotation driving motor 164 .
- the female gear 162 may be formed similarly to a kind of shaft.
- One end of the arm gear 162 may be fixedly coupled to the lever pulling arm 161 .
- the female gear 162 may be provided in the form of a worm wheel at the other end of the shaft. Accordingly, the female gear 162 may be engaged with the rotation drive motor 164 in the form of a worm gear at the other end of the shaft.
- the shaft of the female gear 162 may be formed in the form of a cylindrical worm.
- the shaft of the female gear 162 may be meshed with the stroke driving motor 163 in the form of a worm gear.
- the stroke driving motor 163 may provide power for moving the lever pulling arm 161 to the stroke.
- the stroke driving motor 163 may rotate in a forward direction or a reverse direction.
- the forward direction may mean a direction in which the lever pulling arm 161 moves away from the housing 110 of the cleaner station 100 .
- the reverse direction may mean a direction in which the lever pulling arm 161 is pulled toward the cleaner station 100 .
- the forward direction may be opposite to the reverse direction.
- the rotation driving motor 164 may provide power to rotate the lever pulling arm 161 .
- the rotation driving motor 164 may rotate in a forward or reverse direction.
- the forward direction may refer to a direction in which the lever pulling arm 161 rotates to a position in which the dust container compression lever 223 can be pressed.
- the reverse direction may be a direction opposite to the forward direction.
- the arm movement detection unit 165 may be disposed inside the housing 110 .
- the arm movement detection unit 165 may be disposed on a movement path of the shaft of the arm gear 162 .
- the arm movement detection unit 165 may be respectively disposed at an initial position LP1 and a maximum stroke movement position LP2 of the shaft of the arm gear 162 and a position LP3 when the compression lever 223 is pulled. .
- the arm movement detection unit 165 may include a touch sensor.
- the arm movement detection unit 165 may include a micro switch.
- the arm movement detection unit 165 may include a non-contact sensor.
- the arm movement detection unit 165 may include an infrared sensor unit (IR sensor). With such a configuration, the arm movement detection unit 165 may detect the stroke position of the arm gear 162 .
- IR sensor infrared sensor unit
- the arm movement detection unit 165 may be disposed at the other end of the shaft of the arm gear 162 .
- the arm movement detection unit 165 may be disposed at the other end of the arm gear 162 provided in the form of a worm wheel to detect a rotational position.
- the arm movement detection unit 165 may include a touch sensor.
- the arm movement detection unit 165 may include a micro switch.
- the arm movement detection unit 165 may include a non-contact sensor.
- the arm movement detection unit 165 may include an infrared sensor unit (IR sensor) or a Hall sensor (Hall sensor).
- the arm movement detecting unit 165 may detect that the lever pulling arm 161 is in the initial position. Also, the arm movement detecting unit 165 may detect that the lever pulling arm 161 has moved as far as possible from the housing 110 . Also, the arm movement detecting unit 165 may detect that the lever pulling arm 161 is rotated to pull the compression lever 223 . Also, the arm movement detecting unit 165 may detect that the lever pulling arm 161 pulls the compression lever 223 . Also, the arm movement detecting unit 165 may detect that the lever pulling arm 161 rotates to its original position after pulling the compression lever 223 .
- the compressor 224 moves downward to compress the dust in the dust container 220 .
- the compression unit The 250 may allow the residual dust in the dust container 125 to be collected by the dust separator 130 .
- a compressor (not shown) compresses the dust in the dust container 220 downward, and the discharge cover 222 is separated from the dust container 220 . Dust in the dust container 220 may be collected by the dust separator 130 .
- the cleaner station 100 may include a dust collecting unit 170 .
- the dust collecting unit 170 may be disposed inside the housing 110 .
- the dust collecting unit 170 may be disposed below the coupling unit 120 in the direction of gravity.
- the dust collecting unit 170 may include a roll vinyl (not shown).
- the roll vinyl may be fixed to the housing 110 and unfold downward by the load of dust falling from the dust container 220 .
