EP3988705A1 - Ensemble compartiment à détergent et dispositif de nettoyage comprenant un ensemble compartiment à détergent - Google Patents

Ensemble compartiment à détergent et dispositif de nettoyage comprenant un ensemble compartiment à détergent Download PDF

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Publication number
EP3988705A1
EP3988705A1 EP21200895.7A EP21200895A EP3988705A1 EP 3988705 A1 EP3988705 A1 EP 3988705A1 EP 21200895 A EP21200895 A EP 21200895A EP 3988705 A1 EP3988705 A1 EP 3988705A1
Authority
EP
European Patent Office
Prior art keywords
box body
lock
lock pin
motion
detergent
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Granted
Application number
EP21200895.7A
Other languages
German (de)
English (en)
Other versions
EP3988705B1 (fr
Inventor
Yanglei Zhu
Chunyang WEI
Qiaofeng Lu
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
BSH Hausgeraete GmbH
Original Assignee
BSH Hausgeraete GmbH
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by BSH Hausgeraete GmbH filed Critical BSH Hausgeraete GmbH
Publication of EP3988705A1 publication Critical patent/EP3988705A1/fr
Application granted granted Critical
Publication of EP3988705B1 publication Critical patent/EP3988705B1/fr
Active legal-status Critical Current
Anticipated expiration legal-status Critical

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Classifications

    • DTEXTILES; PAPER
    • D06TREATMENT OF TEXTILES OR THE LIKE; LAUNDERING; FLEXIBLE MATERIALS NOT OTHERWISE PROVIDED FOR
    • D06FLAUNDERING, DRYING, IRONING, PRESSING OR FOLDING TEXTILE ARTICLES
    • D06F39/00Details of washing machines not specific to a single type of machines covered by groups D06F9/00 - D06F27/00 
    • D06F39/02Devices for adding soap or other washing agents
    • DTEXTILES; PAPER
    • D06TREATMENT OF TEXTILES OR THE LIKE; LAUNDERING; FLEXIBLE MATERIALS NOT OTHERWISE PROVIDED FOR
    • D06FLAUNDERING, DRYING, IRONING, PRESSING OR FOLDING TEXTILE ARTICLES
    • D06F39/00Details of washing machines not specific to a single type of machines covered by groups D06F9/00 - D06F27/00 
    • D06F39/02Devices for adding soap or other washing agents
    • D06F39/022Devices for adding soap or other washing agents in a liquid state
    • EFIXED CONSTRUCTIONS
    • E05LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
    • E05BLOCKS; ACCESSORIES THEREFOR; HANDCUFFS
    • E05B65/00Locks or fastenings for special use
    • E05B65/46Locks or fastenings for special use for drawers
    • EFIXED CONSTRUCTIONS
    • E05LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
    • E05CBOLTS OR FASTENING DEVICES FOR WINGS, SPECIALLY FOR DOORS OR WINDOWS
    • E05C19/00Other devices specially designed for securing wings, e.g. with suction cups
    • E05C19/02Automatic catches, i.e. released by pull or pressure on the wing
    • E05C19/022Released by pushing in the closing direction

