Bed having a removable foot section

Information

  • Patent Grant
  • 6757924
  • Patent Number
    6,757,924
  • Date Filed
    Tuesday, September 24, 2002
    22 years ago
  • Date Issued
    Tuesday, July 6, 2004
    20 years ago
Abstract
A patient support apparatus including a patient support and a removable section. A locking mechanism includes interactive members supported by the patient support and the removable section for releasably securing the removable section to the patient support.
Description




BACKGROUND OF THE INVENTION




This invention relates to a birthing bed, and particularly to a removable foot section for a birthing bed. More particularly, this invention relates to an apparatus for attaching a removable foot section to a birthing bed.




Conventional birthing beds typically have a detachable foot section. The removal of the foot section permits a caregiver to slide a stool into the space vacated by the foot section so as to be in position to assist in delivery. After delivery, the foot section is reattached to a patient support deck (hereafter, “the patient support”) of the birthing bed. The present invention comprises improvements to such beds.




SUMMARY OF THE INVENTION




The present invention will be described primarily as a birthing or delivery bed, but it will be understood that the same may be used in conjunction with any other patient support apparatus, such as a hospital stretcher or an operating table. Also, the present invention will be described primarily as a mechanism for attaching a removable foot section to the patient support such that the foot section extends generally horizontally in the plane of the patient support. But it will be understood that the same may be used for attaching a removable head section or a removable side panel to the patient support such that the removable head section or the removable side panel, as the case may be, extends generally horizontally in the plane of the patient support.




According to an embodiment of the present invention, a patient support apparatus comprises a patient support having a first generally planar surface, a removable section having a second generally planar surface, and an attachment mechanism configured to secure the removable section to the patient support such that the second planar surface of the removable section is aligned generally parallel to the first planar surface of the patient support only when the removable section is fully inserted into the patient support and latched to the patient support.




According to another embodiment of the invention, the foot section must be inserted into the bed at an angle relative to the patient support, and is configured to become generally coplanar with the patient support only when it is fully inserted into the bed.




According to still another embodiment, if the foot section is inserted only a part of the way into the bed and let go, it will assume a non-coplanar position with respect to the patient support. The foot section will become generally coplanar with the patient support only when it is fully inserted into the bed.




According to yet another illustrated embodiment of the present invention, a patient support apparatus comprises a patient support, a removable section, and a latch having interactive members coupled to the patient support and the removable section. The removable section is movable between a first position wherein the removable section is coupled to the patient support by the interactive members and a second position wherein the removable section is spaced apart from the patient support. The removable section is movable from the second position to the first position along an inclined path of travel having both horizontal and vertical components relative to a ground surface.




According to a further illustrated embodiment of the present invention, a patient support apparatus comprises a patient support, and a removable section movable between a first position wherein the removable section is coupled to the patient support and a second position wherein the removable section is spaced apart from the patient support. The patient support apparatus further comprises a locking mechanism including a detent coupled to one of the patient support and the removable section and a detent release coupled to the other of the removable section and the patient support, wherein the detent release is selectively connected to the detent when the removable section is in the first position.




In still yet another illustrated embodiment of the present invention, a patient support apparatus comprises a patient support, a removable section, and an attachment mechanism including cooperating engagement members coupled to the patient support and the removable section. The removable section is movable between a first position wherein the removable section is connected to the patient support by the engagement members and a second position wherein the removable section is spaced apart from the patient support. The patient support apparatus further comprises a locking mechanism including a locking recess supported by the removable section and a detent supported by the patient support, the detent movable between a first position received within the locking recess and a second position in spaced relation to the locking recess when the removable section is coupled to the patient support by the engagement members.




According to a further illustrated embodiment of the present invention, a patient support apparatus comprises a patient support, a removable section movable between a first position wherein the removable section is coupled to the patient support and a second position wherein the removable section is spaced apart from the patient support. The patient support apparatus further comprises a latch coupled to the patient support and movable between a first, locked position and a second, unlocked position. A latch release is coupled to the removable section, wherein movement of the latch release moves the latch between the locked position and the unlocked position when the removable section is in the first position.




According to yet another illustrated embodiment of the present invention, a removable section for selective coupling with a patient support comprises a body, a guide member supported by the body, and a handle supported for sliding movement by the guide member. The removable section further comprises a locking mechanism including an interactive member operably connected to the handle, wherein movement of the handle moves the interactive member.




Additional features of the present invention will become apparent to those skilled in the art upon a consideration of the following detailed description of the preferred embodiments exemplifying the best mode of carrying out the invention as presently perceived.











BRIEF DESCRIPTION OF THE DRAWINGS




The detailed description particularly refers to the accompanying figures in which:





FIG. 1

is a perspective view of a birthing bed showing a removable foot section fully inserted into the bed and latched to the patient support, the foot section extending generally horizontally in the plane of the patient support, and further showing a head section raised to a reclining position;





FIG. 2

is a perspective view of a birthing bed similar to

FIG. 1

, but showing the foot section detached from the seat section;





FIG. 3

is a side elevational view, partly in section, of a portion of the birthing bed showing a foot section attachment mechanism in accordance with an embodiment of this invention, the foot section attachment mechanism including a guide member coupled to the main frame and configured for extending into a diverging guide channel coupled to the foot section when the foot section is inserted into the birthing bed, the diverging guide channel including a ramp portion near the foot end thereof which is configured to engage the guide member when the foot section is inserted into the birthing bed to cause the foot section to align with the patient support, a latch bar pivotally coupled to the foot section is configured to lock the foot section to the patient support when the foot section is fully inserted into the birthing bed and the foot section is aligned with the patient support;





FIGS. 4-6

are side elevational views, partly in section, similar to

FIG. 3

, and showing a sequence of steps involved in attaching the foot section to the patient support;





FIG. 7

is a perspective view of the foot section, partly broken away; showing a release handle coupled to the latch bar for releasing the foot section from the patient support;





FIG. 8

is an exploded view of the foot section and the foot section locking mechanism;





FIGS. 9 and 10

are side elevational views, partly in section, of an alternative embodiment of the present invention comprising two posts attached to the foot section configured for insertion into two oppositely-disposed retaining slots in the patient support to lock the foot section to the patient support, the foot section not aligning with the patient support until the foot section is completely inserted and locked to the patient support;





FIGS. 11 and 12

are side elevational views similar to

FIGS. 9 and 10

, partly in section, of a variation of the alternative embodiment shown in

FIGS. 9 and 10

;





FIG. 13

is a perspective view of another alternative embodiment of the attachment mechanism of the removable foot section of the present invention, the attachment mechanism including a first portion on the foot section of the bed and a second portion on the patient support;





FIG. 14

is a perspective view of the first portion of the attachment mechanism of

FIG. 13

;





