The present invention relates to articulation systems and support decks for beds, in particular, hospital beds.
A support surface for a bed or patient support is provided, wherein the bed or patient support includes first and second movable deck sections and a stationary third deck section located in between the first and second deck sections, and the support surface includes a mattress, a cover shaped to receive the mattress, a first flexible panel coupled to the cover and being located on the cover to be positioned above to the first movable deck section, a second flexible panel coupled to the cover and being located on the cover to be positioned above the second movable deck section, and a plate coupled to the cover and being located on the cover to be positioned above the third deck section. The first and second flexible panels may include a low friction material. The first and second flexible panels may be sewn to the cover. The first and second flexible panels may be movable in response to articulation of the first and second deck sections. The first deck section is configured to support an upper body portion of a person positioned on the bed or patient support, and the second deck section is configured to support a lower body portion of a person positioned on the bed or patient support. The plate is located on the cover between the first and second flexible panels. The plate includes a plurality of slots configured to engage corresponding fasteners coupled to the third deck section.
Also, a bed or patient support is provided, including a frame, an articulating deck coupled to the frame, the deck including a head section, a seat section, and a thigh section, a mattress coupled to the seat section, a cover shaped to receive the mattress, and first and second flexible panels coupled to the cover to slidably engage the head and thigh sections, respectively. The first and second flexible panels are each substantially quadrangular. The head and thigh sections may articulate and the seat section may be substantially stationary. The first flexible panel may be movable downwardly toward the seat section in response to upwardly articulation of the head section. The first flexible panel may be movable toward the head section in response to upwardly articulation of the thigh section. The second flexible panel may be movable downwardly toward the seat section in response to upwardly articulation of the thigh section.
The frame may further comprise a foot section and the second flexible panel may be movable toward the foot section in response to upwardly articulation of the head section.
Additionally, a bed or patient support is provided, including a frame, an actuator coupled to the frame, an arcuate member including a first end and a second end, and a plurality of deck sections including a movable thigh section, the first end of the arcuate member being coupled to the actuator, the second end of the arcuate member being coupled to the thigh section, and the actuator being operable to move the arcuate member to rotate the thigh section around a natural hip pivot point of a person positioned on the bed or patient support. The arcuate member may include a top portion and a bottom portion, and the bottom portion may include a v-shaped edge. The arcuate member may include a top portion and a bottom portion, and the bottom portion may include a flat edge. The arcuate member may include a top portion, a bottom portion, and an arcuately shaped slot located between the top and bottom portions.
The bed or patient support may further include a first rotatable roller located in the slot. The bed or patient support may further include a support coupled to the frame, and second and third rollers may be rotatably coupled to the support to movably engage the bottom portion of the arcuate member. The actuator may include a drive mechanism, a cylinder, and a movable rod, the movable rod being operable to move outwardly away from the cylinder to move the thigh section upwardly away from the frame, and the movable rod being operable to move inwardly into the cylinder to move the thigh section downwardly toward the frame.
In another embodiment, a bed or patient support is provided, including a frame, first and second actuators coupled to the frame, first and second arcuate members each including a first end and a second end, and a plurality of deck sections including a movable upper section, a stationary middle section, and a movable lower section, the first end of the first arcuate member being coupled to the first actuator, the second end of the first arcuate member being coupled to the lower deck section, the first actuator being operable to rotate the first arcuate member to pivot the lower deck section around a natural hip pivot point of a person positioned on the bed or patient support, the first end of the second arcuate member being coupled to the second actuator, the second end of the second arcuate member being coupled to the upper deck section, and the second actuator being operable to rotate the second arcuate member to pivot the upper deck section around a natural hip pivot point of a person positioned on the bed or patient support. The first and second actuators may each be supported by a plurality of rollers. The plurality of rollers may include a pair of bottom rollers located substantially underneath each of the first and second arcuate members. The bottom rollers may each include a substantially v-shaped groove. The plurality of rollers may include a roller located in an arcuate slot of each arcuate member.