Definitions

  • the present invention relates to the field of household appliance technologies, and in particular, to a detergent box assembly and a washing device including the detergent box assembly.
  • a washing device is usually provided with a detergent box for containing detergent.
  • a detergent box for containing detergent.
  • manual operation is required for opening or closing an existing detergent box.
  • the detergent box is likely to slip down due to the wobbling.
  • An objective of embodiments of the present invention is to provide an improved detergent box assembly and a washing device including the detergent box assembly.
  • the detergent box assembly provided in the embodiments of the present invention, includes: a box body adapted to be pushed, a motion subassembly adapted to drive the box body to pop out, and a lock subassembly adapted to lock or unlock the box body.
  • the lock subassembly includes a push rod, a motion diverter movably connected to the push rod, and a lock pin movably connected to the motion diverter.
  • the push rod is adapted to move with the box body when the box body is pushed along a first direction, and during moving, to push the motion diverter to rotate, thereby driving the lock pin to move to lock or unlock the box body.
  • the lock pin is disposed to move along a third direction and a fourth direction that is opposite to the third direction.
  • the third direction and the fourth direction are respectively angled with the first direction.
  • the lock pin includes a unidirectional rotary groove.
  • the lock subassembly includes a housing adapted to contain the lock pin, a first spring connected between the housing and the lock pin, and a swing hook with a first end fixed on the housing and a second end movable within the unidirectional rotary groove.
  • the unidirectional rotary groove includes a first rest position and a second rest position.
  • the first spring By the effect of the first spring, the second end of the swing hook may stay at the first rest position or the second rest position.
  • the lock pin is pushed by the motion diverter, the second end of the swing hook may switch between the first rest position and the second rest position.
  • the lock pin When the second end of the swing hook is located at the first rest position, the lock pin extends into a lock slot of the box body.
  • the lock pin detaches from the lock slot.
  • the lock pin includes a third contact portion, adapted to be abutted against by the motion diverter when the motion diverter rotates, to push the lock pin along a third direction.
  • the motion diverter includes a first arm and a second arm that are co-axially connected.
  • the first arm is adapted to, when the push rod is pushed, be abutted against by the push rod to rotate, and the second arm is adapted to rotate with the first arm to abut against the third contact portion, thereby driving the lock pin to move along a third direction.
  • the lock pin includes a bolt portion extending toward the box body.
  • the bolt portion is adapted to extend along a fourth direction into a lock slot of the box body to limit movement of the box body along the first direction or a second direction that is opposite to the first direction to lock the box body, and to retract out of the box body along a third direction from the lock slot of the box body to lift the limit to unlock the box body.
  • the push rod includes a first contact portion extending toward the box body and a second contact portion extending toward the motion diverter.
  • the first contact portion is adapted to move with the box body when the box body is pushed, to drive the push rod to move.
  • the second contact portion is adapted to abut against the motion diverter when the push rod moves, to drive the motion diverter to rotate.
  • the first contact portion of the push rod may come into contact with the motion subassembly and be pushed by the motion subassembly to move.
  • the motion subassembly includes a rack connected to the box body, a gear engaging with the rack, and an energy storage apparatus connected to the gear.
  • the rack is adapted to move with the box body when the box body is pushed, to drive the gear to rotate along a first rotation direction, thereby driving the energy storage apparatus to store energy.
  • the energy storage apparatus is adapted to release energy when the box body is unlocked, to drive the gear to rotate along a second rotation direction that is opposite to the first rotation direction, so that the rack draws the box body to pop out along the second direction that is opposite to the first direction.
  • the rack is provided with a clamping portion extending toward the box body.
  • the box body is provided with a receiving portion fitted with the clamping portion.
  • the clamping portion is clamped in the receiving portion to join the rack to the box body.
  • the detergent box assembly includes a supporting member disposed out of the box body.
  • the supporting member is adapted to enable the rack to be movably supported on the supporting member.
  • the detergent box assembly includes an outer shell.
  • the supporting member, the motion subassembly, and the lock subassembly are disposed on the outer shell.
  • the box body is contained and supported in a space surrounded by the outer shell.
  • the washing device provided in the embodiments of the present invention includes a washing tub adapted to contain items to be washed and the foregoing detergent box assembly.
  • the box body of the detergent box assembly is adapted to contain detergent and provide the detergent for the washing tub.
  • the box body in the detergent box assembly that is adapted to contain detergent can be closed and locked or unlocked and opened simply when being pushed.
  • the operation is easy, time-saving and effort-saving.
  • the box body is in a locked state when being closed, so that the box body can be prevented from slipping down due to wobbling.
  • a direction in which the lock pin acts is different from a direction in which the box body moves. Therefore, the lock pin can be easily inserted into the box body to lock the box body. In addition, no additional component or force is required for stabilizing the lock pin when the box body is in a locked state.
  • the box body can automatically pop out to be opened after being unlocked.
