Not Applicable.
The present invention relates generally to a bed, and more specifically to a bed having a separate foot deck that translates rotationally and longitudinally from a standard bed orientation into a chair orientation.
Hospital beds are well known in the art. While hospital beds according to the prior art provide a number of advantageous features, they nevertheless have certain limitations. The present invention seeks to overcome certain of these limitations and other drawbacks of the prior art, and to provide new features not heretofore available. A full discussion of the features and advantages of the present invention is deferred to the following detailed description, which proceeds with reference to the accompanying drawings.
The present invention generally provides a hospital bed having a non-pivotal actuation mechanism for a foot deck to assist the foot deck section in transitioning from a generally horizontal position to a generally vertical position (i.e., a chair bed) while still having the bed close to the floor even when the foot deck is in a generally vertical position.
According to one embodiment, the bed has a frame and a deck operably supported by the frame. The deck has a head deck, an intermediate deck and a foot deck. The head deck is located adjacent a head end of the bed and the foot deck is located adjacent a foot end of the bed. The intermediate deck is located between the head deck and the foot deck.
According to another embodiment, a longitudinal gap in the deck is provided between the intermediate deck and the foot deck when the intermediate deck and the foot deck are in a generally horizontal position. The longitudinal gap has a gap length defined from an edge of the intermediate deck to an edge of the foot deck of greater than 20% of a length of the foot deck.
According to another embodiment, the foot deck section translates longitudinally and rotationally to transition from the generally horizontal position to the generally vertical position.
According to another embodiment, the patient support deck has a movable head deck section and a movable foot deck section. The head deck section is located adjacent a head end of the bed and the foot deck section is located adjacent a foot end of the bed. The foot deck section transitions from the generally horizontal position to a generally vertical position to place the bed in a chair-bed configuration and to allow a user to exit the bed at the foot end of the bed. The bed also has a head end side rail operably connected to one of the frame and the head deck section, and a foot side rail operably connected to the foot deck section to assist the user when exiting out of the foot end of the bed.
According to another embodiment, the foot side rail rotates when the foot deck section transitions from the generally horizontal position to one of the plurality of angled positions.
According to another embodiment, the hospital bed has a foot end side rail rotatably connected to a shaft at one of the frame and the patient support deck to allow the foot end side rail to rotate about the shaft from a first position, where the side rail operates as a guard, to a second position.
According to another embodiment, an outer edge of the foot deck section adjacent the intermediate deck section is positioned above a plane of the intermediate deck section when the foot deck section is in the generally vertical position.
According to another embodiment, the foot deck has a first edge proximal the intermediate deck and a second edge distal the intermediate deck. After the foot deck transitions from a first generally horizontal position to a second generally vertical position, the second edge of the foot deck is positioned at least 120 millimeters from the floor when the seat deck is positioned no greater than nineteen inches from the floor.
According to another embodiment, the bed has a controller that controls the actuator to raise and lower the frame. The controller is configured to control the actuator to lower the frame to a first frame position when the foot deck is in the generally horizontal position, and to control the actuator to lower the frame to a second frame position when the foot deck is in the generally vertical position. The frame is closer to the floor in the first frame position than in the second frame position. Further, the controller precludes the frame from moving to the first frame position when the foot deck is in the generally vertical position.
According to another embodiment, the bed has a transverse foot board. The foot board is connected to the patient support deck at a foot end of the bed in a first position, and is connected to the frame adjacent a head end of the bed in a second position.
Other features and advantages of the invention will be apparent from the following specification taken in conjunction with the following drawings.
To understand the present invention, it will now be described by way of example, with reference to the accompanying drawings in which:
While this invention is susceptible of embodiments in many different forms, there is shown in the drawings and will herein be described in detail preferred embodiments of the invention with the understanding that the present disclosure is to be considered as an exemplification of the principles of the invention and is not intended to limit the broad aspect of the invention to the embodiments illustrated.
