IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0945955
(2001-09-04)
|
우선권정보 |
EP-0890267 (2000-08-31) |
발명자
/ 주소 |
|
출원인 / 주소 |
- Koninklijke Philips Electronics N.V.
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
16 인용 특허 :
28 |
초록
▼
A kitchen appliance (1) having a housing (2), a motor (6) and a protection device (9) by which the motor (6) can be turned off compulsively in certain operating conditions, and having a container (15) which can be closed with a cover (30) and which can be placed onto the housing (2) and which has a
A kitchen appliance (1) having a housing (2), a motor (6) and a protection device (9) by which the motor (6) can be turned off compulsively in certain operating conditions, and having a container (15) which can be closed with a cover (30) and which can be placed onto the housing (2) and which has a control slide (35) coupled to the cover (30) via a first coupling device (36) and also coupled to the protection device (9) via a second coupling device (37). Both the first coupling device (36) and the second coupling device (37) are constructed in such a manner that an automatic activation of the safety device (9) can be achieved by these two coupling devices (36, 37).
대표청구항
▼
A kitchen appliance (1) having a housing (2), a motor (6) and a protection device (9) by which the motor (6) can be turned off compulsively in certain operating conditions, and having a container (15) which can be closed with a cover (30) and which can be placed onto the housing (2) and which has a
A kitchen appliance (1) having a housing (2), a motor (6) and a protection device (9) by which the motor (6) can be turned off compulsively in certain operating conditions, and having a container (15) which can be closed with a cover (30) and which can be placed onto the housing (2) and which has a control slide (35) coupled to the cover (30) via a first coupling device (36) and also coupled to the protection device (9) via a second coupling device (37). Both the first coupling device (36) and the second coupling device (37) are constructed in such a manner that an automatic activation of the safety device (9) can be achieved by these two coupling devices (36, 37). comprising a light beam reverser to provide illumination radially with respect to the light source so that the improvement provides unbroken lineal light. 8. The improvement defined in claim 7, further comprising a reflector disposed between said light beam reverser and said light direction modifying means. 9. The improvement defined in claim 4, wherein said light modifying means is a wave lens. 10. The improvement defined in claim 9, wherein said wave lens is arcuate in shape and curved from side to side. 11. The improvement defined in claim 9, wherein said wave lens is arcuate in shape and concave from side to side. 12. The improvement defined in claim 9, wherein said wave lens is a complex wave lens. 13. The improvement defined in claim 9 wherein the assembly is arranged so that at least some of the collimated light is provided by natural light. 14. The improvement defined in claim 9, wherein said wave lens is arcuate in shape and convex from side to side. 15. The improvement defined in claim 14, wherein said complex wave lens includes a first lens which is arcuate in shape and flat from side to side and a second lens which is cylindrical. 16. The improvement defined in claim 15, wherein said cylindrical lens is a positive lens. 17. The improvement defined in claim 15, wherein said cylindrical lens is a negative lens. 18. The improvement defined in claim 9 wherein the wave lens is disposed in a channel. 19. The improvement defined in claim 18, wherein there are a plurality of lenses and channels. 20. The improvement defined in claim 19, wherein the channels are parallel to one another. 21. The improvement defined in claim 20, further comprising a rectangular housing in which the channels are disposed. 22. The improvement defined in claim 20, further comprising a cylindrical housing in which the channels are disposed. 23. The improvement defined in claim 9, wherein the wave lens is formed of ring reflectors. 24. The improvement defined in claim 23, wherein the cross section of the ring reflectors is formed of flat surfaces. 25. The improvement defined in claim 23, wherein the cross section of the ring reflectors is formed of concave surfaces. 26. The improvement defined in claim 23, wherein the cross section of the ring reflectors is formed of convex surfaces. 27. The improvement defined in claim 23, wherein the ring reflectors are circular. 28. The improvement defined in claim 23, wherein the ring reflectors are square. 29. The improvement defined in claim 9 further comprising support means for holding the wave lens in place, said support means having grooves in which the wave lens is located. 