FIG. 15

is a side elevational view of the attachment mechanism of

FIG. 13

showing the foot section oriented to be moved in the direction of the arrow toward the patient support to couple the foot section and patient support;





FIG. 16

is a side elevational view similar to

FIG. 15

showing the orientation of the foot section relative to the patient support when the first and second portions of the attachment mechanism initially contact;





FIG. 17

is a side elevational view similar to

FIG. 16

showing the orientation of the foot section relative to the patient support when the first and second portions of the attachment mechanism are coupled to couple the foot section and patient support;





FIG. 18

is a side elevational view similar to

FIG. 17

showing the orientation of the foot section relative to the patient support when the foot section is uncoupled from the patient support;





FIG. 19

is a perspective view of a further alternative embodiment of the removable foot section of the present invention including an attachment mechanism and a locking mechanism, both mechanisms including a first portion on the foot section of the bed and a second portion on the patient support;





FIG. 20

is a perspective view of the first portions of the attachment mechanism and the locking mechanism of

FIG. 19

, with an active position of the release handle and the detent release shown in phantom;





FIG. 21

is a perspective view of the second portions of the attachment mechanism and the locking mechanism of

FIG. 19

;





FIG. 22

is a perspective view of the attachment mechanism and the locking mechanism of

FIG. 19

, illustrating the foot section locked to the patient support by a detent received within a locking recess;





FIG. 23

is a perspective view similar to that of

FIG. 22

, illustrating the foot section unlocked from the patient support by a detent release forcing the detent away from the locking recess;





FIG. 24

is a side elevational view, in partial section, of the attachment mechanism and locking mechanism of

FIG. 19

showing the foot section oriented to be moved in the direction of the arrow toward the patient support to couple the foot section and the patient support;





FIG. 25

is a side elevational view, in partial section, similar to

FIG. 24

showing the orientation of the foot section relative to the patient support when the first and second portions of the attachment mechanism initially contact;





FIG. 26

is a side elevational view, in partial section, similar to

FIG. 25

showing the orientation of the foot section relative to the patient support when the first and second portions of the attachment mechanism are coupled, and the first and second portions of the locking mechanism releasably lock the foot section to the patient support;





FIG. 27

is a side elevational view, in partial section, similar to

FIG. 26

showing the orientation of the foot section relative to the patient support when the first and second portions of the locking mechanism unlock the foot section for movement relative to the patient support;





FIG. 28

is a perspective view of another alternative embodiment of the removable foot section of the present invention including release handles slidably supported by the foot section; and





FIG. 29

is a perspective view of the removable foot section of FIG.


28


.











DETAILED DESCRIPTION OF THE DRAWINGS




The present invention will be described primarily as a birthing or delivery bed, but it will be understood that the same may be used in conjunction with any other patient support apparatus, such as a hospital stretcher or an operating table. Also, the present invention will be described primarily as a mechanism for attaching a removable foot section to the patient support such that the foot section extends generally horizontally in the plane of the patient support. But it will be understood that the same may be used for attaching a removable head section or a removable side panel to the patient support such that the head section or the side panel, as the case may be, extends generally horizontally in the plane of the patient support.




Referring to

FIGS. 1 and 2

, an illustrative birthing bed


20


is shown having a main frame


22


mounted by a parallelogram linkage


24


to a base frame


26


. The base frame


26


has casters


28


for supporting the bed


20


on the floor. The bed


20


includes a patient support deck


30


(hereafter, “the patient support


30


”) for supporting a mattress


56


on which a patient can rest. The patient support


30


includes a generally horizontal seat section


34


rigidly mounted to the main frame


22


. A head section


36


is pivotally mounted to the seat section


34


so that the bed


20


can be articulated between a generally horizontal lying-down position defining a generally horizontal, upwardly-facing surface


32


in the plane of the seat section


34


, a generally reclining sitting-up position inclined with respect to the seat section


34


, and an infinite number of intermediate positions in between. The seat section


34


includes a central opening


38


into which a removable foot section


40


is inserted such that an upper surface


42


of the foot section


40


extends generally horizontally in the plane of the patient support surface


32


when the foot section


40


is fully inserted into the central opening


38


and latched to the seat section


34


. A detachable portion


58


of the mattress


56


is secured to the foot section


40


by any suitable means—such as a plurality of Velcro® fasteners, snaps, ties or the like. Detachable mattress portion


58


is removed from foot section


40


in FIG.


2


. Top surface


43


of foot section


40


is configured to be aligned in substantially the same plane as seat section


34


of patient support


30


only when the foot section


40


is fully inserted and latched as discussed below.




As shown in

FIGS. 2 and 8

, the foot section


40


includes a pair of handles


48


, one on each side, adjacent to a foot end


46


of the foot section


40


. The handles


48


assist the caregiver to pull the foot section


40


away from the bed


20


so that the foot section


40


is detached from the patient support


30


and stored. The foot section


40


includes a floor stand


50


adjacent to the foot end


46


for vertically supporting the foot section


40


on the floor. As used in this description with reference to the bed


20


, the phrase “head end” will be used to denote the end of any referred-to object that is positioned to lie nearest the head end


60


of the bed


20


, and the phrase “foot end” will be used to denote the end of any referred-to object that is positioned to lie nearest the foot end


62


of the bed


20


.




The head section


36


has two siderails


52


mounted thereon, one on each side of the head section


36


. Mounted to the underside of the seat section


34


are labor grips


54


, one on each side of the bed


20


. The labor grips


54


have two principal positions—a vertical operative position projecting substantially perpendicularly to the seat section


34


, and a horizontal out-of-the-way storage position tucked underneath the seat section


34


. In their vertical operative positions, the labor grips


54


can be gripped by the mother to assist her in generating maximum thrust during delivery. A pair of pivotable foot supports


55


are coupled to supports


57


.





FIGS. 3-6

illustrate a foot section attachment mechanism


68


in accordance with an embodiment of the present invention. The foot section attachment mechanism


68


includes two guide members


70


coupled to the supports


57


of the main frame


22


, one on each side of the bed


20


, and two guide tracks


80


coupled to the foot section


40


, one on each side of the foot section


40


. Although the guide members


70


are coupled to the main frame


22


in this particular embodiment, they may very well be coupled instead to the seat section


34


which is rigidly mounted to the main frame


22


. Since the construction and the operation of the two guide members


70


and the two guide tracks


80


is similar, only one guide member and one guide track will be described herein in the interest of brevity. It will be understood that the construction and the operation of the other guide member and the other guide track is similar. The two guide members


70


and the two guide tracks


80


are sometimes referred to herein as the cooperating engagement members.