Referring now to the Figures, there are shown various embodiments of a hospital bed 10. The term “bed” herein is used to denote any embodiment of a support for a patient. As such, in different embodiments the “bed” is provided as an expandable width bed 10 as shown for example in
The bed 10 generally comprises a base frame assembly 32, an intermediate frame assembly 18, a weigh frame assembly 34 and a patient support assembly 19 (see generally the embodiments of
The patient support assembly 19 preferably comprises a support deck assembly 20 and a mattress 22, however, either component may be identified as the patient support. The patient support assembly 19 may also include a patient support extension assembly, also referred to as a deck extension assembly. Various embodiments of patient support extension assemblies are described in detail in U.S. application Ser. Nos. 11/224,668; 11/224,669; 11/224,739; and, 11/224,691.
The mattress 22 may be a foam mattress, closed air-cell mattress, inflatable mattress, low-air loss mattress, fluidized mattress, percussion mattress, rotation mattress or any other type of mattress known in the art, including a mattress made of a combination of the aforementioned. As explained above, in one embodiment the patient support assembly 19 is connected to the weigh frame assembly 34, and the weigh frame assembly 34 is connected to the intermediate frame assembly 18 via load cells.
In a preferred embodiment the bed 10 will be capable of transitioning to a chair orientation and to an expanded width orientation. The bed 10 has a head end 24, a foot end 26 opposing the head end 24, a first side 28 and a second side 30 opposing the first side 28. The term “head end” is used to denote the end of any referred to object that is positioned nearest the head end 24 of the bed 10, and the term “foot end” is used to denote the end of any referred to object that is positioned nearest the foot end 26 of the bed 10.
The bed 10 also has a headboard 23 and a footboard 25. In one embodiment, the headboard 23, as shown in
The bed 10 can assume a plurality of positions/orientations via manipulation of the intermediate frame assembly 18 [e.g., foot end 26 and head end 24 up (bed 10 in up position), foot end 26 and head end 24 down (bed 10 in lower position), foot end 26 up and head end 24 down (Trendelenburg position), and head end 24 up and foot end 26 down (reverse Trendelenburg position)], and the various deck sections (head deck section 202, intermediate or seat deck section 204 and foot deck section 1206) of the support deck assembly 20, as explained herein. For example, the bed 10 can assume a standard bed position such that the support deck assembly 20 is in the horizontal position as shown in
In both embodiments a first arm assembly 72 connects the head end 24 of the intermediate frame assembly 18 with the weigh frame assembly 34, and it is also connected to the head end actuator 75. Similarly, a second arm assembly 74 connects the foot end 26 of the intermediate frame assembly 18 with the weigh frame assembly 34, and it is also connected to the foot end actuator 76. As shown in the end views of
In a preferred positioning, when the bed 10 is placed in the chair orientation the intermediate frame assembly 18 is in a lowered position, thereby allowing the patient to easily exit the foot end 26 of the chair bed 12. In the lowered chair bed position the deck plate of the seat deck section 204 is less than 20″ from the floor, preferably approximately less than 18″ from the floor, more preferably approximately less than 17.5″ from the floor, and is most preferably approximately 17″ from the floor. Moreover, it is preferred that in the chair orientation, the deck plate of the intermediate or seat section 204 is positioned no greater than 18″ from the floor. This can be accomplished in the present invention because the foot deck section 1206 has a short length, and because a longitudinal gap 1205 is provided between the seat deck section 204 and the foot deck section 1206 (shown in
Moreover, it is understood that in the horizontal bed position, as shown in
Additionally, in one embodiment, when the bed 10 is in the non-chair position, such as the horizontal position, and the deck extender assemblies (explained herein) are in the wide position, the bed 10, as operated by the controllers, may be positioned in an even lower position than the first lowest frame position. In such an orientation, the controller may actuate to lower the frame to a position that is just above threshold clearance. Accordingly, in one embodiment, in this position the deck plate of the intermediate or seat section 204 may be positioned approximately 14-16″ from the floor.
