Robot cleaner system having robot cleaner and docking station

US 7,861,366 B2
Filed: 01/16/2007
Issued: 01/04/2011
Est. Priority Date: 04/04/2006
Status: Expired due to Fees

First Claim

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1. A robot cleaner system comprising:

a robot cleaner comprising a robot body and a dust discharge hole to discharge dust stored in the robot body; and

a docking station comprising a dust suction hole to suck the dust discharged out of the robot body, a dust suction path to guide the dust sucked through the dust suction hole, and a dust collector to collect the dust sucked through the dust suction hole,wherein the robot cleaner comprises a first docking portion to be inserted into the dust suction hole when the robot cleaner is docked with the docking station, andwherein the first docking portion is a protrusion, which protrudes out of the robot body to be inserted into the dust suction hole upon a docking operation, the protrusion communicates the dust discharge hole with the dust suction path,wherein the robot cleaner comprises an opening/closing device to mechanically open the dust discharge hole based only on mechanical contact with the docking station while the robot cleaner is docked with the docking station, the opening/closing device operating independently of a power state of the robot cleaner system.

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Abstract

A robot cleaner system having an improved docking structure between a robot cleaner and a docking station, which is capable of an easy docking operation of the robot cleaner and preventing loss of a suction force generated in the docking station. The robot cleaner includes a docking portion to be inserted into a dust suction hole of the docking station upon a docking operation. The docking portion may be a protrusion, which protrudes out of a robot body to be inserted into a dust suction path defined in the docking station, the protrusion communicates a dust discharge hole of the robot cleaner with the dust suction path of the docking station. The robot cleaner system includes a coupling device to keep the robot cleaner and the docking station in their docked state. The coupling device is configured to have a variety of shapes.

148 Citations

24 Claims

1. A robot cleaner system comprising:
- a robot cleaner comprising a robot body and a dust discharge hole to discharge dust stored in the robot body; and
  
  a docking station comprising a dust suction hole to suck the dust discharged out of the robot body, a dust suction path to guide the dust sucked through the dust suction hole, and a dust collector to collect the dust sucked through the dust suction hole,wherein the robot cleaner comprises a first docking portion to be inserted into the dust suction hole when the robot cleaner is docked with the docking station, andwherein the first docking portion is a protrusion, which protrudes out of the robot body to be inserted into the dust suction hole upon a docking operation, the protrusion communicates the dust discharge hole with the dust suction path,wherein the robot cleaner comprises an opening/closing device to mechanically open the dust discharge hole based only on mechanical contact with the docking station while the robot cleaner is docked with the docking station, the opening/closing device operating independently of a power state of the robot cleaner system.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
- - 2. The robot cleaner system according to claim 1, wherein the protrusion comprises a tapered surface at an outer surface thereof such that a cross sectional area of the protrusion is gradually reduced over at least a part of the protrusion along a protruding direction of the protrusion.
  - 3. The robot cleaner system according to claim 2, wherein the dust suction path comprises a guide path having a shape corresponding to that of the outer surface of the protrusion.
  - 4. The robot cleaner system according to claim 2, wherein the protrusion comprises a truncated circular cone shape.
  - 5. The robot cleaner system according to claim 1, wherein the opening/closing device closes the dust discharge hole while the robot cleaner performs an automatic cleaning operation.
  - 6. The robot cleaner system according to claim 1, further comprising:
    - a coupling device to strongly keep the robot cleaner and the docking station in their docked state.
  - 7. The robot cleaner system according to claim 6, wherein the coupling device comprises:
    - an electromagnet installed in one of the robot cleaner and the docking station; and
      
      a magnetically attractable member installed in the other one of the robot cleaner and the docking station.
  - 8. The robot cleaner system according to claim 7, wherein the electromagnet is installed to surround the dust suction hole, and the magnetically attractable member is installed to surround the dust discharge hole to correspond to the electromagnet.
  - 9. The robot cleaner system according to claim 1, further comprising:
    - a sensing device to sense the completion of a docking operation of the robot cleaner, andwherein the sensing device comprises a robot sensor and a station sensor installed, respectively, to the robot cleaner and the docking station, so as to come into contact with each other when the docking operation of the robot cleaner is completed.