- the cleaner station 100 may include an abutment (not shown).
- the junction part may be disposed on the housing 110 .
- the junction may be disposed in an upper region of the dust collecting unit 170 .
- the joint can cut and bond the upper area of the roll vinyl where dust has been collected.
- the bonding portion may gather the roll vinyl into a central area and hot wire bonding the upper area of the roll vinyl.
- the bonding portion may include a first bonding member (not shown) and a second bonding member (not shown).
- a first bonding member (not shown) moves in a first direction through the first bonding driving unit 174
- a second bonding member (not shown) moves in a first direction perpendicular to the first direction through the second bonding driving unit 175 . It can move in 2 directions.
- the cleaner station 100 may include a flow path 180 .
- the flow path 180 may connect the first cleaner 200 or the second cleaner 300 and the dust collecting part 170 to each other.
- the flow path unit 180 may include a first flow path 181 , a second flow path 182 , and a flow path switching valve 183 .
- the first flow path 181 may connect the dust container 220 of the first cleaner 200 and the dust collecting unit 170 .
- the first flow path 181 may be disposed on the rear side of the coupling surface 121 .
- the first flow path 181 may mean a space between the dust container 220 of the first cleaner 200 and the dust collecting unit 170 .
- the first flow path 181 may be a space formed rearward from the dust passage hole 121a, and may be a flow passage through which dust and air may flow by being bent downward in the dust passage hole 121a. Dust in the dust container 220 of the first cleaner 200 may move to the dust collecting unit 170 through the first flow path 181 .
- the second flow path 182 may connect the second cleaner 300 and the dust collecting unit 170 . Dust in the second cleaner 300 may move to the dust collecting unit 170 through the second flow path 182 .
- the flow path switching valve 183 may be disposed between the dust collecting unit 170 and the first flow path 181 and the second flow path 182 .
- the flow path switching valve 183 may selectively open and close the first flow path 181 and the second flow path 182 connected to the dust collecting unit 170 . Through this, it is possible to prevent a decrease in suction force generated by the opening of the plurality of flow paths 181 and 182 .
- the flow path switching valve 183 connects the first flow path 181 with the dust collecting unit 170 , and the second flow path 182 . and the dust collecting unit 170 may be disconnected.
- the flow path switching valve 183 separates the connection between the first flow path 181 and the dust collecting unit 170 , and the second flow path 182 . ) and the dust collecting unit 170 may be connected.
- the flow path switching valve 183 connects the first flow path 181 with the dust collecting unit 170 . Then, by disconnecting the connection between the second flow path 182 and the dust collecting unit 170 , the dust in the dust container 220 of the first cleaner 200 may be removed first. Thereafter, the flow path switching valve 183 disconnects the connection between the first flow path 181 and the dust collecting unit 170 , and connects the second flow path 182 and the dust collecting unit 170 to the second cleaner 300 . dust can be removed. Through this, the convenience of using the first cleaner 200 manually operated by the user may be increased.
- the cleaner station 100 may include a dust suction module 190 .
- the dust suction module 190 may include a dust collection motor 191 , a first filter 192 , and a second filter (not shown).
- the dust collecting motor 191 may be disposed under the dust collecting unit 170 .
- the dust collecting motor 191 may generate a suction force in the first flow path 181 and the second flow path 182 . Through this, the dust collecting motor 191 may provide a suction force capable of sucking the dust in the dust bin 220 of the first cleaner 200 and the dust in the second cleaner 300 .
- the dust collecting motor 191 may generate a suction force by rotation.
- the dust collecting motor 191 may be formed in a shape similar to a cylinder.
- the first filter 192 may be disposed between the dust collecting unit 170 and the dust collecting motor 191 .
- the first filter 192 may be a pre-filter.
- the second filter may be disposed between the dust collecting motor 191 and the outer wall surface 112 .
- the second filter may be a HEPA filter.
- a virtual balance maintaining space R1 extending vertically from the ground and penetrating the dust collecting unit 170 and the dust suction module 190 may be formed.