The bed also has a plurality of siderail assemblies. The siderail assemblies generally provide a barrier that is moveable from a first position to a second position. In the first position the siderails assist in generally precluding a patient on the bed from rolling or falling off the bed (see
The base frame assembly 32 of the bed 10 generally comprises a base frame 40 and a plurality of casters 42, 43. The casters include a pair of casters 42 at the head end of the base frame assembly 32, and a pair of casters 43 at the foot end of the base frame assembly 32.
As best shown in
The intermediate frame assembly 18 of one embodiment of the bed 10 is connected to the base frame assembly 32 with a plurality of actuators to raise and lower the intermediate frame assembly 18. Two embodiments and drives for the intermediate frame assembly 18 are disclosed herein. One embodiment of the intermediate frame assembly 18 is shown in FIGS. 15-18. In this embodiment the intermediate frame assembly 18 is made of a welded tubular frame assembly. Another embodiment of the intermediate frame assembly 18 is shown in
The weigh frame assembly 34 is connected to the intermediate frame assembly 18 with a plurality of load beams. As partially shown in
The weigh frame assembly 34 generally comprises a weigh frame 70 and a plurality of actuators, including actuators to raise and lower the support deck assembly 20. Accordingly, the support deck assembly 20 is operably connected to the weigh frame assembly 34. In one embodiment of the bed 10, the support deck assembly 20 for the bed 10 comprises a plurality of different deck sections. For example, as shown in
The head deck section 202 is preferably manipulated by a plurality of linkages. In one embodiment such a linkage system is a six bar linkage. Such a linkage simultaneously manipulates the head deck section 202 both angularly upward from the weigh frame 70 as well as toward the foot end 26 of the bed 10 (i.e., on top of the seat section 204). Similarly, as the head deck section 202 is lowered, the head deck section 202 is manipulated simultaneously both angularly downward toward the weigh frame 70 as well as toward the head end 24 of the bed 10. The desired result of such movement is that the top surface of the mattress 22 remains a substantially constant length, thereby resulting in decreased shear observed by a patient resting on the bed 10. The head deck section 202 can pivot from approximately 0° in the horizontal position, to approximately 80° in the more vertical back-support position.
Referring to
In one embodiment of the bed 10, the foot end 26 of the seat deck section 204 is pivotally raised and lowered. To pivotally raise the foot end 26 of the seat deck section 204 the seat deck section actuator 184 exerts a first force on the seat deck section 204. To lower the seat deck section 204 the seat deck section actuator 184 correspondingly exerts an opposite force on the seat deck section 204. Accordingly, the seat deck section 204 is moveable from a generally horizontal position, as shown in
As shown in
The first and second side head deck extender assemblies 232, 234 are independently moveable from a first retracted position (see
As briefly explained above, in a preferred embodiment each of the deck extender assemblies 232, 234 also has a supplemental mattress assembly connected thereto for extending the patient support surface of the bed. In a preferred embodiment, a first side supplemental mattress assembly 312 is provided for the first side head deck extender assembly 232, and a second side supplemental mattress assembly 314 is provided for the second side head deck extender assembly 234 to increase the width of the surface supporting the patient. In a preferred embodiment, the width of the supplemental mattress is adapted to increase the width of the mattress of the bed approximately 5″ per side, for a total mattress width increase of 10″.
In one embodiment of the bed 10 the seat deck section 204 generally comprises a seat frame assembly 412 and a seat deck plate 440. Additionally, in one embodiment wherein the bed has a variable width component, like the head deck section 202, the seat deck section 204 also comprises a first side seat deck extender assembly 432 and a second side seat deck extender assembly 434. The first side seat deck extender assembly 432 is utilized to increase the width of the bed at the first side 28 of the bed 10, and the second side head seat extender assembly 434 is utilized to increase the width of the bed at the second side 30 of the bed 10. The deck extender assemblies 432, 434 are connected to the seat deck section 204 and allowed to move relative thereto.