  • the box body can pop out gently to ensure stability in the pop-out process.
  • An existing detergent box is opened or closed totally manually, and the detergent box is likely to slip down when the washing device wobbles.
  • embodiments of the present invention provide an improved detergent box assembly and a washing device including the detergent box assembly.
  • the detergent box assembly includes: a box body adapted to be pushed, a motion subassembly adapted to drive the box body to pop out, and a lock subassembly adapted to lock or unlock the box body.
  • the lock subassembly includes a push rod, a motion diverter movably connected to the push rod, and a lock pin movably connected to the motion diverter.
  • the push rod is adapted to move with the box body when the box body is pushed along a first direction, and during moving, to push the motion diverter to rotate, thereby driving the lock pin to move to lock or unlock the box body.
  • a box body adapted to contain detergent can be closed and locked or unlocked and opened simply when being pushed.
  • the operation is easy, time-saving and effort-saving.
  • the box body is in a locked state when being closed, so that the box body can be prevented from slipping down due to wobbling.
  • FIG. 1 For ease of description of the detergent box assembly and the washing device provided in the embodiments of the present invention, some accompanying drawings provided in the embodiments of the present invention show six directions: front, back, left, right, up, and down.
  • the six directions are determined from an angle of view of the detergent box assembly and the washing device facing a user in a normal use state.
  • “Front” indicates a direction in which the detergent box assembly and the washing device face the user.
  • “Back” indicates a direction that is opposite to "front”.
  • “left”, “right”, “up”, and “down” are determined according to natural orientation division based on the foregoing "front” and "back” directions.
  • a detergent box assembly 10 includes a box body 100, a motion subassembly 200, and a lock subassembly 300.
  • the box body 100 is configured to contain detergent, and is adapted to be pushed to be closed and locked, or to be unlocked and opened.
  • the lock subassembly 300 is adapted to directly or indirectly be driven by the box body 100 when the box body 100 is pushed, to lock the box body 100 or unlock the box body 100.
  • the motion subassembly 200 is adapted to drive the box body 100 to pop out when the box body 100 is unlocked, to open the box body 100.
  • a direction in which the box body 100 is pushed and a direction in which the box body 100 pops out are both related to an orientation of the box body 100 in a space.
  • the direction in which the box body 100 is pushed is uniformly referred to as a first direction M1
  • the direction in which the box body 100 pops out is uniformly referred to as a second direction M2.
  • two directions perpendicular to the first direction M1 and the second direction M2 are respectively referred to as a third direction M3 and a fourth direction M4.
  • the first direction M1 may be a "front” direction
  • the second direction M2 may be a "back” direction that is opposite to the first direction M1
  • the third direction M3 may be an "up” direction
  • the fourth direction M4 may be a "down” direction that is opposite to the third direction M3.
  • these directions are merely used for ease of description of the technical solutions provided in the embodiments shown in FIG. 1 to FIG. 9 , but do not limit explanation of the technical solutions.
  • the box body 100 may be pushed along the first direction M1 and pop out along the second direction M2 that is opposite to the first direction M1 to be opened.
  • the box body 100 has an opening 101 that opens upward for taking out or putting in detergent when the box body 100 pops out to be opened.
  • the box body 100 may be movably connected to the lock subassembly 300 directly or indirectly.
  • the box body 100 is adapted to abut against the lock subassembly 300 directly when being pushed, and to drive the lock subassembly 300 to move to lock or unlock the box body 100.
  • the box body 100 is movably connected to the lock subassembly 300 indirectly, the box body 100 is adapted to abut against the lock subassembly 300 by means of the motion subassembly 200 when being pushed, and to drive the lock subassembly 300 to move to lock or unlock the box body 100.
  • the lock subassembly 300 includes a push rod 310, a motion diverter 320 movably connected to the push rod 310, a lock pin 330 movably connected to the motion diverter 320, and a housing 301 adapted to contain the push rod 310, the motion diverter 320, and the lock pin 330.
  • the housing 301 is located above the box body 100 and includes a top wall 301a, a bottom wall 301b, and a side wall 301c connecting the top wall 301a and the bottom wall 301b.
  • the push rod 310 is partially contained in the housing 301.
  • the motion diverter 320 is entirely contained in the housing 301 and mounted rotatably on the side wall 301c.
  • the lock pin 330 is partially or entirely contained in the housing 301.
  • the push rod 310 is adapted to be pushed by the box body 100 to move along the first direction M1 with the box body 100 when the box body 100 is pushed along the first direction M1, and is adapted to, when being pushed by the box body 100 to move along the first direction M1, push the motion diverter 320 to rotate.
  • the motion diverter 320 and the box body 100 are respectively disposed on an upper side and a lower side of the push rod 310.
  • the push rod 310 may include a first contact portion 311 extending toward the box body 100 and a second contact portion 312 extending toward the motion diverter 320.
  • the first contact portion 311 extends out of the housing 301 and is adapted to, when the box body 100 is pushed along the first direction M1, be abutted against and moved by the box body 100 to move along the first direction M1.
  • the first contact portion 311 drives the entire push rod 310 to move along the first direction M1.
  • the second contact portion 312 is adapted to move with the push rod 310 when the push rod 310 moves along the first direction M1, to abut against the motion diverter 320 and push the motion diverter 320 to rotate.