The guide track


80


includes a lip or ramp portion


90


near its entrance


92


. The ramp portion


90


engages a leading edge


76


of the guide member


70


during insertion of the foot section


40


into the bed


20


to direct the guide member


70


into the guide track


80


. The guide member


70


includes a first upwardly-facing surface portion


72


on an upper side thereof and a second downwardly-facing surface portion


74


on an underside thereof, both surface portions


72


and


74


extending generally parallel to the generally horizontal, upwardly-facing surface


32


of the seat section


34


. The guide track


80


coupled to the foot section


40


includes a first downwardly-facing surface portion


82


on an upper side thereof extending generally at an angle ψ with respect to the upwardly-facing surface


42


of the foot section


40


(illustratively, between about 10° and about 30°), and a second upwardly-facing surface portion


84


on a lower side thereof extending generally parallel to the upwardly-facing surface


42


of the foot section


40


. The first downwardly-facing surface portion


82


and the second upwardly-facing surface portion


84


of the guide track


80


form a diverging guide channel


86


into which the guide member


70


extends when the foot section


40


is inserted into the bed


20


in the direction of arrow


300


. The first generally-inclined, downwardly-facing surface portion


82


of the guide track


80


includes a downwardly-projecting ramp portion


88


near its foot end


94


(sometimes referred to herein as “the inner end”), which engages the leading edge


76


of the guide member


70


when the foot section


40


is inserted into the bed


20


to cause the first generally-inclined, downwardly-facing surface portion


82


of the guide track


80


to move away from the first generally-horizontal, upwardly-facing surface portion


72


of the guide member


70


, and to cause the second generally-parallel, upwardly-facing surface portion


84


of the guide track


80


to move closer to the second generally-horizontal, downwardly-facing surface portion


74


of the guide member


70


to, in turn, cause the upwardly-facing surface


42


of the foot section


40


to align in substantially the same plane with the upwardly-facing surface


32


of the patient support


30


.




The foot section


40


includes a foot section locking mechanism


100


best shown in

FIGS. 7 and 8

. The foot section locking mechanism


100


locks the foot section


40


to the patient support


30


when the foot section


40


is fully inserted into the bed


20


and the upwardly-facing surface


42


of the foot section


40


is aligned with the upwardly-facing surface


32


of the patient support


30


. The foot section locking mechanism


100


includes two latch bars


102


pivotally mounted on opposite sides of the foot section


40


by means of a transversely-extending connecting rod


110


. Attached to the underside of the foot section


40


near the head end


44


thereof are two downwardly-projecting brackets


112


, one on each side of the foot section


40


. As shown in

FIG. 8

, the two ends of the connecting rod


10


are passed through two slightly oversized openings


122


in the downwardly projecting brackets


112


and through two slightly oversized openings


132


in the two latch bars


102


, and securely held in place by two sets of C-shaped retaining rings


142


—one on each side of the foot section


40


.




Since the two latch bars


102


are mirror images of each other, only one latch bar will be described herein in the interest of brevity. It will be understood that the construction and operation of the other latch bar is similar. The latch bar


102


is movable between a first operative position where a generally triangular portion


152


coupled to a first end


104


of the latch bar


102


enters a generally triangular retaining slot


162


in the guide member


70


through an opening


96


in the second upwardly-facing surface portion


84


of the guide track


80


to lock the foot section


40


to the patient support


30


when the foot section


40


is fully inserted into the bed


20


and the upwardly-facing surface


42


of the foot section


40


is aligned with the upwardly-facing surface


32


of the patient support


30


, and a second inoperative position where the triangular portion


152


is out of the retaining slot


162


to release the foot section


40


. A spring


158


coupled to the latch bar


102


biases the latch bar


102


toward its first operative position. Illustratively, in this embodiment, the triangular portion


152


coupled to the first end


104


of the latch bar


102


is formed integrally therewith.




The triangular portion


152


includes a first generally vertical side


154


adapted for engaging a first generally vertical side


164


of the retaining slot


162


, and a second generally inclined side


156


adapted for engaging a second generally inclined side


166


of the retaining slot


162


. During attachment of the foot section


40


to the rest of the bed


20


, the inclined side


156


of the latch bar


102


cams against the leading edge


76


of the guide member


70


thereby pivoting the latch bar


102


downwardly against the bias of the spring


158


until the triangular portion


152


of the latch bar


102


aligns with the retaining slot


162


in the guide member


70


at which point the spring


158


biases the latch bar


102


upwardly so that the triangular portion


152


is received in the retaining slot


162


. Thus, the spring


158


coupled to the latch bar


102


inserts the triangular portion


152


into the retaining slot


162


in the guide member


70


to lock the foot section


40


to the patient support


30


when the foot section


40


is fully inserted into the bed


20


and the upwardly-facing surface


42


of the foot section


40


is aligned with the upwardly-facing surface


32


of the patient support


30


. The first vertical side


154


of the triangular portion


162


of the latch bar


102


bears against the first vertical side


164


of the retaining slot


162


in the guide member


70


to prevent extraction of the foot section


40


from the bed


20


.




As indicated before, the foot section


40


is detachable from the patient support


30


. The removal of the foot section


40


permits a caregiver to slide a stool into the space vacated by the foot section


40


to be in position to assist in delivery. To this end, a foot section release handle


172


is mounted to the foot section


40


adjacent to its foot end


46


as shown in

FIGS. 7 and 8

. The foot section release handle


172


includes a first portion


174


providing a handle, a middle portion


176


pivotally coupled to the foot section


40


about a transversely-extending pivot pin


180


, and a third portion


178


pivotally coupled to a third portion


108


of the latch bar


102


by a longitudinally-extending coupling rod


182


. When the release handle


172


is rotated clockwise in the direction of arrow


310


, the coupling rod


182


moves outwardly in the direction of arrow


312


. As shown in

FIGS. 6 and 7

, the outward motion of the coupling rod


182


, in turn, causes the latch bar


102


to turn clockwise in the direction of arrow


314


, whereby the triangular portion


152


coupled to latch bar


102


disengages from the retaining slot


62


to free the foot section


40


.




Thus, the foot section attachment mechanism


68


is configured such that the upper surface


42


of the foot section


40


will not become parallel with the upper surface


32


of the seat section


34


until the foot section


40


is fully inserted into the opening


38


in the seat section


34


. Upon full insertion of the foot section


40


into the opening


38


, the locking mechanism


100


automatically locks the foot section


40


to the rest of the bed


20


. Therefore, the foot section attachment mechanism


68


provides the caregiver with a visual indication (i.e., the orientation of the upper surface


42


of the foot section


40


) regarding whether the foot section


40


is properly attached to the rest of the bed


20


.