- the balance maintaining space R1 may be a virtual space extending vertically from the ground, and at least the dust collecting motor 191 may be accommodated in the balance maintaining space R1 . That is, the balance maintaining space R1 may be a virtual cylindrical space accommodating the dust collecting motor 191 therein.
- the virtual extension surface of the center of gravity plane (S1) in the present invention is configured to penetrate the balance space (R1).
- the cleaner station 100 can stably maintain a balance while the first cleaner 200 is mounted on the cleaner station 100 of the present invention.
- the first cleaner 200 in a state in which the first cleaner 200 is coupled to the cleaner station 100 , the first cleaner 200 , the first flow path 181 , the dust collecting unit 170 , and the dust suction module 190 . ) will be described as follows.
- the dust container 220 formed in a cylindrical shape may have an axis parallel to the ground.
- the dust container 220 may be disposed perpendicular to the first outer wall surface 112a and the coupling surface 121 . That is, the dustbin axis line a5 may be disposed perpendicular to the first outer wall surface 112a and the coupling surface 121 , or may be disposed parallel to the ground. Also, the dust container axis line a5 may be disposed perpendicular to the axis of the balance maintaining space R1 .
- the extension tube 250 may be disposed along a direction perpendicular to the ground. And, the extension pipe 250 may be disposed parallel to the first outer wall surface (112a). That is, the suction flow path center line a2 may be disposed parallel to the first outer wall surface 112a and may be disposed perpendicular to the ground. Also, the suction flow path center line a2 may be disposed parallel to the axis of the balance maintaining space R1 .
- a first flow path 181 is disposed at the rear of the dust container 220 to communicate with the first flow path 181 when the dust container 220 is opened.
- the first flow path 181 may be bent downward from the dust container 220 .
- a dust collecting unit 170 may be disposed below the first flow path 181 .
- a dust suction module 190 may be disposed below the dust collecting unit 170 .
- the first cleaner 200 may be mounted on the cleaner station 100 in a state in which the extension tube 250 and the cleaning module 260 are mounted. Also, even when the first cleaner 200 is mounted on the cleaner station 100 , it is possible to minimize the space occupied by the horizontal plane.
- the present invention in a state in which the first cleaner 200 is mounted on the cleaner station 100 , the outer circumferential surface of the dust container 220 is surrounded by the dust container guide surface 122 , and the dust container 220 is connected to the coupling part 120 . ), so the dust in the dust bin is not visible from the outside.
- the cleaner station 100 may include a charging unit 128 .
- the charging unit 128 may be disposed in the coupling unit 120 .
- the charging unit 128 may be disposed on the coupling surface 121 .
- the position of the charging unit 128 may be arranged at a position facing the charging terminal provided in the battery 240 of the first cleaner 200 .
- the charging unit 128 may be electrically connected to the first cleaner 200 coupled to the coupling unit 120 .
- the charging unit 128 may supply power to the battery of the first cleaner 200 coupled to the coupling unit 120 . That is, when the first cleaner 200 is physically coupled to the coupling surface 121 , the charging unit 128 may be electrically coupled to the first cleaner 200 .
- the charging unit 128 may include a lower charging unit (not shown) disposed in the lower region of the housing 110 .
- the lower charging unit may be electrically connected to the second cleaner 300 coupled to the lower region of the housing 110 .
- the second charger may supply power to the battery of the second cleaner 300 coupled to the lower region of the housing 110 .
- the cleaner station 100 may include a side door (not shown).
- the side door may be disposed in the housing 110 .
- the side door may selectively expose the dust collecting unit 170 to the outside. Through this, the user can easily remove the dust collecting unit 170 from the cleaner station 100 .
- FIG. 19 is a block diagram illustrating a control configuration in a cleaner station according to an embodiment of the present invention.
- the cleaner station 100 includes a coupling unit 120 , a fixing unit 130 , a door unit 140 , a cover opening unit 150 , a lever pulling unit 160 , and a dust collecting unit 170 .
- the control unit 400 for controlling the flow path unit 180 and the dust suction module 190 may be further included.