  • the motion diverter 320 is movably connected to the push rod 310, and is adapted to rotate when being pushed by the push rod 310, to abut against the lock pin 330 and push the lock pin 330 to move.
  • the motion diverter 320 may include a first arm 321, a second arm 322, and a rotation shaft 323 connecting the first arm 321 and the second arm 322.
  • the rotation shaft 323 is fixed on the side wall 301c of the housing 301, and the first arm 321 and the second arm 322 are rotatably connected to the rotation shaft 323.
  • the first arm 321 and the second arm 322 are connected to the rotation shaft 323 by means of a same bearing and are rotatable around the rotation shaft 323 synchronously by means of the same bearing.
  • the first arm 321 is adapted to, when the push rod 310 is pushed, be abutted against by the push rod 310 to rotate, and the second arm 322 is adapted to rotate with the first arm 321 to abut against the lock pin 330 and drive the lock pin 330 to move.
  • projections of the first arm 321 of the motion diverter 320 and the second contact portion 312 of the push rod 310 at least partially overlap in a plane perpendicular to the first direction M1 and the second direction M2. Therefore, when the push rod 310 moves along the first direction M1, the first arm 321 can be pushed by the second contact portion 312 to rotate around the rotation shaft 323.
  • Projections of the second arm 322 of the motion diverter 320 and the lock pin 330 at least partially overlap in a plane perpendicular to the third direction M3 and the fourth direction M4. Therefore, when rotating with the first arm 321, the second arm 322 can abut against the lock pin 330 and drive the lock pin 330 to move.
  • the lock pin 330 may be disposed to move along the third direction M3 and the fourth direction M4 that is opposite to the third direction M3.
  • the third direction M3 and the fourth direction M4 are respectively angled with the first direction M1.
  • the angles range from 0 degree to 180 degrees with the exception of 0 degree and 180 degrees.
  • the angles are 90 degrees, that is, the third direction M3 and the fourth direction M4 are respectively perpendicular to the first direction M1.
  • the first direction M1 is a front direction
  • the third direction M3 is an up direction
  • the fourth direction M4 is a down direction.
  • a motion direction in which the lock pin 330 is abutted against and driven by the second arm 322 of the motion diverter 320 is uniformly referred to as the third direction M3. Therefore, the second arm 322 of the motion diverter 320 is adapted to abut against the lock pin 330 and drive the lock pin 330 to move along the third direction M3 when the motion diverter 320 rotates.
  • the lock pin 330 is movably connected to the motion diverter 320, and is adapted to, when being pushed by the motion diverter 320, move along the third direction M3 to unlock the box body 100 or move along the fourth direction M4 to lock the box body 100.
  • the lock pin 330 may include a third contact portion 332 and a bolt portion 333.
  • the third contact portion 332 is adapted to be abutted against by the second arm 322 of the motion diverter 320 when the motion diverter 320 rotates, so that the lock pin 330 is pushed along the third direction M3.
  • projections of the second arm 322 of the motion diverter 320 and the third contact portion 332 at least partially overlap in a plane perpendicular to the third direction M3 and the fourth direction M4. Therefore, the second arm 322 can abut against the third contact portion 332 when rotating with the first arm 321, to drive the lock pin 330 to move along the third direction M3.
  • the box body 100 may include a lock slot 120 extending toward the fourth direction M4.
  • the lock slot 120 is disposed corresponding to the bolt portion 333 of the lock pin 330 and is adapted to at least partially receive the bolt portion 333 when the bolt portion 333 moves along the fourth direction M4, to lock the box body 100.
  • the bolt portion 333 is adapted to be contained in the housing 301 or extend out of the housing 301 when the box body 100 is unlocked, is adapted to extend along the fourth direction M4 that is opposite to the third direction M3 into the lock slot 120 of the box body 100 to limit movement of the box body 100 along the first direction M1 or the second direction M2 that is opposite to the first direction M1 to lock the box body 100, and is further adapted to retract out of the box body 100 along the third direction M3 from the lock slot 120 of the box body 100 to lift the limit to unlock the box body 100.
  • the lock pin 330 further includes a unidirectional rotary groove 331 that is located above the third contact portion 332.
  • the lock subassembly 300 further includes a first spring 340 connected between the housing 301 and the lock pin 330 and a swing hook 350 with a first end 351 fixed on the housing 301 and a second end 352 movable within the unidirectional rotary groove 331.
  • the first spring 340 is always in a compressed state, and two ends of the first spring 340 are respectively fixedly connected to the top wall 301a of the housing 301 and an end of the lock pin 330 that is away from the bolt portion 333 of the lock pin 330.
  • Two ends of the swing hook 350 are respectively the first end 351 and the second end 352.
  • the first end 351 is fixedly connected to the top wall 301a of the housing 301, and the second end 352 is movably disposed within the unidirectional rotary groove 331.
  • the unidirectional rotary groove 331 includes a first rest position A and a second rest position C.
  • the second end 352 of the swing hook 350 may stay at the first rest position A or the second rest position C.
  • the lock pin 330 is pushed by the motion diverter 320, the second end 352 of the swing hook 350 may switch between the first rest position A and the second rest position C.
  • the lock pin 330 extends into the lock slot 120 of the box body 100.
  • the lock pin 330 detaches from the lock slot 120.
  • the unidirectional rotary groove 331 is a closed-loop groove, and further includes a first transition position B and a second transition position D that are located between the first rest position A and the second rest position C.