In yet another embodiment, a bed or patient support is provided, including a frame including first and second spaced apart side frame members, an articulating deck including a thigh section, the thigh section having a first side located adjacent to the first frame member and a second side located adjacent to the second frame member, a first actuator coupled to the first side frame member, a second actuator coupled to the second side frame member, first and second arcuate members each including a first end and a second end, the first end of the first arcuate member being coupled to the first actuator, the second end of the first arcuate member being coupled to the first side of the thigh section, the first end of the second arcuate member being coupled to the second actuator, the second end of the second arcuate member being coupled to the second side of the thigh section, and the first and second actuators being operable to move the first and second arcuate members to rotate the thigh section around a natural hip pivot point of a person positioned on the bed or patient support. The first arcuate member may include a substantially v-shaped bottom end. The second arcuate member may include a substantially flat bottom end. The first and second arcuate members may each be supported by a plurality of rollers. The plurality of rollers supporting the first arcuate member may include at least one roller having a groove shaped to receive the substantially v-shaped bottom end of the first arcuate member. The plurality of rollers supporting the second arcuate member may include at least one roller having a substantially flat rolling surface.
The bed or patient support may further include a first support coupled to the first side frame member and a second support coupled to the second side frame member, the rollers supporting the first arcuate member being coupled to the first support, and the rollers supporting the second arcuate member being coupled to the second support. The frame may further include a cross member, the deck may further include a head section having a first side adjacent to the first side frame member and a second side adjacent to the second side frame member, the bed or patient support may further include third and fourth actuators coupled to the cross member, and third and fourth arcuate members each having a first end and a second end, the first end of the third arcuate member being coupled to the third actuator, the second end of the third arcuate member being coupled to the first side of the head section, the first end of the fourth arcuate member being coupled to the fourth actuator, and the second end of the fourth arcuate member being coupled to the second side of the head section. The first and third arcuate members each may have a substantially v-shaped bottom end. The second and fourth arcuate members each may have a substantially flat bottom end.
An articulation system for a bed or patient support is also provided, including an arcuate member having a top portion and a spaced apart bottom portion, at least one roller, a support, and an actuator, the actuator being operable to cause rotational movement of the arcuate member, the support being configured to couple the at least one roller to a frame portion of the bed or patient support, and the at least one roller being shaped to receive the bottom portion of the arcuate member. The bottom portion of the arcuate member may be substantially v-shaped. Each of the rollers may include an eccentric stud.
In another embodiment, an articulation system for a bed or patient support is provided, including a support, at least one v-grooved roller coupled to the support, and an arcuate member shaped to mate with and be movably supported by the at least one roller.
The system may further include an actuator operatively coupled to the arcuate member to drive movement of a portion of the bed or patient support. The arcuate member may include an arcuate slot, and a second roller located in the arcuate slot.
In still another embodiment, a bed or patient support is provided, including a movable deck section having a first side and a spaced apart second side, a frame coupled to the deck section, a first arcuate member coupled to the first side of the deck section, a second arcuate member coupled to the second side of the deck section, at least one v-grooved roller supporting the first arcuate member, at least one flat roller supporting the second arcuate member, a first support coupled to the at least one v-grooved roller and the frame, a second support coupled to the a least one flat roller and the frame, a first actuator coupled to the first arcuate member, and a second actuator coupled to the second actuator. The at least one v-grooved roller may be an eccentric roller. At least one of the flat rollers may be an eccentric roller.
Additional features and advantages of the invention will become apparent to those skilled in the art upon consideration of the following detailed description of the illustrated embodiment exemplifying the best mode of carrying out the invention as presently perceived.
The detailed description particularly refers to the accompanying figures in which:
a shows an exploded view of components of a first inner articulation system;
b shows a front view of an eccentric v-grooved bottom roller with the stud coming out of the page;
a shows an exploded view of components of a second inner articulation system;
b shows a front view of an eccentric flat-surface bottom roller with the stud coming out of the page;
Referring now to the drawings,
The deck 24 includes an upper deck portion 26, a middle deck portion 28, and a lower deck portion 30. The upper deck portion 26 of deck 24 includes a head section 32 and a back section 34. The middle deck portion 28 of deck 24 includes a seat section 36. The lower deck portion 30 of deck 24 includes a thigh section 38 and a foot section 40.
