The present invention relates to an apparatus for orienting a patient on a patient-support device, such as a hospital bed. More particularly, the present disclosure relates to an apparatus for pulling a patient toward a head end of a patient support device.
Some patient-support devices, such as hospital beds, stretchers, surgical tables, and the like, have mechanisms for articulating, raising, lowering, and/or tilting a patient-support portion of the device relative to a base of the device. When a head section of the patient-support portion of the device is raised to move the patient from a supine position to a sitting position, it is not uncommon for the patient to slide down the head section and move toward a foot end of the device. Thus, the patient may be shifted too far toward the foot end of the patient-support device when the head section is lowered back down to return the patient to the supine position. Some prior art devices, such as those shown in U.S. Pat. Nos. 5,608,929 and 5,280,657 and those shown in U.S. patent application Publications Nos. 2002/0083521 A1 and 2002/083522 A1, include mechanisms for pulling a patient toward the head end of a hospital bed.
An apparatus for positioning a patient on a patient-support device is provided, the apparatus comprising one or more of the following features or combinations thereof. A sheet gripper may comprise a bar that wraps up in the sheet and one or more hooks that engage the bar and the sheet wrapped around the bar. The bar may be coupled to the housing of the sheet gripper by a first tether. A second tether may extend between the housing and a base portion of the patient-support device. The second tether may be wound upon a winder when a patient-support portion of the patient-support device is lowered toward the base portion. The sheet gripper may comprise a lock that prevents the second tether from unwinding from the winder when the patient-support portion is raised relative to the base portion. The second tether pulls the sheet gripper and the sheet toward a head end of the patient-support device when the patient-support portion is raised relative to the base portion. The lock may be releasable so that the second tether unwinds from the winder when the patient-support portion is raised relative to the base portion.
A tether control unit may be used to control relative motion between a first tether coupled to the sheet gripper and the tether control unit and a second tether coupled to the tether control unit and the base portion. In a tether coupling mode of operation, the tether control unit may be used to wind up the first tether to pull the sheet gripper and, thus, a sheet gripped by the sheet gripper and a patient on the sheet toward the tether control unit in response to unwinding of the second tether due to raising of the patient-support portion. In a tether decoupling mode of operation, the tether control unit may be used to decouple relative motion between the first and second tethers so as not to move the patient on the patient-support portion when the patient-support portion is lowered.
The sheet gripper may comprise a roller about which the sheet may be wrapped and a ratchet assembly configured to have an engaged state for the sheet gripper to grip the sheet and a disengaged state for the sheet gripper to release the sheet. In the engaged state, the illustrative ratchet assembly permits rotation of the roller in a sheet-wrapping direction and blocks rotation of the roller in a sheet-unwrapping direction. In the disengaged state, the ratchet assembly may permit rotation of the roller in both the sheet-wrapping and sheet-unwrapping directions to facilitate unwrapping of the sheet from the roller. The sheet gripper may comprise a manual release to move the ratchet assembly from its engaged state to its disengaged state.
The tether control unit may comprise a first winder for winding up the first tether and a second winder for winding up the second tether. In an engaged state, a clutch may couple the first and second winders together so that the first winder winds up the first tether in response to unwinding of the second tether by the second winder upon raising the patient-support portion. In a disengaged state, the clutch may decouple the first and second winders from one another so that the first winder does not wind or unwind the first tether when the second winder winds up the second tether upon lowering of the patient-support portion.
An actuator may be used to move the clutch between its engaged and disengaged states. The actuator may be activated manually or may be activated automatically by a tether winding limiter. The tether winding limiter may be used to move the clutch from its engaged state to its disengaged state to limit the extent to which the first winder can wind up the first tether.
Additional features will become apparent to those skilled in the art upon consideration of the following detailed description of illustrative embodiments exemplifying the best mode of carrying out the various inventions disclosed herein as presently perceived.
The detailed description particularly refers to the accompanying figures in which:
A hospital bed 20 includes a patient support deck 22 coupled to a base portion or lower frame portion 24 for supporting support deck 22 above the floor as shown in
As illustrated in
When apparatus 30 is in its stored orientation, as illustrated in FIGS. 1 and 7–10, and bed 20 is moved from a supine position (
To correct the position of patient 34, apparatus 30 is coupled to sheet 32 and is actuated (as explained more fully below), and bed 20 is moved from the lowered position shown in
Patient positioning apparatus 30 is coupled to bed 20, illustratively to a frame member 42 of bed 20. Apparatus 30 includes a sheet gripper or sheet coupler 44 to selectively couple apparatus 30 to sheet 32. Apparatus 30 includes a first tether or belt 46 to secure the sheet coupler 44 to bed 20. Sheet coupler 44 is coupled to or grips sheet 32. As shown in
Sheet coupler 44 includes a main assembly 52 and a sheet connection bar 54 around which a caregiver wraps part of a head end 56 of sheet 32. Sheet connection bar 54 is coupled to the main assembly 52 with a tether or second belt 58. As shown in
A first end 70 of second belt 58 is secured to sheet connection bar 54, and a second end 72 of belt 58 is secured to main assembly 52, illustratively with a screw 73. Second belt 58 has a length that enables a caregiver to maneuver bar 54, illustratively to permit several turns of bar 54 about axis 60, to wrap sheet 32 thereabout.