- the control unit 400 may be composed of a printed circuit board and elements mounted on the printed circuit board.
- the coupling sensor 125 When the coupling sensor 125 detects the coupling of the first cleaner 200 , the coupling sensor 125 may transmit a signal indicating that the first cleaner 200 is coupled to the coupling unit 120 . At this time, the control unit 400 may receive the signal of the coupling sensor 125 and determine that the first cleaner 200 is physically coupled to the coupling unit 120 .
- the control unit 400 may determine that the first cleaner 200 is electrically coupled to the coupling unit 120 . .
- the controller 400 may determine that the first cleaner 200 is coupled to the cleaner station 120 .
- the controller 400 may operate the fixing part motor 133 to fix the first cleaner 200 .
- the fixing detecting unit 137 may transmit a signal indicating that the first cleaner 200 is fixed.
- the controller 400 may receive a signal indicating that the first cleaner 200 is fixed from the fixation detection unit 137 and determine that the first cleaner 200 is fixed.
- the control unit 400 may stop the operation of the fixing unit motor 133 .
- the controller 400 may release the fixing of the first cleaner 200 by rotating the fixing motor 133 in the reverse direction.
- the controller 400 When it is determined that the first cleaner 200 is fixed to the coupling part 120 , the controller 400 operates the door motor 142 to open the door 141 of the cleaner station 100 .
- the door open/close detection unit 144 may transmit a signal indicating that the door 141 is opened.
- the control unit 400 may receive a signal that the door 141 is opened from the door open/close detection unit 137 and determine that the door 141 is opened. When it is determined that the door 141 is opened, the controller 400 may stop the operation of the door motor 142 .
- the controller 400 may rotate the door motor 142 in the reverse direction to close the door 141 .
- the controller 400 may operate the cover opening motors 152 , 1152 , 2152 , and 3152 to open the discharge cover 222 of the first cleaner 200 .
- the dust passage hole 121a may communicate with the inside of the dust container 220 . Accordingly, the cleaner station 100 and the first cleaner 200 may be coupled to allow the flow of a fluid (a flow path coupling).
- control unit 400 opens the discharge cover 222 in the following order and pushes it.
- the position of the protrusion 151 may be detected.
- the cover open detection unit 155f may detect contact with the guide frame 151e. At this time, the cover open detection unit 155f may transmit a signal for contact with the guide frame 151e to the control unit 400 , and the control unit 400 receives this signal to move the push protrusion 151 to the initial position. It can be judged to be in
- the cover open detection unit 155f may detect a contact with the guide frame 151e. At this time, the cover open detection unit 155f may transmit a signal for contact with the guide frame 151e to the control unit 400, and the control unit 400 receives this signal and determines that the discharge cover 222 is opened. can do. When it is determined that the discharge cover 222 is opened, the control unit 400 may stop the operation of the cover opening motor 152 .
- the guide frame 151e is positioned at the predetermined cover non-opening point CP2, and the cover opening detection unit 155f). may detect that the push protrusion 151 has returned to its original position (initial position).
- control unit 400 opens the discharge cover 222 in the following order, and malfunctions. can detect
- the cover opening detection unit 3156 is the contact protrusion 3153bd ) and contact can be detected.
- the cover open detection unit 3156 may transmit a signal for contact with the contact protrusion 3153bd to the control unit 400, and the control unit 400 receives this signal to move the push protrusion 3151 to the initial position. It can be judged that there is
- control unit 400 may drive the cover opening motor 3152 in a forward direction.
- the push protrusion 3151 may be moved from the initial position to a position for pressing the coupling lever 222c.
- the cover open detection unit 3156 detects that the contact with the contact protrusion 3153bd is stopped, and the control unit A signal for stopping contact with the contact protrusion 3153bd may be transmitted to the 400 . Then, the control unit 400 may receive this signal and determine that the push protrusion 3151 has deviated from the initial position, and may determine that the cover opening unit 3150 has been operated normally.