Portions of deck 24 are movable by action of one or more articulation systems 100, 200, 300, 400. Movement of the lower deck portion 30 of deck 24 is driven by first outer articulation system 100 and a second outer articulation system 300 (shown in
The frame 16 includes a first side frame portion 18, a second side frame portion 20, and first and second end frame portions 22, 24, as best shown in
The first outer articulation system 100 includes a first outer arcuate member 102, a first outer support 122, a first lower deck actuator 112, and a plurality of rollers 154, 156, and 158. The first lower deck actuator 112 is a standard linear actuator including a cylinder 114 and a piston or rod 116 (better shown in
The first outer arcuate member 102 of the first outer articulation system 100 is coupled to the lower deck portion 30 of deck 24 underneath the thigh section 38. In operation, the first outer arcuate member 102 pivots around a hip pivot point 44, which is located above the mattress 42. The first outer articulation system 100 in combination with a second articulation system 300 operates to rotate the thigh section 38 around the hip pivot point 44. The first outer articulation system 100 is described in connection with
A portion of a first inner articulation system 200, located within the frame 16, is also visible in
Movement of the lower deck portion 30 of deck 24 is accomplished by the first and second outer articulation systems 100, 300, which are located on the outside of frame 16. As shown in
The distal end of the rod 116 is coupled to a first end 162 of the first outer arcuate member 102 by a pivot coupler 118, such as the one shown in
Likewise, retraction of the rod 116 into the cylinder 114 causes the first outer arcuate member 102 to move in a clockwise direction downwardly toward the frame 16. When the first outer arcuate member 102 moves downwardly toward the frame 16, the thigh section 38 is rotated clockwise around the pivot point 44 and is lowered toward the frame 16.
The foot section 40 of the deck 24 is pivotably coupled to the thigh section 38 at a joint 456. The foot section 40 has a first end 458 located adjacent the joint 456, and a second end 460 located toward the foot end 14 of the bed 10, spaced apart from the first end 458. When the thigh section 38 is elevated, the first end 458 of the foot section 40 is also elevated. However, the second end 460 of the foot section 40, which is supported by a pair of foot end rollers 462, remains adjacent to the frame 16.
As shown in
A bottom edge 108 of the first outer arcuate member 102 movably engages the bottom rollers 154, 156. The inner roller 158 is located within a slot 104 of the first outer arcuate member 102. The rollers 154, 156, and 158 therefore guide the movement of the first outer arcuate member 102. In the illustrated embodiment, the bottom edge 108 of the first outer arcuate member 102 is substantially v-shaped in order to correspond with substantially v-shaped grooves or indentations in the bottom rollers 154, 156, as better shown in
As mentioned above, rotation of the thigh section 38 is designed to occur about the pivot point 44, driven by the first outer articulation system 100 and the second outer articulation system 300. The pivot point 44 is located above the seat section 36, and, as shown in
Also shown in
The first inner articulation system 200 operates in a similar manner to the first outer articulation system 100. However, the first inner articulation system 200 works in the opposite direction of the first outer articulation system 100. When the rod 216 is retracted into the cylinder 214, the upper deck portion 26 is elevated. When the rod 216 extends outwardly out of the cylinder 214 toward the foot end 14 of the bed 10, the upper deck portion 26 is lowered toward the frame 16. The first inner articulation system 200 is described in more detail in connection with
Also shown in
In the illustrated embodiment, the head section actuators 464 are standard one-way linear actuators each including a rod or piston 468, a cylinder 470, and a motor (not shown). The rod 468 is pivotably coupled to the underside of the head section 32 by a pivot coupler 472. The rod 468 is pulled outwardly away from the cylinder 470 to raise the head section 32. The rod 468 extends inwardly into the cylinder 470 automatically as the back section 34 is lowered downwardly toward the frame 16. A pair of limit switches (not shown) are mounted on the back section 34 and contact the bottom of the cylinders 470 to control the movement of the head section 32 by the head section actuators 464.
As mentioned above, the foot section 40 of the lower deck portion 30, when elevated, is supported by the foot end rollers 462, which are coupled to a second end frame portion 23 (best shown in
A block 80 is coupled to inner support mount 248, and outer support mount 152, thereby coupling the first inner articulation system 200, which is located within the frame 16, to the first outer articulation system 100, which is located outside the frame 16. The first inner support 222, the inner support mounts 246, 248, and a cross member 48 form a portion of a horizontally movable inner subframe 46 of frame 16, which is the subject of U.S. Provisional Patent Application Ser. No. 60/592,540, entitled BED HAVING A CHAIR EGRESS POSITION and its corresponding U.S. patent application Ser. No. 11/192,897, filed Jul. 30, 2004, which are hereby expressly incorporated herein by reference.
The first inner support 222 is coupled to the cross member 48 through bolts or other suitable fasteners which are thread or inserted into apertures 94 of the cross member 48.