  • the first rest position A, the first transition position B, the second rest position C, and the second transition position D are sequentially contained in the closed-loop groove, and in the third direction M3, the second rest position C is lower than the first rest position A but higher than the first transition position B and the second transition position D.
  • the first spring 340 is more compressed when the second end 352 of the swing hook 350 is located at the second rest position C than when the second end 352 is located at the first rest position A, but less compressed than when the second end 352 is located at the first transition position B and the second transition position D.
  • the unidirectional rotary groove 331 further includes a first rotary section 331a connecting the first rest position A and the first transition position B, a second rotary section 331b connecting the first transition position B and the second rest position C, a third rotary section 331c connecting the second rest position C and the second transition position D, and a fourth rotary section 331d connecting the second transition position D and the first rest position A.
  • a groove depth of the first rotary section 331a gradually decreases along a direction of the first rest position A pointing to the first transition position B
  • a groove depth of the second rotary section 331b gradually decreases along a direction of the first transition position B pointing to the second rest position C
  • a groove depth of the third rotary section 331c gradually decreases along a direction of the second rest position C pointing to the second transition position D
  • a groove depth of the fourth rotary section 331d gradually decreases along a direction of the second transition position D pointing to the first rest position A.
  • a groove depth of a transition from the first rotary section 331a toward the second rotary section 331b abruptly increases at the first transition position B
  • a groove depth of a transition from the second rotary section 331b toward the third rotary section 331c abruptly increases at the second rest position C
  • a groove depth of a transition from the third rotary section 331c toward the fourth rotary section 331d abruptly increases at the second transition position D
  • a groove depth of a transition from the fourth rotary section 331d toward the first rotary section 331a abruptly increases at the first rest position A.
  • the second end 352 of the swing hook 350 stays at the second rest position C.
  • the first spring 340 is squeezed by the lock pin 330 along the third direction M3 to be compressed along the third direction M3.
  • the second end 352 of the swing hook 350 moves along the third rotary section 331c of the unidirectional rotary groove 331 from the second rest position C to the second transition position D.
  • the second transition position D is lower than the third rotary section 331c and the fourth rotary section 331d that are adjacent to the second transition position D, the second end 352 of the swing hook 350 cannot move toward a lower position in the third direction M3, so that the first spring 340 cannot be further compressed.
  • the first spring 340 automatically elongates toward a direction of releasing compression, that is, elongating toward the fourth direction M4 that is opposite to the third direction M3.
  • the first spring 340 drives the lock pin 330 to move along the fourth direction M4 at the same time.
  • the lock pin 330 drives the second end 352 of the swing hook 350 to move along the fourth rotary section 331d of the unidirectional rotary groove 331 from the second transition position D to the first rest position A.
  • the second end 352 of the swing hook 350 at the second transition position D is more likely to move to the fourth rotary section 331d rather than the third rotary section 331c. This is because if the second end 352 of the swing hook 350 cannot stride over the abruptly increased groove depth of the transition between the third rotary section 331c and the fourth rotary section 331d at the second transition position D, the second end 352 of the swing hook 350 cannot move from the second transition position D to the third rotary section 331c consequently.
  • the second end 352 of the swing hook 350 cannot move toward a higher position in the third direction M3, so that the first spring 340 cannot further elongate. Further, as the first spring 340 is still in a compressed state, the second end 352 of the swing hook 350 stays at the first rest position A. In this case, the bolt portion 333 of the lock pin 330 inserts into the lock slot 120 of the box body 100 to lock the box body 100.
  • the second end 352 of the swing hook 350 stays at the first rest position A.
  • the first spring 340 is squeezed by the lock pin 330 along the third direction M3 to be compressed along the third direction M3.
  • the second end 352 of the swing hook 350 moves along the first rotary section 331a of the unidirectional rotary groove 331 from the first rest position A to the first transition position B.
  • the bolt portion 333 of the lock pin 330 retracts out of the box body 100 along the third direction M3 from the lock slot 120 of the box body 100 to unlock the box body 100.
  • the first transition position B is lower than the first rotary section 331a and the second rotary section 331b that are adjacent to the first transition position B, the second end 352 of the swing hook 350 cannot move toward a lower position in the third direction M3, so that the first spring 340 cannot be further compressed.
  • the first spring 340 automatically elongates toward a direction of releasing compression, that is, elongating toward the fourth direction M4 that is opposite to the third direction M3.
  • the first spring 340 drives the lock pin 330 to move along the fourth direction M4 at the same time.
  • the lock pin 330 drives the second end 352 of the swing hook 350 to move along the second rotary section 331b of the unidirectional rotary groove 331 from the first transition position B to the second rest position C.
  • the second end 352 of the swing hook 350 at the first transition position B is more likely to move to the second rotary section 331b rather than the first rotary section 331a. This is because if the second end 352 of the swing hook 350 cannot stride over the abruptly increased groove depth of the transition between the second rotary section 331b and the first rotary section 331a at the first transition position B, the second end 352 of the swing hook 350 cannot move from the first transition position B to the first rotary section 331a consequently.