An alternative embodiment of the present invention is shown in

FIGS. 9 and 10

. As shown therein, a foot section attachment mechanism


190


includes two guide members


200


coupled to the main frame


22


, one on each side of the bed


20


, and two brackets


210


coupled to the removable foot section


40


, one on each side of the foot section


40


. Although the guide members


200


are coupled to the main frame


22


in this particular embodiment, they may very well be coupled instead to the seat section


34


which is rigidly mounted to the main frame


22


. Since the construction and the operation of the two guide members


200


and the two brackets


210


is similar, only one guide member and one bracket will be described herein. It will be understood that the construction and the operation of the other guide member and the other bracket is similar. The two guide members


200


and the two brackets


210


are sometimes referred to herein as the cooperating engagement or interactive members.




The guide member


200


coupled to the main frame


22


includes two oppositely-disposed retaining slots—a leading forwardly-extending retaining slot


202


extending downwardly toward the foot end


62


of the bed


20


, and a trailing rearwardly-extending retaining slot


204


extending upwardly toward the head end


60


of the bed


20


. The bracket


210


coupled to the foot section


40


, on the other hand, includes two posts—a leading post


232


near the head end


44


of the foot section


40


and a trailing post


234


near the foot end


46


of the foot section


40


. The two retaining slots


202


and


204


form a passageway


216


in the guide member


200


that terminates into an opening


218


through which the two posts


222


and


224


enter the two retaining slots


202


and


204


respectively when the foot section


40


is inserted into the bed


20


to lock the foot section


40


to the patient support


30


.




As shown in

FIGS. 9 and 10

, the leading forwardly-extending retaining slot


202


extending downwardly toward the foot end


62


of the bed


20


has a central axis


212


that subtends a first angle a relative to the upwardly-facing surface


32


of the patient support


30


. On the other hand, the trailing rearwardly-extending retaining slot


204


extending upwardly toward the head end


60


of the bed


20


has a central axis


214


that subtends a second angle β relative to the upwardly-facing surface


32


of the patient support


30


that is larger than the first angle α. Illustratively, the first angle α is about 30°, and the second angle β is about 45°. The two posts


232


and


234


are mounted to the bracket


210


by respective transversely-extending bolts


242


and


244


. The two bolts


242


and


244


lie in a plane


246


that forms a third angle θ relative to the upwardly-facing surface


42


of the foot section


40


that lies between the first angle a and the second angle β. Illustratively, the third angle θ between the plane


246


and the upwardly-facing surface


42


of the foot section


40


is about 37.5°. In the embodiment shown, the leading post


232


is made larger than the trailing post


234


, and likewise the leading retaining slot


202


is made larger than the trailing retaining slot


204


. This arrangement of unequal posts


232


and


234


and unequal retaining slots


202


and


204


prevents the larger leading post


232


from inadvertently entering the smaller trailing retaining slot


204


during insertion and removal of the foot section


40


into and from the rest of the bed


20


.




In operation, as shown in

FIG. 9

, the foot section


40


is inserted into the bed


20


in the direction of arrow


320


at an angle Φ about 30°, to insert the larger leading post


232


into the larger, forwardly-extending retaining slot


202


through the opening


218


in the guide member


200


during forward motion of the foot section


40


toward the head end


60


of the bed


20


. After the foot section


40


is fully inserted into the bed


20


so that the larger leading post


232


engages the bottom portion


222


of the forwardly-extending retaining slot


202


, it is pivoted downwardly about the larger leading post


232


. This downward pivoting of the foot section


40


about the larger leading post


222


allows the smaller trailing post


234


to enter the smaller, rearwardly-extending retaining slot


204


through the opening


218


in the guide member


200


. When the foot section


40


is let go thereafter, it moves slightly outwardly toward the foot end


62


as shown in

FIG. 10

until the smaller trailing post


234


engages the bottom portion


224


of the rearwardly-extending retaining slot


204


. This outward motion of the foot section


40


allows the upwardly-facing surface


42


of the foot section


40


to align with the upwardly-facing surface


32


of the patient support


30


, and simultaneously locks the foot section


40


to the patient support


30


.




On the other hand, when the foot section


40


is inserted horizontally into the bed


20


in the plane of the upwardly-facing surface


32


of the patient support


30


, a lip portion


220


of the guide member


200


near the opening


218


blocks the entry of the trailing post


234


into the passageway


216


in the guide member


200


. Thus, the lip portion


220


of the guide member


200


prevents a partial entry of the foot section


40


into the bed


20


. The foot section


40


must be inserted into the bed


20


at a certain angle Φ relative to the upwardly-facing surface


32


of the patient support


30


, and will become horizontal only when the foot section


40


is fully inserted into the bed


20


and locked in place.




In the particular embodiment described herein, the leading and trailing retaining slots


202


and


204


are illustratively formed in the guide member


200


secured to the main frame


22


. However, the retaining slots


202


and


204


may very well be formed directly in the main frame


22


instead. Although two posts


232


and


234


are secured to the bracket


210


by bolts


242


and


244


, the two posts


232


and


234


may be replaced by two rollers and pivotally secured to the bracket


210


by pivot pins instead. Also, the posts


232


and


234


may be directly mounted to the foot section


40


.





FIGS. 11 and 12

show a variation of the alternative embodiment of the foot section attachment mechanism


190


of

FIGS. 9 and 10

. The two posts


232


and


234


in the embodiment of

FIGS. 11 and 12

are identical to those in the embodiment of

FIGS. 9 and 10

. The configuration of the retaining slots


202


and


204


is, however, slightly different. The operation of the embodiment of

FIGS. 11 and 12

is, however, similar to the operation of the embodiment of

FIGS. 9 and 10

.





FIGS. 13-18

show an alternative embodiment of a foot section attachment mechanism


368


that is similar to the foot section attachment mechanism


68


shown in

FIGS. 2-8

. Those elements in

FIGS. 13-18

identified by reference numbers identical to

FIGS. 2-8

perform the same or similar function. The attachment mechanism


368


includes a first portion


370


coupled to supports


57


and a second portion


372


coupled to foot section


340


. In the

FIG. 13

embodiment, detachable mattress section


58


is shown removed from the foot section


340


.




First portion


370


of each attachment mechanism


368


is coupled to support


57


at an upwardly projecting angle as shown in FIG.


13


and

FIGS. 15-18

. Second portions


372


of each attachment mechanism


368


are similar to guide tracks


80


discussed above except that the guide tracks


380


are aligned at a steeper downward angle illustrated by angle


381


in

FIG. 15

relative to top surface


343


of the foot section


340


. Therefore, foot section


340


is installed on to patient support


30


by moving foot section


340


toward the patient support


30


at a downwardly directed angle in the direction of arrow


381


as shown in

FIGS. 13 and 15

. Illustratively, the angle of the path of travel is about 20° downwardly relative to horizontal. It is understood that this angle may be between about 10° and about 80°.