As shown in
The first inner arcuate member 202 includes a slot 204, which is, in the illustrated embodiment, arcuately shaped to correspond with the arcuate shape of the first inner arcuate member 202. A first inner roller 254 is located within the slot 204. The first inner roller 254 is coupled to the first inner support 222 as is better shown in
The bottom edge 208 of the first inner arcuate member 202 is substantially v-shaped to correspond with the substantially v-shaped grooves 256 of the bottom rollers 250, 252. The bottom rollers 250, 252 are coupled to the first inner support 222 as is better shown in
A cross support 84 is also coupled to the second end of the first inner arcuate member 202 underneath the pivot coupler 218. The cross support 84 connects the first inner arcuate member 202 with the second inner arcuate member 402 (shown in
The second inner articulation system 400 is located adjacent to the second side frame portion 20, as best shown in
It is understood that either side of the bed 10 may be considered the “first” side or “second” side. Thus, in alternative embodiments, flat bottom rollers may be used in the first inner articulation system 200 and v-grooved bottom rollers in the second inner articulation system, along with the corresponding arcuate members.
As discussed above, first and second inner articulation systems 200, 400, cooperate to raise and lower the upper deck portion 26 of the deck 24. The structure of the illustrated embodiment of second inner articulation system 400 is shown in greater detail in
In the embodiment of
As shown, the second end 476 of the second inner arcuate member 402 includes a semicircular portion 478 to which the pivot coupler 418 is coupled. The semicircular portion 478 is shaped to include an area to which a portion of the pivot coupler 418 is attached, such as an aperture or welded area. In alternative embodiments, the second end 476 of the second inner arcuate member 402 does not include the semicircular portion 478, as shown in the other drawings.
The second inner actuator 412 includes a second inner cylinder 414, a piston or rod 416, and a drive motor (not shown). The second inner actuator 412 is coupled to the cross member 48 of the movable subframe 46 by an actuator mount 420. In
When the second inner actuator 412 is in operation, the piston 416 moves outwardly toward the foot end 14 of the bed 10 away from the cylinder 414 to cause the back section 34 to be lowered toward the frame 16. The piston 416 retracts inwardly or backwardly toward the head end 12 of the bed 10 into the cylinder 414 in order to elevate the back section 34 upwardly away from the frame 16.
The second inner articulation system 400 is configured so that the second inner arcuate member 402, and thus the back section 34 of the deck 24, rotate around the hip pivot point 44, which is located above the mattress 42, as shown in
The second inner arcuate member 402 includes a top edge 406, a bottom edge 408, and an inner slot 404. In the illustrated embodiment, the top and bottom edges 406, 408 are substantially flat as shown. The slot 404 is arcuately shaped to correspond with the shape of the second inner arcuate member 402. The slot 404 has an inner edge 410 which is also substantially flat as shown, so that it is capable of engaging the outer edge 480 of the inner roller 454.
The second inner arcuate member 402 is supported by the rollers 450, 452, and 454. The bottom rollers 450 and 452 are standard track rollers each having a substantially flat outer edge 480 configured to engage the bottom edge 408 of the second inner arcuate member, thus supporting the bottom portion of the second inner arcuate member 402. In this embodiment, the inner roller 452 is also a standard track roller as shown.
The rollers 450, 452, and 454 are coupled to the second inner support 422 as best shown in
The second inner side member 88 of the frame portion 20 is coupled to the second side frame portion 20 of the frame 16. The inner support mount 448 is coupled to a block 82 which is positioned above and extends over the second side frame portion 20 and connects with the outer support mount 352 to connect the second inner articulation system 400 to the second outer articulation system 300, as best shown in
The cross support 84 is coupled to the second end 476 of the second inner arcuate member 402 and connects it with the first inner arcuate member 202. The second inner support 422 is coupled to the cross member 48 of the movable subframe 46 by bolts or other suitable fasteners inserted into apertures 424.
Also shown in
Bed 10 includes a control system 486 which controls the articulation of the upper and lower deck portions 26, 30 of the deck 24 in response to input from a caregiver, patient, or other user.
As shown in
A caregiver, patient, or other user provides instructions to raise or lower portions of deck 24 to the control system 486 through the input device 488. The input device 488 is preferably a control panel such as the one shown illustratively in
The controller 490 receives and processes the user input, using programming logic, to determine the type of control signals that need to be sent to one or more of the actuators 112, 212, 312, 412 in response to the input. The controller 490 sends the appropriate control signals to the specific actuator(s) 112, 212, 312, 412 to accomplish the action requested by the input.