- the control unit 400 may measure the time after driving the cover opening motor 3152 in the forward direction through a timer (not shown), or measure the time after the push protrusion 3151 deviates from the initial position.
- the control unit 400 includes the push protrusion 3151 based on the rotation speed of the cover opening motor 3152 and the moving distance of the push protrusion 3151 from the initial position until the coupling lever 222c is pressed.
- the time to be changed can be preset and stored. Accordingly, the control unit 400 may drive the cover opening motor 3152 in the forward direction for a cover opening time t1 equal to or longer than the time required until the coupling lever 222c is pressed.
- control unit 400 may drive the cover opening motor 3152 in the reverse direction after the cover opening time t1 has elapsed. As a result, the push protrusion 3151 may return to the initial position again.
- the control unit 400 may drive the cover opening motor 3152 until the cover opening detection unit 3156 detects contact with the contact protrusion 3153bd.
- the protrusion reciprocating time t2 required until the push protrusion 3151 starts from the initial position, presses the coupling lever 222c, and then returns to the initial position may be preset and stored. have.
- a signal for contact with the contact protrusion 3153bd (a signal indicating that the push protrusion 3151 has returned to the initial position) is not received from the cover open detection unit 3156 until the protrusion reciprocating time t2 has elapsed. If not, the control unit 400 may determine that the cover opening unit 150 has malfunctioned. At this time, the controller 400 may drive the cover opening motor 3152 again to return the contact protrusion 3153bd to the initial position. In addition, the control unit 400 may instruct the display unit 500 to display an error or a content that an inspection is required.
- control unit 400 may end the driving of the cover opening motor 3152 .
- the controller 400 may operate the stroke driving motor 163 and the rotation driving motor 164 to control the lever pulling arm 161 to pull the dust container compression lever 223 .
- the arm movement detection unit 165 may transmit a signal when detecting that the arm gear 162 reaches the maximum stroke movement position LP2 , and the control unit 400 receives a signal from the arm movement detection unit 165 . Thus, the operation of the stroke driving motor 163 may be stopped.
- the arm movement detection unit 165 may transmit a signal when detecting that the arm gear 162 rotates to a position where the compression lever 223 can be pulled, and the control unit 400 controls the arm movement detection unit 165 . By receiving the signal, the operation of the rotation driving motor 164 may be stopped.
- controller 400 may reversely operate the stroke driving motor 163 to pull the lever pulling arm 161 .
- the arm movement detection unit 165 when the arm movement detection unit 165 detects that the position LP3 when the compression lever 223 is pulled, it may transmit a signal, and the control unit 400 controls the arm movement detection unit 165 .
- the operation of the stroke driving motor 163 may be stopped by receiving the signal.
- control unit 400 may reversely rotate the stroke driving motor 163 and the rotation driving motor 164 to return the lever pulling arm 161 to its original position.
- the control unit 400 may operate the first bonding driving unit 174 and the second bonding driving unit 175 to bond the roll vinyl (not shown).
- the controller 400 may control the flow path switching valve 183 of the flow path unit 180 .
- the controller 400 may selectively open and close the first flow path 181 and the second flow path 182 .
- the control unit 400 may operate the dust collecting motor 191 to suck the dust inside the dust container 220 .
- the control unit 400 may operate the display unit 500 to display the emptying state of the dust bin and the charging state of the first cleaner 200 or the second cleaner 300 .
- the cleaner station 100 of the present invention may include a display unit 500 .
- the display unit 500 may be disposed in the housing 110 as well as in a separate display device, or may be provided in a terminal including a mobile phone.
- the display unit 500 may be configured to include at least one of a display panel capable of outputting characters and/or figures, and a speaker capable of outputting a voice signal and sound. The user can easily grasp the status of the current administration, the remaining time, etc. through the information output through the display unit 500 .