FIGS. 14-18

illustrate the foot section attachment mechanism


368


in more detail. The foot section attachment mechanism


368


includes two guide members


370


coupled to the supports


57


of the main frame


22


by fasteners


371


. One guide member


370


is coupled to support


57


on each side of the bed


20


, and two guide tracks


380


coupled to the foot section


340


, one on each side of the foot section


340


. Although the guide members


370


are coupled to the main frame


22


in this particular embodiment, they may very well be coupled instead to the seat section


34


which is rigidly mounted to the main frame


22


. Since the construction and the operation of the two guide members


370


and the two guide tracks


380


is similar, only one guide member and one guide track will be described herein in the interest of brevity. It will be understood that the construction and the operation of the other guide member and the other guide track is similar. The two guide members


370


and the two guide tracks


380


are sometimes referred to herein as the cooperating interactive members.




Each guide track


380


includes a lip or ramp portion


390


near its entrance


392


. The ramp portion


390


engages a leading edge


376


of the guide member


370


during insertion of the foot section


340


into the bed


20


to direct the guide member


370


into the guide track


380


. The guide member


370


includes a first upwardly-facing surface portion


372


on an upper side thereof and a second downwardly-facing surface portion


374


on an underside thereof, both surface portions


372


and


374


extending at an upwardly directed angle


373


relative to a horizontal plane defined by the upwardly-facing surface of the seat section


34


. The guide track


380


coupled to the foot section


340


includes a first downwardly-facing surface portion


382


on an upper side thereof extending generally at an angle


381


with respect to the upwardly-facing surface


343


of the foot section


340


, and a second upwardly-facing surface portion


384


on a lower side which also extends at a non-parallel angle relative to the upwardly-facing surface


343


of the foot section


340


. The first downwardly-facing surface portion


382


and the second upwardly-facing surface portion


384


of the guide track


380


form a diverging guide channel


386


into which the guide member


370


extends when the foot section


340


is inserted into the bed


20


in the direction of arrow


381


. The first generally-inclined, downwardly-facing surface portion


382


of the guide track


380


includes a downwardly-projecting ramp portion


388


near its foot end


394


which engages the leading edge


376


of the guide member


370


when the foot section


340


is inserted into the bed


20


to cause the first generally-inclined, downwardly-facing surface portion


382


of the guide track


380


to move away from the first upwardly-facing surface portion


372


of the guide member


370


, and to cause the second upwardly-facing surface portion


384


of the guide track


380


to move closer to the downwardly-facing surface portion


374


of the guide member


370


. This, in turn, cause the upwardly-facing surface


343


of the foot section


340


to be aligned in substantially the same plane with the seat support


34


of the patient support


30


.




The foot section


340


also includes a foot section locking mechanism


100


as best shown in

FIGS. 7 and 8

and described above. The foot section locking mechanism


100


locks the foot section


340


to the patient support


30


when the foot section


340


is fully inserted into the bed


20


and the upwardly-facing surface


343


of the foot section


340


is aligned with the seat support


34


of the patient support


30


.




As shown in

FIG. 14

, the second portion


372


of attachment mechanism


368


is mounted to a downwardly extending plate


373


of foot section


340


by suitable fasteners


375


. Plate


373


may be coupled to foot section


340


by suitable fasteners such as bolts, screws, rivets, or by welding.





FIG. 15

illustrates the movement of foot section


340


toward the patient support


30


during installation of the foot section


340


. Foot section


340


moves downwardly in the direction of arrow


381


in order to install the foot section


340


on to the patient support


30


. Leading ramp portion


390


of track


380


is configured to engage the upper surface


372


or the front surface


376


of guide member


370


as the foot section


340


approaches the guide member


370


. Therefore, ramp portion


390


and downwardly facing surface


382


slide over upwardly facing surface


372


so that guide member


370


moves into channel


386


. During installation of the foot section


340


, top surface


343


is aligned at a plane which is transverse to a plane of seat support


34


. The angled top surface


343


therefore provides a visual indication to the caregiver that the foot section


340


is not fully inserted and latched into the patient support


30


.





FIG. 16

illustrates the foot section partially inserted on to the guide members


370


. The downwardly facing surface


382


engages the upwardly facing surface


372


in the orientation of FIG.


16


. Top surface


343


is still aligned in a transverse plane relative to seat section


34


of the patient support


30


to show that the foot section


340


is not latched. As the foot section


340


continues movement in the direction of arrow


381


from the position shown in

FIG. 16

to the position shown in

FIG. 17

, the ramp portion


388


engages the leading edge


376


of guide


370


to move surface


382


upwardly away from surface


372


of guide member


370


as shown in FIG.


17


. Triangular portion


152


of latch bar


102


enters the slot


362


formed in guide member


370


to secure the foot section


340


to the patient support


30


as discussed above in detail with reference to the first embodiment. When in the latched position of

FIG. 17

, the top surface


343


of foot section


340


is located in generally the same plane as the seat section


34


of patient support


30


.




Thus, the foot section attachment mechanism


368


is configured such that the upper surface


343


of the foot section


340


will not become parallel with the seat section


34


until the foot section


340


is fully inserted into the opening


38


in the seat section


34


. Upon full insertion of the foot section


340


into the opening


38


, the locking mechanism


100


automatically locks the foot section


340


to the rest of the bed


20


. Therefore, the foot section attachment mechanism


368


provides the caregiver with a visual indication (i.e., the orientation of the upper surface


343


of the foot section


340


) regarding whether the foot section


340


is properly attached to the rest of the bed


20


.





FIG. 18

illustrates the position of latch bar


102


and triangular portion


152


when the release handle


174


is actuated to unlatch the foot section


340


. Therefore, when in the unlatched position of

FIG. 18

, foot section


340


can be removed by moving the foot section


340


at an upwardly directed angle illustrated by arrow


393


.




As discussed above, the foot section


340


moves along a path of travel that includes both vertical and horizontal components. Therefore, installation of the foot section


340


is different from the substantially horizontal path of travel of the foot section shown in U.S. Pat. No. 5,926,878 and from the substantially vertical path of travel of the foot section shown, for example, in U.S. Pat. No. 5,226,187 and U.S. Pat. No. 5,157,800.





FIGS. 19-27

illustrate an alternative embodiment of a foot section attachment mechanism


468


that includes some features similar to the foot section attachment mechanism


368


shown in

FIGS. 13-18

. Those elements in

FIGS. 19-27

identified by reference numbers identical to those in

FIGS. 13-18

perform the same or similar function. In the

FIG. 19

embodiment, the detachable mattress section


58


of

FIG. 1

is shown removed from the foot section


440


for clarity. The attachment mechanism


468


includes a pair of first portions, illustratively guide members


470


, coupled to the foot section


440


. More particularly, one guide member


470


is supported proximate each longitudinally extending side edge


441


and


442


of the foot section


440


. The attachment mechanism


468


further includes a pair of second portions, illustratively guide tracks


480


, coupled to the supports


57


of the main frame


22


.