10. A robot cleaner system comprising:
- a robot cleaner comprising a robot body and a dust discharge hole to discharge dust stored in the robot body; and
  
  a docking station comprising a dust suction hole to suck the dust discharged out of the robot body, a dust suction path to guide the dust sucked through the dust suction hole, and a dust collector to collect the dust sucked through the dust suction hole,wherein the robot cleaner comprises a first docking portion to be inserted into the dust suction hole when the robot cleaner is docked with the docking station,wherein the robot cleaner comprises an opening/closing device to close the dust discharge hole while the robot cleaner performs an automatic cleaning operation and to open the dust discharge hole while the robot cleaner is docked with the docking station, andwherein the opening/closing device comprises a plurality of opening/closing units installed in a circumferential direction of the dust discharge hole, andwherein each opening/closing unit comprises;
  
  an opening/closing member to pivotally rotate about a pivoting shaft within the protrusion, to open and close the dust discharge hole,a lever extended out of the protrusion from one end of the opening/closing member coupled to the pivoting shaft, andan elastic member to elastically bias the opening/closing member in a direction of closing the dust discharge hole.
- View Dependent Claims (11, 12)
- - 11. The robot cleaner system according to claim 10, wherein the opening/closing member is made of an elastically deformable material.
  - 12. The robot cleaner system according to claim 10, wherein the elastic member is a coil-shaped torsion spring comprises a center portion to be fitted around the pivoting shaft, a first end supported by the robot body, and a second end supported by a lower surface of the lever.

13. A robot cleaner system comprising:
- a robot cleaner comprising a robot body and a dust discharge hole to discharge dust stored in the robot body; and
  
  a docking station comprising a dust suction hole to suck the dust discharged out of the robot body, a dust suction path to guide the dust sucked through the dust suction hole, and a dust collector to collect the dust sucked through the dust suction hole,wherein the robot cleaner comprises a first docking portion to be inserted into the dust suction hole when the robot cleaner is docked with the docking station,wherein the first docking portion is a protrusion, which protrudes out of the robot body to be inserted into the dust suction hole upon a docking operation, the protrusion communicates the dust discharge hole with the dust suction path, andthe docking station comprises an opening/closing device to be mechanically pushed and elastically deformed by the protrusion as the protrusion is inserted into the docking station, to open the dust suction hole, the opening/closing device operating independently of a power state of the robot cleaner system.

14. A robot cleaner system comprising:
- a robot cleaner comprising a robot body having a dust discharge hole; and
  
  a docking station comprising a dust suction hole to suck dust discharged out of the robot body, a dust suction path to guide the dust sucked through the dust suction hole, and a dust collector to collect the dust sucked through the dust suction hole,wherein the robot cleaner comprises a protrusion which protrudes out of the robot body to be inserted into the dust suction hole when the robot cleaner is docked with the docking station, the protrusion communicates the dust discharge hole with the dust suction path, andwherein the protrusion is separately installed from the robot body, and one end of the protrusion is connected with the robot body by a flexible joint member having repeatedly formed pleats.
- View Dependent Claims (15, 16)
- - 15. The robot cleaner system according to claim 14, wherein an outer surface of the protrusion comprises a tapered surface so that a cross sectional area of the protrusion is gradually reduced over at least a part of the protrusion along a protruding direction of the protrusion.
  - 16. The robot cleaner system according to claim 14, wherein the robot cleaner comprises an opening/closing device to open and close the dust discharge hole, and the opening/closing device comprises a plurality of opening/closing units installed in a circumferential direction of the dust discharge hole, andwherein each opening/closing unit comprises:
    - an opening/closing member to pivotally rotate about a pivoting shaft, to open and close the dust discharge hole;
      
      a lever extended from one end of the opening/closing member coupled with the pivoting shaft to one end of the protrusion; and
      
      an elastic member to elastically bias the opening/closing member in a direction of closing the dust discharge hole.