For example, in response to an input signal to raise or lower the upper deck portion 26, an appropriate (i.e., “up” or “down”) control signal is sent to each of the first and second inner actuators 212, 412 of the inner articulation systems 200, 400. To raise or lower the lower deck portion 30, an appropriate control signal is sent to each of the first and second outer actuators 112, 312.
The control signal includes an indicator of whether to raise or lower the specified deck portion. In addition, in certain embodiments, the control signal indicates how long the raising or lowering process should continue before stopping. In one embodiment, the duration of the raising or lowering process corresponds to how long the input device is activated. For example, in one embodiment, if the user presses a “thigh up” key for more than 2 seconds, the controller will issue a control signal to raise the lower deck portion 30 to its highest position.
The power supply 492 powers the electrical components of the control system 486 using direct or alternating current obtained, for example, from a wall socket, battery, or other suitable source.
Activators, such as push buttons, for control of the advanced articulation systems 100, 200, 300, and 400, are displayed in area 502 of the control panel 500. Push buttons 504 and 506 when activated operate to raise and lower the lower deck portion 30 of deck 24, as discussed above. In particular, these buttons activate first and second outer articulation systems 100, 300, to cause the thigh section 38 to rotate around the hip pivot point 44.
Push buttons 508 and 510, respectively, operate, when activated by a patient, caregiver, or other user, to raise and lower the upper deck section 26 of the deck 24. Specifically, activation of either of these buttons operates to rotate the back section 34 of the deck 24 clockwise or counterclockwise, respectively, around the pivot point 44.
It is understood that in an alternative embodiments, the push buttons 504, 506, 508, 510 may be replaced with other suitable input mechanisms, such as a touch screen or voice activated controls, or other similarly designed controls known in the art. The remaining icons shown on the control panel 500 of
A side view of the second outer articulation system 300 and second inner articulation system 400 is shown in
With regard to the second inner articulation system 400, the piston 416 (not visible in
The second outer articulation system 300 is shown with the rod 316 (not visible in
The second inner arcuate member 402 and the second outer arcuate member 302 both have substantially flat bottom edges 408, 308, configured to mate with their respective rollers 450, 452, and 354, 356. Also, both the second inner arcuate member 402 and the second outer arcuate member 302 have substantially flat inner edges 310, 410 of slots 304, 404, to accommodate flat inner rollers 358, 454 respectively. As discussed above, it is understood that either side of the bed 10 may act as the “first” or “second” side.
As shown in
Also shown in
Movement of the deck 24 into the chair position is achieved by horizontally moving the movable subframe 46 toward the foot end 14 of the bed 10 in the direction of arrow 624. This is accomplished by a pair of sliding frame actuators 606, which are coupled to the horizontally movable sliding subframe 46 on either side of the bed 10.
The sliding frame actuators 606 are standard linear actuators each including a cylinder 608, a piston 610, and a drive motor (not shown). The distal end of the piston 610 is pivotably coupled to an outer side frame member 90 of the movable subframe 46 (
The sliding subframe actuator 606 shown in
As shown in
In the illustrated embodiment, movement of the deck 24 into the chair position involves elevation of the head and back sections 32, 34, as well as horizontal movement of the entire deck 24 toward the foot end 14. However, as shown in
Portions of the movable subframe 46 are also shown, including the cross member 48, the inner side frame members 86, 88, and the outer side members 90, 92 (92 not visible), discussed above.
Each side of the plate 64 includes a keyhole aperture 66 and a slot 70. Each keyhole aperture 66 matches with a corresponding aperture 626 on the seat section 36 as shown by dotted line 630 and likewise each slot 70 matches with a corresponding aperture 628 on seat section 36, as shown by dotted line 632. Standard bolts (not shown) are inserted into the apertures 626, 628 on seat section 36 prior to positioning of the mattress 42 on the deck 24.