30. The improvement defined in claim 9, wherein the wave lens is formed on a flat bar in groups of prisms formed into curves on one side thereof. 31. The improvement defined in claim 30, wherein the top of the lens bar is flat. 32. The improvement defined in claim 30, wherein the top of the lens bar is formed of multiple concave surfaces parallel therewith. 33. The improvement defined in claim 30, wherein the top of the lens bar is formed of multiple convex surfaces parallel therewith. 34. The improvement defined in claim 30, wherein the top of the lens bar is formed of different shaped surfaces. 35. The improvement defined in claim 34, wherein the top of the lens bar is formed of different angled flat surfaces. 36. The improvement defined in claim 34, wherein the top of the lens bar is formed of concave, convex, and flat surfaces. 37. The improvement defined in claim 9, wherein there are a plurality of wave lenses in said transmission means. 38. The improvement defined in claim 37 wherein the wave lenses and the transmission means are formed together of a solid rod. 39. The improvement defined in claim 37, wherein said transmission means is formed by said wave lenses which are continuous and in the form of a cylinder. 40. The improvement defined in claim 39, wherein the cylinder has a concave and convex outside surface. 41. The impr ovement defined in claim 40, wherein portions of the cylinder have light transmitting sections of different shape which allow light to pass directly out of said cylinder. 42. The improvement defined in claim 37, wherein there is a section of said transmission means which reflects light formed by reflective surfaces inside said transmission means. 43. The improvement defined in claim 4 wherein there are two sources of light and further comprising a color filter in the path of rays from each light source. 44. The improvement defined in claim 42, wherein there are two sources of light, one at each end. 45. The improvement defined in claim 42, wherein the reflection surfaces are inclined. 46. The improvement defined in claim 42, wherein at least one of the reflection surfaces are located at the end of the transmission means. 47. The improvement defined in claim 42, wherein the reflection surfaces are formed on the inside surface of said transmission means. 48. The improvement defined in claim 42, wherein there are a plurality of wave lenses which are formed continuously. 49. The improvement defined in claim 48, wherein the wave lenses are multi-concave. 50. The improvement defined in claim 42, wherein there are two sources of light, both in the middle of the transmission means. 51. The improvement defined in claim 50 wherein the collimated light has an axis, and the transmission means has a longitudinal axis, the transmission means axis and collimation axis being at an angle with respect to one another. 52. The improvement defined in claim 50, wherein the wave lenses are continuous. 53. The improvement defined in claim 52, further comprising beam reversers at the side facing the wave lenses to provide an unbroken lineal light. 54. The improvement defined in claim 53, further comprising a reflector disposed directly above the two sources of light. 55. In a lighting assembly having substantially collimated light as a source, the improvement comprising: a multiprism light modifying means for modifying the direction of substantially radially collimated light, said light modifying means surrounding the light source, and being formed in a wave, the waves being formed by groups of prisms having radii which meet in a quasi-point. 56. The improvement defined in claim 55, wherein the light modifying means is formed of a plurality of prisms defining lenses. 57. The improvement defined in claim 55, wherein the light modifying means is formed of a plurality of reflectors. 58. In a lighting assembly having light source means and collimating means for substantially collimating the light from the source, the improvement comprising: (a) transmission means for transmitting the substantially collimated light to a point remote from said collimating means, and having an upper section which allows transmission of light therethrough and a lower section which reflects light; and (b) light direction modifying means in said transmission means and remote from said collimating means for receiving light from said collimating means and modifying the direction of the light to pass outside of said transmission means through said section which allows transmission of light, said light direction modifying means including a large plurality of prisms on the outer surface thereof. 59. The improvement defined in claim 58, further comprising light reflecting means at the other end of said transmission means from said light source for reflecting light to said prisms.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.