17. A robot cleaner system comprising:
- a robot cleaner comprises a robot body having a dust discharge hole; and
  
  a docking station comprising a dust suction hole to suck dust discharged out of the robot body , a dust suction path to guide the dust sucked through the dust suction hole, and a dust collector to collect the dust sucked through the dust suction hole,wherein the robot cleaner comprises a protrusion which protrudes out of the robot body to be inserted into the dust suction hole when the robot cleaner is docked with the docking station, the protrusion communicates the dust discharge hole with the dust suction path, andwherein the dust suction path comprises a guide path comprising a tapered surface such that the path is gradually narrowed over at least a part thereof in a direction along which the protrusion is introduced upon a docking operation of the robot cleaner,wherein the robot cleaner comprises an opening/closing device to mechanically open the dust discharge hole due to mechanical contact with the docking station while the robot cleaner is docked with the docking station, the opening/closing device operating independently of a power state of the robot cleaner system.
- View Dependent Claims (18, 19)
- - 18. The robot cleaner system according to claim 17, wherein the guide path comprises a truncated circular cone shape having a cross sectional area that is gradually reduced away from the dust suction hole.
  - 19. The robot cleaner system according to claim 17, wherein the robot cleaner comprises an opening/closing device to close the dust discharge hole while the robot cleaner performs an automatic cleaning operation.

20. A robot cleaner system comprising:
- a robot cleaner comprising a robot body having a dust discharge hole; and
  
  a docking station comprising a station body having a dust suction hole to correspond to a position of the dust discharge hole when the robot cleaner is docked with the docking station,wherein the robot cleaner comprises an opening/closing device to open and close the dust discharge hole and the opening/closing device protrudes from the dust discharge hole to be directly inserted into the dust suction hole when the robot cleaner is docked with the docking station, the opening/closing device communicates the dust discharge hole with the dust suction hole, andthe opening/closing device comprises a plurality of opening/closing units installed in a circumferential direction of the dust discharge hole,wherein each opening/closing unit comprises;
  
  an opening/closing member to pivotally rotate about a pivoting shaft , to open and close the dust discharge hole;
  
  a lever extended from one end of the opening/closing member coupled with the pivoting shaft toward the outside of the opening/closing member; and
  
  an elastic member to elastically bias the opening/closing member in a direction of closing the dust discharge hole,wherein the opening/closing member is inserted into the dust suction hole upon a docking operation of the robot cleaner.

21. A robot cleaner system comprising:
- a robot cleaner comprising a dust discharge hole and a dust discharge path to guide dust stored in the robot cleaner toward the dust discharge hole; and
  
  a docking station comprising a station body, a dust suction hole to suck the dust discharged through the dust discharge hole into the station body, a dust suction path to guide the sucked dust, and a dust collector to collect the dust sucked through the dust suction hole,wherein the docking station comprises a docking portion to be inserted into the dust discharge hole when the robot cleaner is docked with the docking station, andwherein the docking portion is a docking lever rotatably installed to the docking station, the docking lever comprising a first end to pivotally rotate so as to be inserted into the dust discharge hole upon the docking operation of the robot cleaner.
- View Dependent Claims (22, 23, 24)
- - 22. The robot cleaner system according to claim 21, wherein the docking lever comprises:
    - a first arm to come into contact with the robot cleaner, to rotate the docking lever, anda second arm to be inserted into the dust discharge hole as the docking lever is rotated.
  - 23. The robot cleaner system according to claim 21, wherein the docking lever comprises a connecting hole to communicate the docking lever with the dust suction path when the first end of the docking lever is inserted into the dust discharge hole.
  - 24. The robot cleaner system according to claim 21, further comprising:
    - an elastic member to elastically bias the docking lever in a direction of separating the first end of the docking lever from the dust discharge hole.

Specification

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Current Assignee
Samsung Electronics Co. Ltd.
Original Assignee
Samsung Electronics Co. Ltd.
Inventors
Joo, Jae Man, Wee, Hoon, Jeong, Jin Ha, Hahm, Jung Yoon, Eduard, Kurgi
Primary Examiner(s)
KARLS, SHAY LYNN

Application Number

US11/653,251
Publication Number

US 20070226949A1
Time in Patent Office

1,449 Days
Field of Search

153/19, 153/28, 153/401, 153/402
US Class Current

15/319
CPC Class Codes

A47L 2201/024   Emptying dust or waste liqu...

A47L 9/009   Carrying-vehicles; Arrangem...

A47L 9/106   Dust removal

Robot cleaner system having robot cleaner and docking station

First Claim

1 Assignment

0 Petitions

Accused Products

Abstract

148 Citations

24 Claims

Specification

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Robot cleaner system having robot cleaner and docking station

First Claim

1 Assignment

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Subscription Required

0 Petitions

Subscription Required

Accused Products

Subscription Required

Abstract

148 Citations

24 Claims

Specification

Subscription Required

Use Cases

Quick Links

Others