As shown in
As shown in
Main assembly 52 includes a housing 84 having a recess 86 to house the tensioning mechanism 74 and the portion of first belt 46 that is coiled up by tensioning mechanism 74. Main assembly 52 includes retainer 64, illustratively spaced apart hooks 66, 68 coupled to sides of housing 84. As shown in
Tensioning mechanism 74 maintains tension on first belt 46 by automatically winding or coiling belt 46, removing slack in the portion of belt 46 between sheet coupler 44 and bed 20. First belt 46 is uncoiled by pulling sheet coupler 44 toward foot end 36. The tensioning action of tensioning mechanism 74 can be suspended by actuating a handle 94 to inhibit winding of belt 46 to permit a caregiver to have enough slack in first belt 46 to couple sheet coupler 44 to sheet 32.
Tensioning mechanism 74 includes a bracket 110 coupled to housing 84. Bracket 110 supports a spool 112 about which first belt 46 is coiled or wound. A biasing member 114, illustratively a torsion or rotary spring, is coupled to spool 112 and housing 84 to bias spool 112 in direction 114 about an axis 116 extending longitudinally through spool 112, as shown in
As shown in
As illustrated in
As shown in
A central portion 156 of spool 112 is situated between flanges 146, 148, and first end 136 projects outside one of flanges 146, 148, positioned to be received in opening 134 of wheel 122. Wheel 122 is thus mounted on end 136 of spool 112, and secured thereto by retainer 158, illustratively a screw received in a screw aperture 159 formed in first end 136 of spool 112. Retainer 158 has a head 160 larger than a width X of opening 134 to sandwich wheel 122 between one of flanges 146, 148 and retainer head 160. Thus, wheel 122 is coupled to spool 112 and configured to move therewith.
A second end 162 of spool 112 extends beyond the other of flanges 146, 148. A spring-receiving slot 164 is formed in second end 162 and receives a first portion 166 of biasing member 114. A second portion 168 of biasing member 114 is coupled to mount 138, illustratively inserted in a notch 170 formed in second region 141 of support mount 138. A belt-receiving slot 172 is formed in central portion 156 of spool 112 to receive distal end 174 of first belt 46.
As shown in
As shown in
Handle 94 is biased by pawl biasing member 198, illustratively a coil spring, to a position so that pawl 82 disengages wheel 122 and engagement surface 176 normally disengages straight surface 126. It is within the scope of this disclosure, however, for handle 94 and pawl 82 to be biased so pawl 82 normally engages wheel 122. It is also within the scope of this disclosure to eliminate pawl biasing member 198 so that handle 94 and pawl 82 are not biased in either direction. It is also within the scope of this disclosure for teeth 124 to be shaped and pawl 82 to be shaped and/or positioned relative to teeth 124 so that first belt 46 is not automatically wound about spool 112, but pawl 82 must first be disengaged to wind belt 46 about spool 112.
As shown in
Illustratively, tensioning mechanism 74 automatically removes slack from first belt 46 when first belt 46 is not taut. Pawl 82 moves to permit spool 112 to rotate in belt-shortening direction 78. As wheel 122 rotates about axis 116 in response to the bias of biasing member 114, sloped surface 130 cams against a cam surface 178 of pawl 82, moving pawl 82 against the bias of pawl biasing member 198 to disengage engagement surface 176 from straight surface 126. Thus, slack is automatically removed from first belt 46. It is within the scope of this disclosure to eliminate the automatic tensioning of ratchet 76, for example, by eliminating the sloped surface 130 so that pawl 82 engages one or more of teeth 124 to inhibit motion of spool 112 in both directions about axis 116.