Since the construction and the operation of the two guide members


470


and the two guide tracks


480


are similar, only one guide member


470


and one guide track


480


will be described herein in the interest of brevity. It will be understood that the construction and the operation of the other guide member


470


and the other guide track


480


are substantially similar. The two guide members


470


and the two guide tracks


480


are sometimes referred to herein as cooperating engagement members.





FIGS. 20-27

illustrate the foot section attachment mechanism


468


in greater detail. As shown in

FIG. 20

, the guide member


470


is secured through conventional means, such as welding or fasteners (not shown), to a mounting bracket


475


. The mounting bracket


475


, in turn, is illustratively secured to the foot section


440


by conventional fasteners, such as bolts


471


. The guide member


470


extends downwardly from the mounting bracket


475


and substantially perpendicular to a top surface


443


of the foot section


440


.




The guide member


470


includes a downwardly-facing surface portion


474


on an underside thereof, the surface portion


474


extending at an upwardly directed angle


473




a


, from a head end or leading edge


476


to a foot end or trailing edge


483


, relative to a plane defined by, and extending parallel to, the upwardly-facing top surface


443


of the foot section


440


(FIG.


24


). As such, the surface portion


474


is positioned a first distance from the support surface


443


of the leading edge


476


and a second distance from the support surface


443


at the trailing edge


483


, wherein the first distance is greater than the second distance.




Referring further to

FIG. 21

, the guide tracks


480


of the attachment mechanism


468


each illustratively include a track member


485


supported by a mounting member or bracket


482


which, in turn, is secured to one of the supports


57


by conventional fasteners, such as bolts


477


. As illustrated in

FIG. 19

, the supports


57


define a yoke


59


forming a portion of the main frame


22


, wherein the guide tracks


480


face each other. Although the guide tracks


480


are coupled to the main frame


22


in this particular embodiment, they may be coupled instead to the seat section


34


which is rigidly mounted to the main frame


22


.




Each track member


485


includes a main portion


488


and a lip or ramp portion


490


near its entrance


492


. The main portion


488


of the track member


485


coupled to the support


57


includes an upwardly-facing surface portion


484


which extends at a non-parallel angle


473




b


relative to a substantially horizontal plane defined by the upwardly-facing surface


32


of the seat section


34


(FIG.


24


). The ramp portion


490


engages the leading edge


476


of the guide member


470


during insertion of the foot section


440


into the bed


20


to direct the guide member


470


into the guide track


480


.




As detailed above, the surface portion


474


of the guide member


470


is inclined relative to the top surface


443


of the foot section


440


by the angle


473




a


, while the surface portion


484


of the guide track


480


is inclined relative to the surface


32


of the seat section


34


by the angle


473




b


. More particularly, when both the surface


443


of the foot section


440


and the surface


32


of the seat section


34


are positioned substantially horizontal, then the surface portion


474


of the guide member


470


and the surface portion


484


of the guide track


480


are angled from horizontal by angles


473




a


and


473




b


, respectively. The angle


473




a


is substantially equal to the angle


473




b


and is illustratively approximately 20°. However, it should be appreciated that this angle may be within a range of about 10° to about 80°. In a manner similar to that described above with respect to the foot section


340


of

FIGS. 15-18

, the foot section


440


is installed onto the patient support


30


by moving the foot section


440


toward the patient support


30


at a downwardly directed angle in the direction of arrow


481


as illustrated in

FIGS. 19 and 24

. The angle of the path of travel illustratively is about 20° downwardly relative to horizontal.




The mounting bracket


482


of the guide track


480


supports a locating member, preferably a peg


478


, for receipt within a retaining slot


486


formed within the leading edge


476


of the guide member


470


. The peg


478


illustratively is of a cylindrical shape and is formed of a durable and resilient material, such as a thermoplastic or elastomer. The peg


478


engages the retaining slot


486


when the foot section


440


is inserted into the bed


20


to cause the upwardly facing surface portion


484


of the track member


485


to be substantially aligned with the downwardly facing surface portion


474


of the guide member


470


. Moreover, as illustrated in

FIGS. 25 and 26

, the peg


478


is engagable with an upwardly facing inclined wall


487


of the retaining slot


486


, thereby causing the generally inclined, downwardly-facing surface portion


474


of the guide member


470


to move closer to the upwardly-facing surface portion


484


of the guide track


480


. This, in turn, causes the upwardly-facing surface


443


of the foot section


440


to be aligned in substantially the same plane with the seat support


34


of the patient support


30


.




The foot section


440


further includes a foot section locking mechanism


500


as best illustrated in

FIGS. 20-23

. The foot section locking mechanism


500


locks the foot section


440


to the patient support


30


when the foot section


440


is fully inserted into the bed


20


and the upwardly-facing surface


443


of the foot section


440


is substantially aligned with the upwardly-facing surface


32


of the patient support


30


(FIG.


26


). The foot section locking mechanism


500


includes a pair of latches


502


supported by the guide tracks


480


of the attachment mechanism


468


.




Since the two latches


502


are mirror images of each other, only one latch


502


will be described herein in the interest of brevity. It should be understood that the construction and operation of the other latch


502


is substantially similar. Each latch


502


includes a detent


504


pivotally mounted by a pivot shaft


506


on one of the mounting brackets


482


. A generally triangular portion


552


is supported by a first end


505


of the detent


504


.




The detent


504


is movable between a first, locked position and a second, unlocked position. The first, locked position is defined when the generally triangular portion


552


of the detent


504


enters a locking recess or slot


562


in the guide member


470


by passing through an opening


596


formed within the upwardly-facing surface portion


484


of the guide track member


485


to lock the foot section


440


to the patient support


30


when the foot section


440


is fully inserted into the bed


20


and the upwardly-facing surface


443


of the foot section


440


is aligned with the upwardly-facing surface


32


of the patient support


30


(FIG.


26


). The second, unlocked position is defined when the triangular portion


552


of the detent


504


is out of the locking slot


562


to release the foot section


440


for movement (FIG.


27


). A biasing member, illustratively a spring


558


, is operatively connected to the detent


504


and biases the detent


504


toward the first operative position. The spring


558


comprises a conventional torsion spring concentrically positioned on the pivot shaft


506


intermediate the mounting bracket


482


and the detent


504


.




In the illustrative embodiment, the triangular portion


552


supported by the first end


505


of the detent


504


is formed integrally therewith. The triangular portion


552


includes a first generally vertical side


554


adapted for engaging a first generally vertical side


564


of the locking slot


562


, and a second generally inclined side


556


adapted for engaging the downwardly-facing surface portion


474


of the guide member


470


as the foot section


440


is being coupled to the patient support


30


(FIG.


20


). More particularly, during attachment of the foot section


440


to the rest of the bed


20


, the inclined side


556


of the detent


504


cams against the surface portion


474


of the guide member


470


thereby pivoting the latch


502


downwardly against the bias of the spring


558


until the triangular portion


552


of the detent


504


aligns with the locking slot


562


in the guide member


470


(FIG.