With regard to the keyhole aperture 66, a portion of the keyhole aperture 66 with a larger circumference is first positioned over the corresponding bolt on seat section 36. The remaining bolt on the same side of the seat section 36 is then positioned in the slot 70. The process is repeated to attach the second side of the mattress 42 to the second side of the seat section 36. Once the bolts are positioned in the apertures 66, 70, the mattress 42 is slid toward the foot end 14 of the bed to lock the bolts into position in the apertures 66, 70, so that the bolts that are positioned in the keyhole slots 66 are moved into narrower portions of the keyholes 66. In this way, the portion of the mattress 42 which is located above the seat section 36 of the deck 24 remains substantially stationary when the upper and lower portions of the deck 24 are articulated.
In the illustrated embodiment, the cover 58 comprises a top portion 54 and a bottom portion 56 which are coupled together by a coupler 78 such as a zipper, snaps, buttons, Velcro, or other suitable fastener. The bottom portion 56 of the cover 58 engages the top surfaces of the deck sections 32, 34, 36, 38, 40 of the deck 24.
A first flexible panel 60 is coupled to the area of the bottom portion 56 of the cover 58 that engages the head section 32 and the back section 34 of the deck 24. A second flexible panel 62 is coupled to the bottom portion of the cover 58 so that it engages the top surface of the thigh section 38 of deck 24. The flexible panels 60 and 62 are coupled to the cover 58 by stitching, Velcro, adhesive, or other suitable fastener. Each of the flexible panels 60, 62 are constructed of a low friction material such as Teflon®, which allows the head, back and thigh sections of the mattress to slide along the head, back, and thigh sections 32, 34, 38 of deck 24, respectively, when those sections of the deck 24 are articulated. Panels 60, 62 reduce the friction between the patient and the top surface 54 of the mattress 42 when the deck section 24 is articulated.
The plate 64, including the keyhole apertures 66, 68 and the slots 70, 72 is coupled to the seat section of the mattress 42 by stitching, Velcro, adhesive, or other suitable fastener.
The illustrated embodiment of the mattress 42 also includes indented regions 74, 76, which are sized so that the width of the portion of the mattress 42 that is supported by the foot section 40 of the deck 24 corresponds to the width of the foot section 40.
a, 11a, 12, and 13 show exploded views of portions of the articulation systems 100, 200, 300, 400, to illustrate the assembly of these systems.
Portions of the first inner articulation system 200 are shown in
The inner roller 254 is a standard track roller, such as can be obtained from McMaster-Carr. The inner roller 254 has a substantially flat outer edge 264 configured to engage the inner edge 210 of slot 204. Inner roller 254 also includes an at least partially threaded stud 266.
Bottom rollers 250, 252 are standard v-grooved track rollers including at least partially threaded studs 268, which can also be obtained from, for example, McMaster-Carr.
In the illustrated embodiment, bottom rollers 250, 252 are adjustable height track rollers in that the studs 268 are eccentric or off-center so that the rollers' height can be adjusted by turning the respective stud 268. This allows the distance between the rollers 250, 252 and the v-shaped bottom edge 208 of the arcuate member 202 to be adjusted for more precise alignment.
b shows an end view of the bottom rollers 250, 252 as viewed with the studs 268 pointing out of the page. The end view shows how the studs are positioned slightly off-center with respect to the radius of the bottom rollers. The intersection of the first horizontal dotted line 632 and the vertical line 634 marks the actual center of the rollers 250, 252. The intersection of the second horizontal line 636 and the vertical line 634 marks the center point of the eccentric stud 268. It is understood that the offset may occur in any direction.
Referring back to
The first inner support 222 includes a first end 234, which, when the first inner articulation system in assembled, is located toward the head end 12, and a second end 236 which is positioned toward the foot end 14 of bed 10. In the illustrated embodiment, the first end 234 includes a plurality (four as shown) of apertures 224 for coupling the first end 234 of the first inner support 222 to the first inner support mount 246 via standard bolts or other suitable fasteners. The second end 236 also includes a plurality of apertures 224 (in the illustrated embodiment, six) for coupling the second end 236 to the second inner support mount 248, also via standard bolts or other suitable coupling means.
As shown, the four apertures 224 on the first end 234 are arranged to form two rows of two apertures and two columns of two apertures so that each of the apertures 224 is substantially equidistant from the others. On the second end 236, the apertures 224 are arranged in two columns of three apertures each and three rows of two apertures each so that the distance between the apertures 224 in each of the columns is substantially the same for all rows. Also, each row of apertures is spaced apart from the next adjacent row by substantially the same amount of distance. It is understood, however, that any and all other suitable arrangements of the apertures 224 are within the scope of the present invention.
