RU2015143195A

RU2015143195A - FAN ASSEMBLY

Info

Publication number: RU2015143195A
Application number: RU2015143195A
Authority: RU
Inventors: Рой ПУЛТОН; Джозеф ХОДЖЕТТС
Original assignee: Дайсон Текнолоджи Лимитед
Priority date: 2013-03-11
Filing date: 2014-02-03
Publication date: 2017-04-18
Also published as: CA2900565A1; AU2014229860B2; GB201304338D0; US20140255173A1; GB2536767B; GB2511757B; EP2971996B1; EP2971996A1; AU2017258875A1; CN104047908A; WO2014140518A1; HK1223996A1; JP2014173604A; GB2536767A; JP5749825B2; AU2017258875B2; RU2659947C2; GB2511757A; GB201600966D0; CN203743091U

Claims

1. A nozzle for a fan assembly containing an air intake; air outlet; an internal channel for supplying air from the air intake to the air outlet; annular inner wall; an outer wall extending around the inner wall, the inner channel being located between the inner wall and the outer wall, while the inner wall at least partially limits the channel through which the air outside the nozzle is drawn in by air emitted from the air outlet, which is made with the possibility of direction air on the outer surface of the nozzle; a flow control port located downstream of the air outlet and said surface; a flow control chamber for supplying air to the flow control port; and control means for selectively blocking air flow through the flow control port.

2. A nozzle according to claim 1, wherein said surface at least partially defines a channel.

3. The nozzle according to claim 1, wherein said surface extends at least partially around the axis of the channel.

4. The nozzle according to claim 1, wherein said surface surrounds the axis of the channel.

5. The nozzle according to claim 1, wherein said surface comprises a Coanda surface located downstream immediately after the air outlet.

6. The nozzle according to claim 1, wherein said surface comprises a diffuser surface that expands outward relative to the axis of the channel.

7. The nozzle according to claim 6, which comprises a guide surface located between the diffuser surface and the flow control port.

8. The nozzle according to claim 7, in which said guide surface has a conical shape, tapering inward relative to the diffuser surface.

9. The nozzle according to claim 7, in which said guide surface has a conical shape, tapering inward relative to the axis of the channel.

10. The nozzle according to claim 7, in which the guide surface is bounded by the outer surface of the guide element for the air flow of the nozzle.

11. The nozzle according to claim 10, in which the inner surface of the guide element for the air flow, at least partially, limits the flow control port.

12. The nozzle according to claim 1, wherein the flow control port is configured to direct air flow along the second outer surface of the nozzle.

13. The nozzle of claim 12, wherein the second outer surface at least partially defines the nozzle channel.

14. The nozzle of claim 13, wherein the second outer surface defines at least a portion of the front section of the nozzle.

15. The nozzle of claim 12, wherein the second outer surface comprises a second Coanda surface located upstream immediately after the flow control port.

16. The nozzle according to claim 12, in which the second outer surface comprises a second diffuser surface that extends outward relative to the axis of the channel.

17. The nozzle according to claim 12, in which the second outer surface comprises a second guide surface.

18. The nozzle according to claim 1, wherein the flow control chamber is located in front of the internal channel.

19. The nozzle according to claim 1, in which both the internal channel and the flow control chamber surround the nozzle channel.

20. The nozzle according to claim 1, in which both the air outlet and the flow control port are made in the form of a gap.

21. The nozzle of claim 1, wherein the control means has a first state for preventing air from passing through the flow control chamber and a second state for allowing air to pass through the flow control chamber.

22. The nozzle according to claim 1, wherein the control means comprises a valve body for closing the air intake of the flow control chamber and an actuator for moving the valve body relative to the air intake of the flow control chamber.

23. The nozzle according to claim 1, which comprises a heating unit located at least partially within the inner channel.

24. A nozzle for a fan assembly containing an air intake; air outlet; an internal channel for supplying air from the air intake to the air outlet; annular inner wall; an outer wall extending around the inner wall, the inner channel being located between the inner wall and the outer wall, while the inner wall at least partially limits the channel through which air is drawn outside the nozzle by the air emitted from the air outlet; a first guide surface located downstream of the air outlet; a flow control port located downstream of the first guide surface; a second guide surface located downstream of the flow control port, the second guide surface inclined with respect to the first guide surface; a flow control chamber for supplying air to the flow control port; and control means for selectively blocking air flow through the flow control port.

25. The nozzle of claim 24, wherein the flow control chamber is located in front of the inner channel.

26. The nozzle of claim 24, wherein both the internal channel and the flow control chamber surround the nozzle channel.

27. The nozzle according to claim 24, in which both the air outlet and the flow control port are made in the form of a gap.

28. The nozzle of claim 24, wherein the control means has a first state for preventing air from passing through the flow control chamber and a second state for allowing air to pass through the flow control chamber.

29. The nozzle according to claim 24, wherein the control means comprises a valve body for closing the air intake of the flow control chamber and an actuator for moving the valve body relative to the air intake of the flow control chamber.

30. The nozzle according to claim 24, which comprises a heating unit located at least partially within the inner channel.

31. The fan assembly containing the impeller, an engine for rotating the impeller to generate air flow, a nozzle according to any one of paragraphs. 1 or 24 for receiving air flow and a controller for controlling the engine and for changing the state of the control means.

32. A fan assembly comprising an impeller, an engine for rotating the impeller to generate an air flow, a nozzle according to any one of claims. 21 or 28 for receiving air flow and a controller for controlling the engine and for changing the state of the control means, wherein the controller is configured to control the engine speed when the state of the control means changes.