Main assembly 52 includes a belt guide 220 to guide first belt 46 from opening 222 in housing through which belt 46 moves at it is wound and unwound from spool 112. Belt guide 220 is illustratively a plate having a substantially flat central portion 224 including a slot 226 formed therein. Slot 226 has a width slightly larger than the width of first belt 46. A wall 228 extends from each edge of central portion 224 generally parallel to the length of slot 226. An ear 230 extends upwardly from each flange 146, 148 and fits in recess 232 formed by the junction of walls 228 and central portion 224. When housing 84 is assembled, belt guide 220 is held in place between housing 84 and ears 230. First belt 46, residing in slot 226, also inhibits movement of belt guide 220.
In the stored position of apparatus 30, sheet coupler 44 is coupled to a headboard 239 of bed 20. Hooks 66, 68 are illustratively J-shaped, having a relatively longer leg 240, a relatively shorter leg 242, and a lower section or bight 244 joining the two legs. Ends 246 of longer legs 240 are coupled to main assembly 52, illustratively to support mount 138. Ends 246 are situated between a first part 248 of housing 84 and support mount 138. Illustratively, housing 84 includes a second part 250 that couples to first part 248 to house some of the components described above.
Housing 84 assists in retention of apparatus 30 in the stored position. Second part 250 of housing 84 includes a lip 252 extending downwardly from an interior surface 254 of housing 84. Lip 252 extends generally parallel to longer leg 240 of each hook 66, 68, forming a space 255 between lip 252 and retainer 64. To store apparatus 30, lip 252 and retainer 64 are placed over an upper edge 256 of headboard 239. Upper edge 256 is thus situated in the space 255 between hooks 66, 68 and lip 252 so that sheet coupler 44 is releasably stored on headboard 239. It is within the scope of this disclosure for lip 252 to extend the length from a location adjacent one hook 66, 68 to a location adjacent the other hook, for lip 252 to be one or more smaller portions that cooperate with one or both of hooks 66, 68 to form a space between which upper edge 256 is situated when sheet coupler 44 is stored.
As shown in
When sheet coupler 44 is coupled to sheet 32, as illustrated in
Although first and second belts 46, 58 are illustratively webs, it is within the scope of this disclosure that, where first and/or second belts 46, 58 are provided, a variety of flexible connecting members, such as one or more of cords, lines, cables, chains, ties, straps, bands, or the like, may be used. Additionally, alternative arrangements of bed 20 are within the scope of this disclosure.
A patient positioning apparatus 330 for use with a patient-support device 320 is illustrated in
Patent positioning apparatus 330 comprises a sheet gripper 344, first and second tethers 326, 328, and a tether control unit 334, as illustrated in
Patient positioning apparatus 330 is configured to be mounted to a headboard 336 of the patient-support portion 322 for movement therewith, as illustrated in
The control unit housing 342 comprises an upper panel 352 and a sheet gripper retainer 354 extending upwardly therefrom. The sheet gripper 344 is configured to be mounted on the upper panel 352 to be retained by the retainer 354 for storage of the sheet gripper 344 during periods of non-use of the patient positioning apparatus 330, as shown in
The sheet 332 is to be wrapped around a roller 358 of the sheet gripper 344 for the sheet gripper 344 to grip the sheet 332, as suggested in
The sheet gripper 344 comprises an arm 366 to which the roller 358, the ratchet assembly 359, the manual release 364, and the first tether 326 are mounted, as shown in
The first roller support 370 comprises a collar mount 379, a collar 380, and an axle bearing 382, as shown in
The second roller support 372 comprises a collar mount 385 and a collar 391, as shown in
The ratchet assembly 359 comprises a ratchet wheel 386, a pawl 388, and a pawl biaser 390, as shown in
In the engaged state of the ratchet assembly, the pawl 388 is positioned to engage canted teeth 398 formed in the wheel 386 to permit rotation of the wheel 386 and roller 358 in the sheet-wrapping direction 360 and to block rotation of the wheel 386 and roller 358 in the sheet-unwrapping direction 362 in the engaged state of the ratchet assembly 359, as shown in
The pawl 388 is positioned for linear movement in a pawl-receiving channel 399 formed in the collar mount 385 and a pawl-receiving channel 400 formed in the base portion end 375. The pawl 388 is movable linearly in teeth-engagement direction 402 to engage teeth 398 and in teeth-disengagement direction 404 to disengage teeth 398, as shown in
The pawl biaser 390 biases the pawl 388 yieldably toward the wheel 386 in the teeth-engagement direction 402. Illustratively, the pawl biaser 388 is a coil spring that engages the pawl 388 and the base portion end 375, as shown in
The manual release 364 is coupled to the pawl 388 to move the pawl 388 in the teeth-disengagement direction 404. The manual release 364 comprises a rotatable actuator 406 shown in
The actuator 406 comprises a user engagement knob 410, a pin 412, and a crank arm 413, as shown in
Illustratively, the motion converter 408 is a linkage comprising first and second links 420, 422 and a pivot 424 interconnecting the first and second links 420, 422, as shown in
A user activates the manual release 364 to permit unwrapping of the sheet 332 from the roller 358. A user activates the manual release 364 by engaging the knob 410 and rotating it in a release direction 416 about the rotation axis 418, thereby causing rotation of the knob mount 412 and the crank arm 413 with the knob 410. The motion converter 408 converts such rotation of the components of the actuator 406 into linear movement of the pawl 388 away from the wheel 386 in teeth-disengagement direction 404. Rotation of the crank arm 413 moves the first link 420 so as to pivot the pivot 424. Pivoting the pivot 424 moves the second link 422 so as to withdraw the pawl 390 away from the teeth 398 of the wheel 386 in disengagement direction 404. Disengagement between the pawl 390 and the wheel 386 allows the roller 358 to rotate in sheet-unwrapping direction 362 to facilitate unwrapping of the sheet 332 from the roller 358 and, thus, release of the sheet 332 from sheet gripper 344. When the user lets go of the knob 410, the pawl biaser 390 moves the pawl 388 in engagement direction 402 back into engagement with wheel 386.