Like the first and second side head deck extender assemblies 232, 234, the first and second side seat deck extender assemblies 432, 434 are also independently moveable from a first retracted position to a second expanded position. Similarly, the supplemental mattresses on the first and second side seat deck extender assemblies 432, 434 are thus repositioned from a first retracted position (see
In a preferred embodiment each of the deck extender assemblies 432, 434 also has a supplemental mattress assembly connected thereto for extending the patient support surface of the bed. In a preferred embodiment, a first side supplemental mattress assembly 512 is provided for the first side seat deck extender assembly 432, and a second side supplemental mattress assembly 514 is provided for the second side seat deck extender assembly 434. Like the head deck extender assemblies, in the retracted or non-deployed position, the seat deck extender assemblies 432, 434 are generally underneath the seat deck plate 440.
It is understood that in a preferred embodiment the deck extender assemblies operate completely independently. Accordingly, any deck extender assembly of the bed may be in the retracted or non-deployed position, the partially deployed position, or the expanded or deployed position at any time, irrespective of any other deck extender assembly.
As shown in the Figures, the support deck assembly 20 of the patient support assembly 19 also comprises a foot deck section 1206. In one embodiment the foot deck assembly 1206 does not have a deck extender assembly, but in an alternate embodiment a foot deck extender assembly is possible and within the scope of the present invention.
In a preferred embodiment, the foot deck section 1206 is operably connected to the weigh frame 70 of the weigh frame assembly 34. In one embodiment, as best shown in
Additionally, in one embodiment the foot deck plate 1207 has an enlarged rounded member 1208 at the head-end edge of the foot deck plate 1207 adjacent the gap 1205 between the foot deck section 1206 and the seat deck section 204. The enlarged rounded member 1208 may be a foam member that softens the edge of the foot deck plate 1207 when the foot deck section 1206 is in the substantially vertical position, as shown in
Additionally, as shown in
The foot deck section 1206 is operably connected to the weigh frame assembly 34 and the seat deck section 204 with a non-pivotal actuation mechanism 1607 that is driven by a foot deck actuator 1186. Accordingly, the foot deck section 1206 is not directly connected to the seat deck section 204, as is typical in most hospital beds. The foot deck actuator 1186 is also fixed to the weigh frame assembly 34. In a preferred embodiment the non-pivotal actuation mechanism 1607 simultaneously rotates and longitudinally translates the foot deck section 1206 from the generally horizontal position as shown in
Additionally, as shown in
Herein, the term longitudinal is used to denote an orientation or distance from the head end 24 to the foot end 26 of the bed 10, and the term lateral is used to denote an orientation or distance from the first side 28 to the second side 30 of the bed 10.
In one embodiment a flexible bridge 1209 is provided to join the seat deck section 204 to the foot deck section 1206. The flexible bridge 1209 is preferably made of any flexible material, however, in one embodiment a coated vinyl is utilized. The flexible bridge 1209 is connected at one end to the seat deck section 204, and at the opposing end to the foot deck section 1206. As explained herein, the flexible bridge 1209 provides support for the mattress 22 at the area of the gap 1205 when the foot deck section 1206 is in the generally horizontal position. In an alternate preferred embodiment, a separate flexible bridge 1209 is not employed. Instead, a flexible bridge may be comprised by the lower or bottom portion of the mattress encasing 856 which is strapped to the various sections of the bed 10. Further alternately, no flexible bridge may be employed.