Abstract
Description
Claims (20)
- 하우징;상기 하우징의 내부에 수용되고, 청소기의 먼지통 내부의 먼지를 흡입하는 흡입력을 발생시키는 집진 모터;상기 하우징의 내부에 수용되고, 상기 먼지통 내부의 먼지를 포집하는 먼지 집진부;상기 하우징에 배치되고, 상기 청소기가 결합되는 결합면을 포함하는 결합부; 및상기 결합부에 배치되고, 상기 먼지통의 배출 커버를 개방시키는 커버 개방 유닛;을 포함하고,상기 커버 개방 유닛은,상기 청소기 결합 시, 이동되는 푸쉬 돌기;상기 푸쉬 돌기를 이동시키는 동력을 제공하는 커버 개방 모터; 및상기 커버 개방 모터와 결합되고, 상기 커버 개방 모터의 동력을 이용하여 상기 푸쉬 돌기를 이동시키는 커버 개방 기어;를 포함하는 청소기 스테이션.
- 제1항에 있어서,상기 커버 개방 기어는,상기 커버 개방 모터의 샤프트와 결합되어 상기 커버 개방 모터의 동력을 전달하는 개방 구동 기어; 및상기 개방 구동 기어와 치합되고, 상기 푸쉬 돌기와 결합되어 상기 푸쉬 돌기를 이동시키는 개방 피동 기어;를 포함하는 청소기 스테이션.
- 제2항에 있어서,상기 개방 피동 기어는,상기 개방 구동 기어와 치합되도록 랙기어 형태로 형성되는 기어부;를 포함하는 청소기의 스테이션.
- 제1항에 있어서,상기 커버 개방 유닛은,상기 먼지통을 지지하도록 상기 결합면에서 연장 형성된 지지판;을 더 포함하는 청소기 스테이션.
- 제4항에 있어서,상기 결합면은,상기 먼지통의 먼지가 상기 먼지 집진부로 유입되도록 상기 먼지통의 형태에 대응하여 홀 형태로 형성되는 먼지 통과 홀;을 포함하고,상기 지지판은,상기 결합면에서 상기 먼지 통과 홀의 일부를 막도록 돌출 형성되는 것을 특징으로 하는 청소기 스테이션.
- 제1항에 있어서,상기 커버 개방 유닛은,상기 먼지통을 지지하도록 상기 결합면에서 직선 왕복 운동 가능하게 구비된 지지돌기;를 더 포함하는 청소기 스테이션.
- 제6항에 있어서,상기 커버 개방 유닛은,상기 커버 개방 기어와 치합되고, 상기 커버 개방 모터의 동력을 통하여 상기 지지돌기를 이동시키는 지지돌기 이송 기어;를 더 포함하는 청소기 스테이션.
- 제7항에 있어서,상기 결합면은,상기 먼지통의 먼지가 상기 먼지 집진부로 유입되도록 상기 먼지통의 형태에 대응하여 홀 형태로 형성되는 먼지 통과 홀;을 포함하고,상기 지지돌기는,상기 지지돌기 이송 기어의 이동에 연동하여 상기 먼지 통과 홀의 일부를 개폐할 수 있도록 직선 왕복 운동하는 것을 특징으로 하는 청소기 스테이션.
- 제7항에 있어서,상기 커버 개방 유닛은,상기 지지돌기와 상기 지지돌기 이송 기어를 링크 결합시키는 지지돌기 이송 링크;를 더 포함하는 청소기 스테이션.
- 제7항에 있어서,상기 커버 개방 유닛은,상기 지지돌기 이송 기어의 상측 면에 배치되고, 상기 지지판의 직선 이동을 가이드하는 경사면을 포함하는 지지판 이송 블럭;을 더 포함하는 청소기 스테이션.
- 제7항에 있어서,상기 커버 개방 유닛은,상기 지지돌기의 직선 이동 시, 상기 지지돌기에 복원력을 제공하는 리턴 스프링;을 더 포함하는 청소기 스테이션.
- 제2항에 있어서,상기 커버 개방 유닛은,상기 결합부의 중력 방향 하측에 배치되며, 상기 커버 개방 기어가 내부에 수용되는 기어 박스;를 더 포함하는 청소기 스테이션.