25


). At this point, the spring


558


biases the detent


504


upwardly so that the triangular portion


552


is received in the locking slot


562


(FIG.


26


). Thus, the spring


558


coupled to the detent


504


forces the triangular portion


552


into the retaining slot


562


in the guide member


470


to lock the foot section


440


to the patient support


30


when the foot section


440


is fully inserted into the bed


20


and the upwardly-facing surface


443


of the foot section


440


is aligned with the upwardly-facing surface


32


of the patient support


30


. The first vertical side


554


of the triangular portion


552


of the detent


504


bears against the first vertical side


564


of the locking slot


562


in the guide member


470


to prevent extraction of the foot section


440


from the bed


20


.




Referring now to

FIGS. 20

,


22


and


23


, the locking mechanism further includes a pair of latch or detent releases


570


coupled to the foot section


440


. Again, since the two latch releases


570


are mirror images of each other, only one latch release


570


will be described herein in the interest of brevity. It should be understood that the construction and operation of the other latch release


570


is substantially similar.




The detent release


570


includes a body portion


572


which is pivotably supported by a pivot shaft


574


coupled to the guide member


470


for movement between a first, rest position (

FIG. 22

) and a second, active position (FIG.


23


). The detent release


570


engages the detent


502


when the detent release


570


is in the second position and when the removable section


440


and the patient support


30


are coupled together as illustrated in FIG.


27


. The body portion


572


of the detent release


570


is eccentrically mounted to the guide member


470


about the pivot shaft


574


to provide a camming action against the detent


504


as the body portion


574


is rotated in the direction of arrow


576


away from the top surface


443


of the foot section


440


.




A release handle


578


is operably connected to the detent release


570


through a connecting member or bar


580


. Conventional fasteners, such as bolts


581


, may be used to couple the connecting bar


580


to the release handle


578


and the detent release


570


, respectively. The release handle


578


is illustrated in

FIGS. 20

,


22


and


23


as being supported for pivoting movement by a pivot shaft


582


coupled to a body


584


of the foot section


440


. When a grip portion


585


of the release handle


578


is rotated counterclockwise about the pivot shaft


582


in the direction of arrow


586


, an arm


587


of the release handle


578


causes the connecting bar


580


to move outwardly in the direction of arrow


588


. As illustrated in

FIGS. 23 and 27

, the outward motion of the connecting bar


580


, in turn, causes the detent release


570


to turn counterclockwise in the direction of arrow


576


and into engagement with the detent


504


. In other words, the detent release


570


moves from the first, rest position to the second, active position. In response, the triangular portion


552


of the detent


504


disengages from the locking slot


562


to free the foot section


440


for movement. A biasing member, such as a conventional extension spring


592


illustratively connects the body


584


of the foot section


440


and the arm


587


of the handle


578


. The spring


592


biases the connecting bar


580


in the direction of arrow


594


inwardly toward the detent release


570


, thereby causing the detent release


570


to move toward its first, rest position (FIG.


22


).





FIG. 24

illustrates the movement of the foot section


440


toward the patient support


30


during installation of the foot section


440


. Foot section


440


moves downwardly in the direction of arrow


481


in order to install the foot section


440


onto the patient support


30


. Leading ramp portion


490


of the guide track member


485


is configured to engage the front surface of the leading edge


476


of the guide member


470


as the foot section


440


approaches the guide track


480


. Therefore, the downwardly-facing surface


474


slides over the ramp portion


490


and the upwardly-facing surface


484


. During installation of the foot section


440


, top surface


443


is aligned in a plane which is transverse and non-parallel to a plane of the seat section


34


. The angled top surface


443


therefore provides a visual indication to the caregiver that the foot section


440


is not fully inserted and latched into the patient support


30


.





FIG. 25

illustrates the guide member


470


of the foot section


440


partially inserted onto the guide tracks


480


. The downwardly facing surface


474


engages the upwardly facing surface


484


in the orientation of FIG.


25


. Top surface


443


is still aligned in a transverse and non-parallel plane relative to the seat section


34


of the patient support


30


to show that the foot section


440


is not latched. As the foot section


440


continues movement in the direction of arrow


481


from the position shown in

FIG. 25

to the position shown in

FIG. 26

, the peg


478


engages the inclined wall


487


of the retaining slot


486


to move surface portion


474


of the guide member


470


downwardly toward the surface portion


484


of the guide track


480


as shown in FIG.


26


. Triangular portion


552


of detent


504


enters the locking slot


562


formed in guide member


470


to secure the foot section


440


to the patient support


30


as discussed in detail above. In the latched position of

FIG. 26

, the top surface


443


of the foot section


440


is located in generally the same plane as the seat section


34


of the patient support


30


.




Thus, the foot section attachment mechanism


468


is configured such that the upper surface


443


of the foot section


440


will not become parallel with the surface


32


of the seat section


34


until the foot section


440


is fully inserted into the opening in the seat section


34


. Upon full insertion of the foot section


440


into the opening


38


, the locking mechanism


500


automatically locks the foot section


440


to the rest of the bed


20


. Therefore, the foot section attachment mechanism


468


provides the caregiver with a visual indication (i.e., the orientation of the upper surface


443


of the foot section


440


) regarding whether the foot section


440


is properly attached to the rest of the bed


20


.





FIGS. 23 and 27

illustrate the position of the latch


502


, and more particularly of the triangular portion


552


of the detent


504


, when the release handle


578


is actuated to unlatch the foot section


440


. As detailed above, the release handle


578


is actuated by pivoting upwardly toward the top surface


443


of the foot section


440


which, in turn, causes the connecting bar


580


to move outwardly away from the detent release


570


. Such movement of the connecting bar


580


causes pivoting movement of the body portion


572


of the detent release


570


downwardly into engagement with the detent


504


, thereby forcing the detent


504


out of the retaining slot


562


. When in the unlatched position of

FIGS. 23 and 27

, the foot section


440


can be removed by moving the foot section


440


at an upwardly directed angle illustrated by arrow


598


in FIG.


27


.





FIGS. 28 and 29

illustrate a further embodiment of the removable foot section


640


of the present invention. The removable foot section


640


includes an identical attachment mechanism


468


as described above with respect to

FIGS. 19-27

. As such, those elements in

FIGS. 28 and 29

identified by reference numerals identical to those in

FIGS. 19-27

perform the same or similar function.