As best shown in
The H-frame member 1611 generally comprises a first side member 1617 adjacent the first side 28 of the bed 10 and a second opposing side member 1619 adjacent the second side 30 of the bed 10 connected to the first side member 1617 with a cross member 1621. In various embodiments, the side members 1617 and 1619 may have an offset portion thereto. A clevis 1623 extends from the cross member 1621. The piston of the foot deck actuator 1186 is connected to the clevis 1623 extending from the H-frame 1611 to fix the foot deck actuator 1186 to the foot deck section 1206 for actuating the foot deck section 1206. The H-frame 1611 is also rotatedly connected to the foot deck frame 1604. Specifically, the first and second side members 1617, 1619 are pivotally connected at their respective ends to the foot deck frame 1604. The connection of the foot deck actuator 1186 to the H-frame member 1611, and the connection of the H-frame member 1611 to the foot deck frame 1604 control the translational position of the foot deck 1206.
With respect to the first link 1609 of the non-pivotal actuation mechanism 1607, the first end of the first link 1609 is rotatably connected to a lift plate 1620 extending from the torque tube connected to the weigh frame 70, and the second end of the first link 1609 is rotatedly connected to the first side member 1617 of the H-frame 1611. Similarly, the first end of the second link 1609 (the second link being on the opposite side of the bed 10 as the first link) is rotatably connected to an opposing seat lift plate 1620 extending from the torque tube connected to the weigh frame 70, and the second end of the second link 1609 is rotatedly connected to the second side member 1619 of the H-frame 1611.
The first drive rail 1613 of the non-pivotal actuation mechanism 1607 is connected at a first end to one of the first coupling members 1600 to drive the first shaft 1640a for the first foot end siderail 1670 located at the first side 28 of the bed, and is further rotatedly connected at a second end to the first control rail 1615. Similarly, the second drive rail 1613 opposing the first drive rail 1613 of the non-pivotal actuation mechanism 1607 is connected at a first end to the other first coupling member 1600 to drive the second shaft 1640b for the second foot end siderail 1672 located at the second side 30 of the bed, and is further rotatedly connected at a second end to the second control rail 1615. Accordingly, as the foot deck actuator 1186 drives the foot deck section 1206, the foot deck siderails 1670, 1672 are simultaneously driven from their first position to their second position.
As shown in
The first and second drive rails 1613 are also connected, respectively, to the H-frame member 1611 at a position between the ends of the first and second drive rails 1613. Specifically, the first drive rail 1613 is rotatedly connected to the first side member 1617 of the H-frame member 1611 at a location on the first side member 1617 between where the first link 1609 is rotatedly connected to the first side member 1617 and where the first side member 1617 is joined to the foot deck frame 1604. Similarly, the second drive rail 1613 is rotatedly connected to the second side member 1619 of the H-frame member 1611 at a location on the second side member 1619 between the second link 1609 is rotatedly connected to the second side member 1619 and where the second side member 1619 is joined to the foot deck frame 1604.
Finally, the first and second drive rails 1613 are connected, respectively, to the first and second control rails 1615. As explained above, the first control rail 1615 is adjacent the first side 28 of the bed 10, and the second control rail 1615 is adjacent the second side 30 of the bed 10. And, the end of the first control rail 1615 is pivotally connected to the foot deck frame 1604, and the end of the second control rail 1615 is pivotally connected to the foot deck frame 1604. The connection of the first and second control rails 1615 to the foot deck frame 1604 controls the angle of the foot deck assembly 1206 with respect to the H-frame 1611. As can be seen from
As shown in
As shown in
As shown in
The second coupling member 1650 comprises an outer coupling member 1649 and an inner coupling member 1651. In one embodiment as shown in
The second pair of siderail assemblies 29 generally comprises a first foot end siderail 1670 located at the first side 28 of the bed, and a second foot end siderail 1672 at the second side 30 of the bed. In one embodiment, the foot end siderails 1670, 1672 are operably connected to the foot deck section 1206 of the bed and remain stationary relative to the foot deck section 1206 during movement of the foot deck section 1206 between the generally horizontal position and the generally vertical position. Referring to
To provide for both fixed retaining of the siderails 1670, 1672 to the foot deck section 1206 and independent movement of the siderails 1670, 1672 relative to the foot deck section 1206, a locking assembly is provided. A first locking and sensor assembly is provided in
In one embodiment as best shown in
The siderail plate 1671 connects the siderail 1670, 1672, respectively to the outer coupling member 1649. Accordingly, when the outer coupling member 1649 is joined to the inner coupling member 1651, as shown in
As shown in
Additionally, a mechanical stop is utilized to preclude the foot deck siderails 1670, 1672 from being rotated to the second lower position when the foot deck 1206 is in the vertical chair position. In one embodiment the mechanical stop prohibits the activator 1684 from being pushed inwardly when the foot deck 1206 is in the chair position. Accordingly, various stops/sensors of the bed 10, both electrical and mechanical, operate to only allow the foot deck siderails 1670, 1672 from being manipulated to the second position at certain positions of the foot deck 1206 (generally when the foot deck section 1206 is less than 35° form the horizontal position).