- 제12항에 있어서,상기 푸쉬 돌기는,상기 먼지통의 결합 레버를 누를 수 있도록 돌기 형태로 형성된 돌기부; 및상기 기어 박스 내부에 수용되고, 상기 커버 개방 기어의 이동에 의하여 상기 기어 박스의 내부에서 직선 왕복 운동하는 기어 결합 블록;을 포함하는 청소기 스테이션.
- 제13항에 있어서,상기 푸쉬 돌기는,상기 돌기부를 지지하고, 상기 기어 박스의 상면을 따라 이동하는 돌기 지지판;을 더 포함하는 청소기 스테이션.
- 제14항에 있어서,상기 푸쉬 돌기는,상기 돌기 지지판과 상기 기어 결합 블록을 연결시키고, 상기 돌기 지지판 및 상기 기어 결합 블록보다 폭이 좁게 형성된 연결부;를 더 포함하는 청소기 스테이션.
- 제12항에 있어서,상기 커버 개방 유닛은,상기 기어 박스의 내부에 배치되고, 상기 푸쉬 돌기의 위치를 감지하는 커버 개방 감지부;를 더 포함하고,상기 개방 피동 기어는,상기 개방 구동 기어의 회전에 따라 직선 이동 가능하게 구비되고, 상기 커버 개방 감지부와 접촉 가능하게 배치되는 접촉 돌기;를 포함하는 청소기 스테이션.
- 제12항에 있어서,상기 기어 박스는,상기 개방 피동 기어를 지지하고, 상기 개방 피동 기어의 이동을 가이드하는 가이드 레일;을 포함하는 청소기 스테이션.
- 제12항에 있어서,상기 기어 박스는,상기 푸쉬 돌기가 관통 가능하도록 홀 형태로 형성된 돌기 관통 홀;을 더 포함하는 청소기 스테이션.
- 제8항에 있어서,상기 먼지 통과 홀을 개폐할 수 있는 도어 유닛; 및상기 결합부, 상기 도어 유닛 및 상기 커버 개방 유닛을 제어하는 제어부;를 더 포함하고,상기 제어부는,상기 먼지 통과 홀이 개방될 경우, 상기 커버 개방 모터를 작동시키는 것을 특징으로 하는 청소기 스테이션.
- 제1항에 있어서,상기 커버 개방 유닛을 제어하는 제어부;를 더 포함하고,상기 커버 개방 유닛은,상기 기어 박스의 내부에 배치되고, 상기 푸쉬 돌기가 초기 위치에 있음을 감지하는 커버 개방 감지부;를 포함하며,상기 제어부는,상기 커버 개방 모터를 구동시킨 후, 상기 커버 개방 감지부로부터 상기 푸쉬 돌기가 초기 위치로 복귀하였다는 신호를 수신하면, 상기 커버 개방 모터의 구동을 종료하는 것을 특징으로 하는 청소기 스테이션.
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US18/013,035 US20230284850A1 (en) | 2020-07-09 | 2021-07-02 | Cleaner station |
CN202190000604.XU CN219461030U (zh) | 2020-07-09 | 2021-07-02 | 清洁器站 |
AU2021306144A AU2021306144A1 (en) | 2020-07-09 | 2021-07-02 | Cleaner station |
EP21838431.1A EP4179940A1 (en) | 2020-07-09 | 2021-07-02 | Cleaner station |
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KR1020200130063A KR20220006981A (ko) | 2020-07-09 | 2020-10-08 | 청소기 스테이션 |
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WO2023231066A1 (zh) * | 2022-06-02 | 2023-12-07 | 苏州市伟克斯电器有限公司 | 组合式吸尘器 |
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- 2021-07-02 WO PCT/KR2021/095072 patent/WO2022010335A1/ko active Application Filing
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- 2021-07-02 US US18/013,035 patent/US20230284850A1/en active Pending
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JP2017189453A (ja) * | 2016-04-14 | 2017-10-19 | 三菱電機株式会社 | ごみ回収装置、電気掃除機及び掃除機システム |
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