  • the second rest position C is higher than the second rotary section 331b and the third rotary section 331c that are adjacent to the second rest position C
  • the second end 352 of the swing hook 350 cannot move toward a higher position in the third direction M3, so that the first spring 340 cannot further elongate.
  • the bolt portion 333 of the lock pin 330 is located out of the box body 100 and detaches from the lock slot 120 of the box body 100, so that the box body 100 is in an unlocked state.
  • the second end 352 of the swing hook 350 always moves counterclockwise within the unidirectional rotary groove 331. It may be understood that this is merely an example but does not limit explanation of the technical solutions of the embodiments of the present invention. In another embodiment, by changing a trend of a groove depth of the unidirectional rotary groove 331 in each rotary section, the second end 352 of the swing hook 350 may always move clockwise within the unidirectional rotary groove 331.
  • the motion subassembly 200 is adapted to, when the box body 100 is unlocked, drive the box body 100 to pop out along the second direction M2 that is opposite to the first direction M1 to be opened.
  • the motion subassembly 200 includes a rack 210 connected to the box body 100, a gear 220 engaging with the rack 210, and an energy storage apparatus 230 connected to the gear 220.
  • the rack 210 is adapted to move with the box body 100 toward the first direction M1 when the box body 100 is pushed along the first direction M1, to drive the gear 220 to rotate along a first rotation direction (for example, counterclockwise), thereby driving the energy storage apparatus 230 to store energy.
  • a first rotation direction for example, counterclockwise
  • the rack 210 may be located above the box body 100 and provided with a clamping portion 211 extending toward a direction of the box body 100.
  • the box body 100 is provided with a receiving portion 110 fitted with the clamping portion 211.
  • the clamping portion 211 is clamped in the receiving portion 110 to join the rack 210 to the box body 100.
  • the energy storage apparatus 230 is adapted to release energy when the box body 100 is unlocked, to drive the gear 220 to rotate along a second rotation direction that is opposite to the first rotation direction (for example, clockwise), so that the rack 210 draws the box body 100 to pop out along the second direction M2 that is opposite to the first direction M1.
  • the energy storage apparatus 230 includes an energy storage component such as a tension spring and/or a coil spring, to store or release energy.
  • an energy storage component such as a tension spring and/or a coil spring, to store or release energy.
  • the energy storage apparatus 230 may further include a damping component, such as a mass block or a flywheel, connected to the energy storage component.
  • the damping component is adapted to move with the energy storage component and consume energy stored in the energy storage component, to speed down the gear 220 rotating along the second rotation direction and the rack 210 moving along the second direction M2, so that the box body 100 gently pops out along the second direction M2.
  • the detergent box assembly 10 further includes an outer shell 400 adapted to support the box body 100, the motion subassembly 200, and the lock subassembly 300.
  • the box body 100 is contained and supported in a space surrounded by the outer shell 400.
  • the outer shell 400 opens on a side thereof at a front end of the box body 100, so that the box body 100 can pop forward to be opened or be pushed backward to be closed relative to the outer shell 400.
  • the lock subassembly 300 is fixed on an outer side of the outer shell 400 and is located above the outer shell 400.
  • the outer shell 400 is provided with a hole corresponding to the lock slot 120 of the box body 100 and the bolt portion 333 of the lock pin 330.
  • the hole is adapted to enable the bolt portion 333 of the lock pin 330 to pass through to insert into the lock slot 120 of the box body 100.
  • the gear 220 and the energy storage apparatus 230 of the motion subassembly 200 are fixed in the outer shell 400.
  • the rack 210 of the motion subassembly 200 is at least partially contained in the outer shell 400.
  • the outer shell 400 further includes a supporting member 410 that is contained in the space surrounded by the outer shell 400 and that is located above the box body 100.
  • the supporting member 410 is adapted to enable the rack 210 to be movably supported on the supporting member 410.
  • the first contact portion 311 of the push rod 310 may further be movably connected to the motion subassembly 200 and be pushed by the motion subassembly 200 to move.
  • the first contact portion 311 of the push rod 310 may be movably connected to a back end of the rack 210 of the motion subassembly 200.
  • the first contact portion 311 of the push rod 310 is adapted to be abutted against and pushed by the rack 210 when the rack 210 moves with the box body 100 along the first direction M1.
  • the push rod 310 may also be directly pushed by the box body 100.
  • the first contact portion 311 of the push rod 310 may be movably connected to the box body 100.
  • the box body 100 comes into contact with the first contact portion 311 of the push rod 310 and pushes the push rod 310 to move along the first direction M1.
  • the box body 100 detaches from the first contact portion 311 of the push rod 310.
  • an embodiment of the present invention further provides a washing device 1.
  • the washing device 1 includes a washing tub, a water inlet pipe, and the detergent box assembly 10 provided in the embodiments of the present invention.
  • the washing tub is adapted to contain items to be washed.
  • the water inlet pipe is connected to the washing tub, and is adapted to guide water into the washing tub.
  • the detergent box assembly 10 is connected to the washing tub by means of the water inlet pipe.
  • the box body 100 of the detergent box assembly 10 is configured to contain detergent, and the detergent is adapted to enter the washing tub through the water inlet pipe.