In an alternate embodiment, as shown in
In the embodiment of
The plurality of mating members 1681 extend from the side face of the outer coupling member 1649, and are provided in a configuration identical to the configuration of apertures 1696 in the face of the inner coupling member 1651. As shown in
The siderail plate 1671 connects the siderail 1670, 1672, respectively to the outer coupling member 1649. Accordingly, when the outer coupling member 1649 is joined to the inner coupling member 1651, as shown in
As shown in
Accordingly, in the preferred embodiment the foot end siderails 1670, 1672, or alternately handles, are generally rotatably coupled to the foot deck section 1206, unless disengaged therefrom as explained above. Each siderail 1670, 1672 generally comprises a siderail plate 1671 and a barrier 1708. The siderail plate 1671 is generally connected to the second coupling member 1650. And, in one embodiment, another plate 720 connects the siderail assembly 29 to the seat deck extender assemblies 432, 434. As such, when the seat deck extender assemblies 432, 434 are extended, the second set of siderails 29 will simultaneously be extended outwardly as well. An interlock switch is provided to preclude movement of the foot deck section 1206 to the full chair position when the seat deck extender assemblies 432, 434 are in the extended position, however, the bed can transition to the cardiac position or knee-gatch position when the seat deck extenders are extended.
The siderails 1670, 1672 are provided not only as barriers, but as handles to assist the patient in moving out of the foot end 26 of the chair bed 10. Because the siderails 1670, 1672 are fixed to the shaft 1640a, 1640b in the engaged state, and because the shaft 1640a, 1640b is fixed to the foot deck section 1206 through the drive rails 1613, in the engaged state, the siderails 1670, 1672 are also fixed to the foot deck section 1206 and have relative movement with the foot deck section 1206. Thus, as the foot deck section 1206 is rotated from the generally horizontal position to the substantially vertical position, the foot end siderails 1670, 1672 also rotate therewith. The patient can hold onto the foot end siderails 1670, 1672 during this rotation to advance the patient toward the foot end 26 of the chair bed 10 for easier exit therefrom and entrance thereto. The patient can also grasp the siderails as handles when exiting and entering the chair bed 10.
Further, because the foot end siderails 1670, 1672 are independently fixed to their respective shaft 1640a, 1640b, the foot end siderails 1670, 1672 move from their first position to their second position through rotational movement. Thus, the barrier portion 1708 of the siderails 1670, 1672 moves in a single vertical plane from the first position above the support deck 20 to the second position below the support deck to provide full access to the patient on the top surface of the mattress 22. The barrier portion 1708 is configured to be conveniently gripped by the patient while entering and exiting the bed. Additionally, in alternate embodiments controls (such as a control button or switch) and/or a controller are integral with any of the siderail assemblies identified herein. Such controls may be provided in the foot end siderails 1670, 1672 and utilized to lower the foot deck section 1206 from the generally horizontal position to the substantially vertical position. By having controls in the siderail assemblies the patient can hold onto the foot end siderails 1670, 1672 and lower the foot deck section 1206 simultaneously at a controlled rate to assist in both rotating the foot deck section 1206 and advancing the patient toward the foot end 26 of the bed for easier exit therefrom.
