IPC분류정보
국가/구분 |
United States(US) Patent
등록
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국제특허분류(IPC7판) |
|
출원번호 |
US-0022552
(2001-12-17)
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발명자
/ 주소 |
- Heimbrock, Richard H.
- Webster, Matt
- Vogel, John
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출원인 / 주소 |
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대리인 / 주소 |
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인용정보 |
피인용 횟수 :
24 인용 특허 :
58 |
초록
▼
A patient support apparatus for transporting a patient along a floor includes a frame, a plurality of casters coupled to the frame, a wheel supported relative to the frame and engaging the floor, and a drive assembly that operates to drive the wheel to propel the patient support apparatus along the
A patient support apparatus for transporting a patient along a floor includes a frame, a plurality of casters coupled to the frame, a wheel supported relative to the frame and engaging the floor, and a drive assembly that operates to drive the wheel to propel the patient support apparatus along the floor.
대표청구항
▼
A patient support apparatus for transporting a patient along a floor includes a frame, a plurality of casters coupled to the frame, a wheel supported relative to the frame and engaging the floor, and a drive assembly that operates to drive the wheel to propel the patient support apparatus along the
A patient support apparatus for transporting a patient along a floor includes a frame, a plurality of casters coupled to the frame, a wheel supported relative to the frame and engaging the floor, and a drive assembly that operates to drive the wheel to propel the patient support apparatus along the floor. from the inclined face, including a front, radially projecting circumferential flange having a frontwardly facing surface, which frontwardly facing surface has spaced sockets therein, and a rear crushing surface positioned behind the inclined face, the crushing surface comprising a first arcuate exterior surface defined by a first radius about a first longitudinal axis, and a second arcuate exterior surface defined by a second radius about a second longitudinal axis, wherein the first and second arcuate exterior surfaces are disposed on opposite sides of the bit body at a rear end portion thereof, the first and second longitudinal axes being offset from each other; and a plurality of rock cutting teeth mounted in the sockets on the frontwardly facing surface of the flange. 18. The rock drilling bit of claim 17, wherein the bit body is a unitary steel body further having passages therein for conducting a drilling fluid through the bit body. 19. The bit of claim 17, wherein each cutting tooth extends outwardly beyond the outer diameter of the bit body and is raked at an angle in a cutting direction when the bit is rotated about the axis of rotation. 20. The bit of claim 17, wherein the crushing surface has carbide studs set therein. 21. The rock drilling bit of claim 17, wherein the first and second arcuate exterior surfaces adjoin each other on opposite sides of the bit body. 22. The rock drilling bit of claim 17, wherein the first and second longitudinal axes are parallel to each other and to the axis of rotation of the bit. 23. The rock drilling bit of claim 17, wherein the second radius is smaller than the first radius. 24. The rock drilling bit of claim 17, wherein the crushing surface in combination with an inner surface of a hole being drilled by the bit forms a crushing zone that is crescent-shaped in cross-section. 25. The rock drilling bit of claim 17, wherein the first arcuate exterior surface has a radius that increases from the front to the rear of the crushing surface. 26. The rock drilling bit of claim 25, wherein the first arcuate exterior surface is behind the inclined face at a position diametrically opposite the front cutting portion. 27. The rock drilling bit of claim 26, wherein the first and second arcuate exterior surfaces adjoin each other on opposite sides of the bit body, and the first and second longitudinal axes are parallel to each other and to the axis of rotation of the bit. 28. The rock drilling bit of claim 27, wherein the second radius is smaller than the first radius. 29. The rock drilling bit of claim 17, further comprising means for mounting the bit on a front end connecting portion of a sonde housing. 30. The rock drilling bit of claim 29, wherein the mounting means comprises a rearwardly opening socket in the bit. 31. The rock drilling bit of claim 29, wherein the axis of rotation of the bit is offset from a longitudinal central axis of the mounting means. 32. In a drill head for use in a directional drilling apparatus, which drill head includes a drill bit having a portion configured for steering the drill head, a housing having an internal chamber for mounting an electronic locating device therein rearwardly of the drilling head for transmitting a signal indicating an orientation of the steering portion of the drilling head, and a joint at which the drill bit is removably mounted at the front of the drill head, the improvement wherein the joint comprises: a projection extending in a lengthwise direction from one of a rear end of the drill bit or a front end of the sonde housing; a socket extending in a lengthwise direction in the other of the rear end of the drill bit and the front end of the sonde housing, which socket is sized to slidingly receive the projection; alignable openings in the projection and in a wall defining the socket, which openings are configured to receive a removable retainer for mechanically interlocking the projection in the socket; and an interlock mechan ism for preventing relative rotation between the bit and sonde housing when the projection is inserted into the socket. 33. The drill head of claim 32, wherein the socket is formed in the drill bit and the projection extends from a front end portion of the locating device housing. 34. The drill head of claim 32, wherein the projection and socket have a common longitudinal axis which is offset from a longitudinal axis of rotation of the drill bit. 35. The drill head of claim 34, wherein the portion configured for steering the drill head comprises a frontwardly facing inclined face which slopes from back to front towards the axis of rotation and defines an acute angle relative to the axis of rotation. 36. The drill head of claim 32, further comprising at least one pin as the retainer. 37. The drill head of claim 32, wherein the interlock mechanism comprises a non-cylindrical outer surface of the projection and a mating non-cylindrical inner surface of the socket. 38. The drill head of claim 37, wherein the interlock mechanism comprises a set of longitudinal, spaced splines on the non-cylindrical outer surface of the projection and a set of longitudinal, spaced grooves on the non-cylindrical inner surface of the socket configured to receive the splines of the projection therein. 39. The drill head of claim 37, further comprising keying means provided on the projection and the socket for permitting insertion of the projection into the socket in one predetermined orientation. 40. The drill head of claim 37, further comprising keying means provided on the projection and the socket for permitting insertion of the projection into the socket in two or more predetermined orientations. 41. The drill head of claim 38, further comprising keying means provided on the projection and the socket for permitting insertion of the projection into the socket in only one or more predetermined orientations, including a master spline on the projection having a different shape than another spline and a master groove in the socket configured to receive the master spline therein. 42. The drill head of claim 32, wherein one of the aligned openings comprises a hole extending through a wall defining the socket. 43. The drill head of claim 35, wherein the drill bit has a front nose section laterally offset from the inclined face, including a front, radially projecting circumferential flange having a frontwardly facing surface, which frontwardly facing surface has spaced sockets therein, and a rear crushing surface positioned behind the inclined face, the crushing surface comprising a first arcuate exterior surface defined by a first radius about a first longitudinal axis, and a second arcuate exterior surface defined by a second radius about a second longitudinal axis, wherein the first and second arcuate exterior surfaces are disposed on opposite sides of the bit body at a rear end portion thereof, the first and second longitudinal axes being offset from each other; and the drill bit further comprises a plurality of rock cutting teeth mounted in the sockets on the frontwardly facing surface of the flange.
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