The foot section


640


includes an alternative embodiment foot section locking mechanism


700


including a pair of guide members


710


supported by the body


684


of the foot section


640


. One guide member


710


is supported proximate each opposing longitudinal side edge


641


and


642


of the foot section


640


. The guide members


710


each illustratively consists of a track


714


. A sliding handle


716


is guided in sliding movement by each track


714


in a direction substantially parallel to the longitudinal axis


718


of the foot section


640


. A connecting member, such as a cable


720


, operably connects each sliding handle


716


to the body portion


572


of the detent release


570


. A pair of mounting blocks


722


are coupled to a lower surface


724


of the body


712


of the foot section


640


and define ends of travel for the sliding handles


716


. A spring


726


interconnects each sliding handle


716


to the mounting block


724


such that the sliding handle


716


is biased in a first, rest position. By sliding each handle


716


along its guide track


710


away from its respective mounting block


722


to a second, active position, the cable


720


causes pivoting movement of the detent release


570


. The remaining elements of the locking mechanism


700


operate substantially the same as the locking mechanism


500


as described in detail above.




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 present invention as defined in the following claims.



Claims
  • 1. A patient support apparatus comprising:a patient support; a removable section movable between a first position wherein said removable section is coupled to said patient support and a second position wherein said removable section is spaced apart from said patient support; and a locking mechanism including a detent coupled to one of said patient support and said removable section and a detent release coupled to the other of said removable section and said patient support, wherein said detent release is selectively connected to said detent when said removable section is in said first position.
  • 2. The patient support of claim 1, further comprising an attachment mechanism including cooperating engagement members coupled to said patient support and said removable section.
  • 3. The patient support apparatus of claim 2, wherein said attachment mechanism includes a guide member supported by said removable section and a guide track supported by said patient support.
  • 4. The patient support apparatus of claim 2, wherein said patient support includes a planar support surface, said cooperating engagement member coupled to said removable section includes a guide member having a foot end, a head end, and a lower surface, said lower surface being positioned a first distance from said planar support surface at said head end and a second distance from said planar support surface at said foot end, said first distance being greater than said second distance.
  • 5. The patient support apparatus of claim 3, wherein said guide track includes a lip portion located adjacent an entrance of said guide track, said lip portion configured to engage said guide member when said removable section is inserted into said patient support to direct said guide member into said guide track.
  • 6. The patient support apparatus of claim 3, wherein said guide member includes a lower surface and a locking recess formed in said lower surface, said detent selectively positioned in said locking recess when said removable section and said patient support are coupled together.
  • 7. The patient support apparatus of claim 3, wherein said guide member includes a retaining slot, and said guide track includes a locating member supported for receipt within said retaining slot when said removable section and said patient support are coupled together.
  • 8. The patient support apparatus of claim 1, wherein said detent is movably supported by said patient support and said detent release is movably supported by said removable section.
  • 9. The patient support apparatus of claim 8, wherein said detent is movable between a first position and a second position, said locking mechanism further comprising a biasing member operably connected to said detent for biasing said detent in said first position.
  • 10. The patient support apparatus of claim 9, wherein said detent release is movable between a first position and a second position, said detent release engaging said detent when said detent release is in said second position and when said removable section and said patient support are coupled together.
  • 11. The patient support apparatus of claim 8, further comprising a release handle operably connected to said detent release.
  • 12. The patient support apparatus of claim 11, wherein said release handle is pivotably supported by said removable section.
  • 13. The patient support apparatus of claim 11, wherein said release handle is slidably supported by said removable section.
  • 14. The patient support apparatus of claim 13, wherein said removable section further comprises a guide member, said release handle supported for sliding movement by said guide member.
  • 15. The patient support apparatus of claim 1, wherein the removable section is movable from said second position to said first position along an inclined path of travel having both horizontal and vertical components relative to a ground surface.
  • 16. A patient support apparatus comprising:a patient support; a removable section; an attachment mechanism including cooperating engagement members coupled to said patient support and said removable section, said removable section being movable between a first position wherein said removable section is coupled to said patient support by said engagement members and a second position wherein said removable section is spaced apart from said patient support; and a locking mechanism including a locking recess supported by said removable section and a detent supported by said patient support, said detent movable between a first position received within said locking recess and a second position in spaced relation to said locking recess when said removable section is coupled to said patient support by said engagement members.
  • 17. The patient support apparatus of claim 16, wherein said locking mechanism further comprises a biasing member operably connected to said detent for biasing said detent in said first position.
  • 18. The patient support apparatus of claim 16, further comprising a detent release which is movable between a first position and a second position, said detent release engaging said detent when said detent release is in said second position and when said removable section is coupled to said patient support by said interactive members.
  • 19. The patient support apparatus of claim 18, further comprising a release handle operably connected to said detent release.
  • 20. The patient support apparatus of claim 19, wherein said release handle is pivotably supported by said removable section.
  • 21. The patient support apparatus of claim 19, wherein said release handle is slidably supported by said removable section.
  • 22. The patient support apparatus of claim 21, wherein said removable section further comprises a guide member, said release handle supported for sliding movement by said guide member.
  • 23. The patient support apparatus of claim 16, wherein said patient support includes a yoke having first and second supports, and said locking mechanism includes operably connected first and second detents supported on said first and second supports.
  • 24. A patient support apparatus comprising:a patient support; a removable section movable between a first position wherein said removable section is coupled to said patient support and a second position wherein said removable section is spaced apart from said patient support; a latch coupled to said patient support and movable between a first, locked position and a second, unlocked position; and a latch release coupled to said removable section, wherein movement of said latch release moves said latch between said locked position and said unlocked position when said removable section is in said first position.
  • 25. The patient support apparatus of claim 24, wherein said latch comprises a detent supported by said patient support and a locking recess and a locking recess supported by said removable section.
  • 26. The patient support apparatus of claim 25, wherein said detent is movable between said locked position and said unlocked position, said latch further comprising a biasing member operably connected to said detent for biasing said detent in said unlocked position.
  • 27. The patient support apparatus of claim 25, wherein said latch release is movable between a first position and a second position, said latch release engaging said latch when said detent release is in said second position and when said removable section and said patient support are coupled together.
  • 28. The patient support apparatus of claim 24, further comprising a release handle operably connected to said latch release.
CROSS-REFERENCE TO RELATED APPLICATIONS

This application is a continuation-in-part of U.S. patent application Ser. No. 09/586,443, filed on Jun. 2, 2000, now U.S. Pat. No. 6,470,520 which is a continuation-in-part of U.S. patent application Ser. No. 09/379,446, filed on Aug. 23, 1999, now U.S. Pat. No. 6,408,464, and further claims the benefit of U.S. Provisional Patent Application Serial No. 60/325,690, filed Sep. 28, 2001, the disclosures of which are expressly incorporated by reference herein.

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Provisional Applications (1)
Number Date Country
60/325690 Sep 2001 US
Continuation in Parts (2)
Number Date Country
Parent 09/586443 Jun 2000 US
Child 10/253346 US
Parent 09/379446 Aug 1999 US
Child 09/586443 US