As shown, the apertures 224 of both the first and second ends 234 and 236 are at least partially elliptical in shape. However, it is understood that these apertures 224 could be circular, or any other suitable shape for receiving the bolts or other fasteners to couple the first inner support 222 to the first and second inner support mounts 246, 248.
The first inner support 222 also includes a substantially flat top edge 238, a substantially flat bottom edge 240, a center support member 270, and a pair of substantially triangular cavities 230, 232 separated by the center support member 270. Each triangular cavity 230, 232 includes a substantially flat inner edge 242, in the illustrated embodiment.
First inner support 222 further includes a substantially a u- or v-shaped bottom portion 244 which contains the recessed aperture 226 corresponding to the bottom roller 250. A pair of side support members 272 connect the bottom portion 244 to the first and second ends 234, 236. The substantially triangular cavities 230, 232 are defined by the side support members 272, a pair of top support members 274, and the center support member 270 as shown.
a is an exploded view showing how portions of the second inner articulation system 400 are assembled. Assembly of the second inner articulation system 400 is similar to the assembly of the first inner articulation system 200, except that on the second side of the bed 10, flat rollers are used in place of the v-grooved rollers. As mentioned above, either side of the bed 10 can be considered the “second” side.
The second inner support 422 includes a first end 434 which, when the second inner articulation system 400 is assembled, is located toward the head end 12 of the bed 10, a second end 436 positioned toward the foot end 14 of the bed 10, a bottom portion 444, a top edge 438, a bottom edge 440, a pair of substantially triangular shaped cavities 430, 432 with inner edges 442, and a plurality of apertures 424. Each of the top edge 438, bottom edge 440, and inner edges 442 are substantially flat. The triangular shaped cavities 430, 432 are defined by first and second top support members 516, first and second outer support members 518, and a center support member 520.
In the illustrated embodiment, only one recessed aperture 426 is used. The recessed aperture 426 is configured to receive the inner roller 454 as shown by dotted line 642. As shown, the remaining apertures 424, are not recessed. However, it is understood that any suitable shape, such as elliptical or circular, could be used for the apertures 424, 522, 524. The unrecessed apertures 522 and 524 are configured to receive the at least partially threaded studs 526 of the bottom rollers 450, 452 as shown by dotted lines 644, 646.
Each of the rollers 450, 452, 454 are standard flat surface track rollers which can be obtained, for example, from McMaster-Carr. However, the bottom rollers 450, 452 are adjustable height track rollers in that the studs 526 are eccentric, or positioned off-center as shown in
Referring back to
Coupled to the cross member 48 is the actuator mount 420 which supports the second inner actuator 412. Also, the movable subframe 46 includes a support plate 530 which extends outwardly away from frame 16 underneath the side frame member 20. Coupled to the support plate 530 is the actuator mount 320 which supports the second outer actuator 312. In this way, the subassembly shown in
The components of the second outer articulation system 300 are similar to those of the first outer articulation system 100, except that flat bottom rollers are used and the bottom edge 308 of the second outer arcuate member is not v-shaped.
In the embodiment shown in
The second end 362 of the second outer arcuate member 302 includes a plurality of apertures 364 for coupling the second outer arcuate member 302 to the underside of the thigh section 32 by bolts or other suitable fasteners. The first end 360 of the second outer arcuate member 302 includes a plurality of apertures 36 for coupling the pivot coupler 318 to the second arcuate member.
The inner edge 310 of the second outer arcuate member 302 engages the outer surface 368 of the inner roller 358 as shown by the dotted line 654. The rollers 354, 356, and 358 are all standard flat surface track rollers with at least partially threaded studs, except that bottom rollers 354, 356 are adjustable height track rollers with the eccentric stud which is slightly off-center, as discussed above. These rollers are currently readily available from, for example, McMaster-Carr. Bottom rollers 354, 356 movably engage the bottom edge 308 of the second outer arcuate member 302 when the system is assembled. The rollers 354, 356, 358 are coupled to the second outer support 322 through apertures 326, 370, 372 as shown by the dotted lines 654, 656, 658.
The first end 334 of the second outer support 332 contains a plurality of substantially circular apertures 324 and a substantially elliptical aperture 346 for coupling the second outer support to the support mount 352. On the side of the first end 334 facing the second outer arcuate member 302 is a semi-circular recess 348 corresponding to the elliptical aperture 346. This aperture and recess combination is configured to support a shoulder bolt (not shown). Use of a shoulder bolt in this configuration allows for greater manufacturing tolerances. The remaining apertures 324 are configured to receive standard bolts or other suitable fasteners known in the art.