Other actuators may be used in place of the rotatable actuator 406. Two such optional actuators are shown in
The slide actuator 430 comprises a slider 434 and a connecting pin 436 interconnecting the slide 434 and the first link 420. To move the ratchet assembly 359 from its engaged state to its disengaged state, a user moves the slider 434 linearly in a release direction 438. Such linear movement of the slider 434 is transmitted to the first link 420 by the connecting pin 436.
The button actuator 432 comprises a button 440 and a cam 442 depending therefrom. A button biaser 444 positioned on a ledge 446 fixed to the arm base portion 368 normally biases the button 440 for extension of button 440 out of the first cover member 369 for access to a user. Illustratively, the button biaser 444 is a coil spring. Depression of the button 440 in direction 447 causes the cam 442 to move therewith through a first cam-receiving opening 448 formed in the ledge 446 and against an edge 450 defining a second cam-receiving opening 452 formed in the first link 420. Such movement of the cam 442 against the edge 450 causes the first link 420 to move in a second direction 454 at right angles to the first direction 447, thereby pulling the pawl 388 away from the wheel 386.
Optionally, the manual release 364 may be replaced by a Bowden wire connected to the pawl 388 and a Bowden wire actuator configured to move the Bowden wire to release the pawl 388 from the wheel 386.
The tether control unit 334 is configured to control winding and unwinding of the first and second tethers 326, 328 as the patient-support portion 322 is raised and lowered relative to the base portion 324 of the patient-support device 320. The tether control unit 334 is selectively operable in a tether coupling mode of operation shown in
To move a patient toward the head end 356, the tether control unit 334 is configured in its tether coupling of operation and the patient-support portion 322 is raised. If the patient needs to be moved some more toward the head end 356, the tether control unit 334 is configured in its tether decoupling of operation and the patient-support portion 322 is lowered. The tether control unit 334 is then reconfigured in its tether coupling of operation and the patient-support portion 322 is raised again thereby causing the patient to move closer to the head end 356. This process can be repeated as necessary until the patient is positioned on the patient-support portion 322 as desired.
The tether control unit 334 comprises spring biased first and second winders 456, 458, a clutch 460, and an actuator 462, as shown in
The clutch 460 controls coupling and decoupling of the first and second winders 456, 458. In the tether coupling of operation, the clutch 460 is configured in an engaged state coupling the first and second winders 456, 458 together so that the first winder 456 winds up the first tether 326 to pull the sheet gripper 344, the sheet 332, and a patient positioned on the sheet 332 toward the head end 356 as the second tether 328 unwinds from the second winder 458 during raising of the patient-support portion 322 relative to the base portion 324. In the tether decoupling of operation, the clutch 460 is configured in a disengaged state decoupling the first and second winders 456, 458 from one another thereby permitting the first and second winders 456, 458 to operate independently from one another. The actuator 462 is configured to move the clutch 460 between its engaged and disengaged states. The first and second winders 456, 458, the clutch 460, and the actuator 462 are discussed in more detail herein.