Each of the foot end siderails 1670, 1672 can also independently slide inward and outward about the axis of their respective shafts 1640a, 1640b. In one embodiment the foot end siderails 1670, 1672 are connected to their respective seat deck extender assemblies with a plate 720. Thus, as either of the seat deck extender assemblies 432, 434 are extended outwardly to increase the width of the bed, the foot end siderail 1670, 1672 at that side of the bed will also move outwardly. To accomplish such, each shaft 1640a, 1640b merely independently slides about its axis such within the first coupling member 1600. When the seat deck extender assemblies 432, 434 are pushed back inward to their first position, the foot end siderails 1670, 1672 will also move inwardly therewith to their standard position.
The bed 10 also incorporates a variety of lock-out features. For example, when the foot end siderails 29 or handles are in the second or down position, the foot actuator 1186 is locked out and cannot transition the foot deck 1206 to the full chair position.
As explained above, the bed also has a first set of siderails 27. In one embodiment the first set of siderails 27 are provided toward the head end 24 of the bed. The first set of siderails 27 generally comprise a first head end siderail 800 located at the first side 28 of the bed, and a second head end siderail 802 located at the second side 30 of the bed. In one embodiment, the head end siderails 800, 802 are operably connected to the head deck section 202 of the bed and remain stationary relative to the head deck section 202 during movement of the head deck section 202 between the generally horizontal position and a more vertical back support position. In alternate embodiments, either of the sets of siderails 27, 29 may be connected to any frame of the bed, but they are preferable connected to the patient support platform 20. Additionally, the head end siderails 800, 802 may be connected to the seat deck section 204, the seat deck extenders, or any other support deck. In a preferred embodiment the first head end siderail 800 is connected to the first side head deck extender assembly 232, and the second head end siderail 802 is connected to the second side head deck extender assembly 234. The first and second head end siderails 800, 802 are moveable from a first position (see
As previously disclosed, the bed 10 has a patient support assembly 19, which in some embodiments includes a mattress 22. One embodiment of a mattress 22 for the bed 10 is shown in
In use, as the foot deck section 1206 of the support deck 20 is rotated downwards into the chair position, the air cell portion 1812 of the mattress will bend more easily around the raised head end edge of the foot deck (see
In one embodiment, the footboard 25, as shown in
In a preferred embodiment, when the footboard 25 is removed from its engagement with the foot deck 1206 it can be relocated at the head end 24 of the bed 10, and most preferably adjacent the head board of the bed 10. As shown in
While different beds are referenced herein, such as a standard bed 10, a chair bed, an expanding width bed, etc. it is understood that any feature disclosed herein may be utilized with any type patient support mechanism, and reference to one type of bed respecting a particular feature does not preclude incorporation of that feature into any other type of bed.
Several alternative embodiments and examples have been described and illustrated herein. A person of ordinary skill in the art would appreciate the features of the individual embodiments, and the possible combinations and variations of the components. A person of ordinary skill in the art would further appreciate that any of the embodiments could be provided in any combination with the other embodiments disclosed herein. Additionally, the terms “first,” “second,” “third,” and “fourth” as used herein are intended for illustrative purposes only and do not limit the embodiments in any way. Further, the term “plurality” as used herein indicates any number greater than one, either disjunctively or conjunctively, as necessary, up to an infinite number.
It will be understood that the invention may be embodied in other specific forms without departing from the spirit or central characteristics thereof. The present examples and embodiments, therefore, are to be considered in all respects as illustrative and not restrictive, and the invention is not to be limited to the details given herein. Accordingly, while the specific embodiments have been illustrated and described, numerous modifications come to mind without significantly departing from the spirit of the invention and the scope of protection is only limited by the scope of the accompanying Claims.
This application is a continuation-in-part of U.S. Provisional Patent Application Ser. No. 61/133,267, filed on Jun. 27, 2008, which is expressly incorporated herein by reference.
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