The second end 336 of the second outer support 322 includes a plurality of substantially circular un-recessed apertures 324 for coupling the second end 336 to the support mount 350. In addition, the second end 336 includes an aperture 372, which is configured to receive the threaded portion of the stud 374 of the bottom roller 356.
The bottom portion 344 of the second outer support 322 also includes an aperture 370 for receiving the threaded portion of the bottom roller 354. The substantially triangular cavities 330, 332 are defined by the bottom portion 344, the side support members 376, a center support 378 and the top support members 380. The center support 378 connects the bottom portion 334 with an at least partially circular top center portion 382. The top center portion 382 includes the recessed aperture 326 and recessed area 328 which are configured to receive the threaded portion of the stud 384 of the inner roller 358.
The first outer arcuate member 102 includes a first end 162 positioned toward the head end 12 of the bed 10 and a second end 164 positioned toward the foot end of the bed 10. The second end 164 of first outer arcuate member 102 includes a plurality of apertures 166 for coupling the first outer arcuate member 102 to the underside of the thigh section 32. The first end 162 of the first outer arcuate member 102 includes a plurality of apertures 168 for coupling the arcuate member 102 to the pivot coupler 118.
The inner edge 110 of slot 104 is substantially flat to movably engage the outer edge 170 of inner roller 158 as shown by dotted line 662. The bottom edge 108 is substantially v-shaped to movably engage the v-shaped grooves 160 of bottom rollers 154, 156. The first outer support 122 contains a plurality of recessed apertures 128 which are configured to receive the threaded portions of the rollers 158, 154, 156, as shown by dotted lines 662, 664, 666.
The first and second ends 134, 136 of the first outer support 122 also include a plurality of non-recessed apertures 124 as discussed above. The first outer support 122 is shaped substantially the same as the second outer support 422 previously discussed.
The first end 234 of the first inner support 222 is configured to be coupled to the cross member 48 via a plurality of apertures 276 and standard bolts (not shown). Coupled to the cross member 48 is the actuator mount 220 which mounts and supports the first inner actuator 212. Also coupled to the cross member 48 and extending outwardly away from frame 16 underneath the side frame portion 18 is a support plate 278. Coupled to the support plate is the actuator mount 120 which mounts and supports the first outer actuator 112.
In the illustrated embodiments, the arcuate members 102, 202, 302, and 402, and the supports 122, 222, 322, and 422 are made of aluminum or other suitable metal, composite or other supportive material, as are the various frame and deck sections of bed 10.
Although the invention has been described in detail with reference to certain illustrated embodiments, variations and modifications exist within the scope and spirit of the invention as described and as defined in the following claims.
This application is a continuation of U.S. patent application Ser. No. 11/192,698, filed Jul. 29, 2005, now U.S. Pat. No. 7,325,265, which claims the benefit of U.S. Provisional Patent Application Ser. No. 60/592,613, filed Jul. 30, 2004, both of which applications are incorporated herein by this reference. This application is related to pending U.S. patent application Ser. No. 10/107,777, published as US 2002/0174487, filed Mar. 27, 2002; U.S. Provisional Patent Application Ser. No. 60/591,838, entitled HOSPITAL BED, filed Jul. 28, 2004 and corresponding U.S. patent application Ser. No. 11/191,651, filed Jul. 28, 2005; U.S. Provisional Patent Application Ser. No. 60/592,642, entitled PATIENT SUPPORT HAVING POWERED ADJUSTABLE WIDTH, filed Jul. 29, 2004 and corresponding U.S. patent application Ser. No. 11/192,887; and U.S. Provisional Patent Application Ser. No. 60/592,775, entitled PATIENT SUPPORT HAVING AN ADJUSTABLE POPLITEAL LENGTH, filed Jul. 29, 2004 and corresponding U.S. patent application Ser. No. 11/194,347, filed Jul. 29, 2005; all of which are hereby expressly incorporated herein by reference.
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Number | Date | Country | |
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20080127421 A1 | Jun 2008 | US |
Number | Date | Country | |
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60592613 | Jul 2004 | US |
Number | Date | Country | |
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Parent | 11192698 | Jul 2005 | US |
Child | 11962682 | US |