Landscapes

  • Engineering & Computer Science (AREA)
  • Textile Engineering (AREA)
  • Mechanical Engineering (AREA)
  • Washing And Drying Of Tableware (AREA)
EP21200895.7A 2020-10-21 2021-10-05 Ensemble compartiment à détergent et dispositif de nettoyage comprenant un ensemble compartiment à détergent Active EP3988705B1 (fr)

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202011135404.3A CN114381914A (zh) 2020-10-21 2020-10-21 洗涤剂盒组件及包含其的洗涤设备

Publications (2)

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EP3988705A1 true EP3988705A1 (fr) 2022-04-27
EP3988705B1 EP3988705B1 (fr) 2024-02-21

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EP21200895.7A Active EP3988705B1 (fr) 2020-10-21 2021-10-05 Ensemble compartiment à détergent et dispositif de nettoyage comprenant un ensemble compartiment à détergent

Country Status (2)

Country Link
EP (1) EP3988705B1 (fr)
CN (1) CN114381914A (fr)

Citations (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US5675994A (en) * 1995-06-14 1997-10-14 Samsung Electronics Co., Ltd. Detergent dissolution device of a clothes washing machine
EP1905881A2 (fr) * 2006-09-29 2008-04-02 LG Electronics Inc. Machine à laver

Patent Citations (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US5675994A (en) * 1995-06-14 1997-10-14 Samsung Electronics Co., Ltd. Detergent dissolution device of a clothes washing machine
EP1905881A2 (fr) * 2006-09-29 2008-04-02 LG Electronics Inc. Machine à laver

Also Published As

Publication number Publication date
EP3988705B1 (fr) 2024-02-21
CN114381914A (zh) 2022-04-22

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