The first winder 456 illustratively comprises a first roller assembly 464, as shown in
The first winder 456 illustratively comprises a rotatable first shaft 476 and a tether coupler 478, as shown in
The first winder 456 further illustratively comprises a first tether tensioner 490 shown in
The second winder 458 illustratively comprises a second roller assembly 496, as shown in
The second winder 458 further illustratively comprises a rotatable second shaft 500 and a tether coupler 502, as shown in
The second winder 458 further illustratively comprises a second tether tensioner 512 shown in
The clutch 460 illustratively comprises a set of gears and a clutch disc 522, as shown in
The clutch disc 522 is mounted on the first shaft 476 for axial movement along the axis 484 relative to the driven gear 526 between a first position associated with the engaged state of the clutch 460 and a second position associated with the disengaged state of the clutch 460. In the first position, lugs 532 on the clutch disc 522 engage lugs 532 on the driven gear 526 for transmission of rotation from the driven gear 526 to the first shaft 476 through the clutch disc 522, which is keyed to the first shaft 476, to wind or unwind the first tether 326. In the second position, the lugs 532 on the clutch disc 522 disengage the lugs 532 on the driven gear 526 to decouple rotation of the driven gear 526 from the first shaft 476. Illustratively, each of the driven gear 526 and the clutch disc 522 has three lugs.
The actuator 362 is configured to move the clutch disc 522 axially between its first and second positions. The actuator 362 illustratively comprises a handle 534 mounted for rotation about the axis 484 between a first handle position shown in
The actuator 362 further illustratively comprises a bearing 536, a stationary cam 538, a cam follower 540, and a rotation transmission blocker 542, as shown in
When the handle 534 is positioned in its first handle position, the cam 538 and the cam follower 540 are positioned together to allow the lugs 532 on the driven gear 526 and clutch disc 522 to engage one another. A clutch disc biaser 550 biases the clutch disc 522 against the blocker 542 so that the lugs 532 on the clutch disc 522 engages the lugs 532 on the driven gear 526 through a channel provided by the cam 538, the cam follower 540, and the ring 544 of the blocker 542. Illustratively, the clutch disc biaser 550 comprising a coil spring 552 and a spring retainer 554. The coil spring 552 is positioned between the clutch disc 522 and the spring retainer 554 which mounted in a groove 556 formed in the first shaft 476.
Rotation of the handle 534 from its first handle position to its second handle position causes the cam follower 540 to rotate about the axis 484 against the stationary cam 538. The cam 538 is blocked against rotation with the cam follower 540 since it is coupled to the mounting post 548. In addition, engagement between the cam 538 and the driven gear 526 blocks axial movement of the cam 538 along the axis 484 when the cam follower 540 rotates against the cam 538.
Rotation of the cam follower 540 against the cam 538 causes the cam follower 538 to move axially away from the driven gear 526. Such axial movement of the cam follower 538 causes the blocker 542 and the clutch disc 522 engaging the blocker 542 to also move axially away from the driven gear 526. The lugs 532 on the driven gear 526 and clutch disc 522 disengage one another upon axial movement of the clutch disc 522 away from the driven gear 526, thereby establishing the second position of the clutch disc 522 and the disengaged state of the clutch 460.
To re-establish the engaged state of the clutch 460, the handle 534 is rotated from the second handle position back to the first handle position. During such handle rotation, the clutch disc biaser 550 pushes the clutch disc 522, the blocker 542, and the cam follower 540 axially back toward the driven gear 526 for re-engagement between the lugs 532 on the driven gear 526 and the clutch disc 522, thereby re-establishing the first position of the clutch disc 522 and the engaged state of the clutch 460.
The handle 534 is rotatable manually between the first and second handle positions for a user to select in which mode the tether control unit 334 is to operate. The handle 534 may also be rotated automatically from the first handle position to the second handle position to switch the tether control unit 334 from its tether coupling mode to its tether decoupling mode upon activation of a tether winding limiter 558.
The tether winding limiter 558 is configured to limit the extent to which the first winder 456 is permitted to wind up the first tether 326. The illustrative limiter 558 comprises a protuberance 560 and a slotted bar 562, as shown in
It should be appreciated that a variety of flexible connecting members may be used for first and second tethers 326, 328, such as cords, lines, cables, chains, ties, straps, bands, belts, webs, or the like.
Although various apparatus and systems have been described in detail with reference to certain preferred or illustrative embodiments, variations and modifications of each of these apparatus and systems exist within the scope and spirit of the invention as described and defined in the following claims.
This application is a Rule 371 application based upon PCT international patent application PCT/US03/18875 filed Jun. 13, 2003, which claims priority to U.S. Provisional Patent application Ser. No. 60/389,212 which was filed Jun. 17, 2002, and which is hereby incorporated herein by reference.
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/US03/18875 | 6/13/2003 | WO | 00 | 12/3/2004 |
Publishing Document | Publishing Date | Country | Kind |
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WO03/105743 | 12/24/2003 | WO | A |
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