BRIEF DESCRIPTION OF THE DRAWINGS
FIG. 1 is a top-perspective illustration of the safety bed with a single guard rail assembly and the mattress in the upper position.
FIG. 2 is a top-perspective illustration of the safety bed with a single guard rail assembly and the mattress in the lower position, which is visible in the cut-away.
FIG. 3 is a top-perspective illustration of the safety bed with a single guard rail assembly and the mattress in the upper position. The guard rail assembly is in the lowered position.
FIG. 4 is a top-perspective illustration of the safety bed with a single guard rail assembly and the mattress in the lower position, which is visible in the cut-away. The guard rail assembly is in the lowered position.
FIG. 5 is a top-perspective illustration of the safety bed with a double guard rail assembly.
FIG. 6
a is a top-perspective illustration of the safety bed with a double guard rail assembly. The upper guard rail assembly is detached and the lower guard rail assembly is folded down.
FIG. 6
b is a side view of a guard rail.
FIG. 6
c is an enlarged partial top view of the locking mechanism for a guard rail.
FIG. 7 is a perspective, partially cut away view of the safety bed of the present invention illustrating the mechanism by which the mattress is raised and lowered, and by which the mattress is actuated.
FIG. 8 is a perspective, partially cut away view of the safety bed of the present invention illustrating the mattress in the upper position with the head and knees raised.
FIG. 9 is a perspective, partially cut away view of the safety bed of the present invention illustrating the mechanism by which the mattress is raised and lowered, and by which the mattress is actuated. The mechanism is in a collapsed position.
DETAILED DESCRIPTION OF THE INVENTION
The following description relates to a safety bed design according to a specific embodiment. It will be readily apparent from the following discussion, however, that certain variations and modifications can easily be imagined within the inventive concepts as claimed herein. Furthermore, certain terms are used throughout this discussion such as “upper,” “lower,” “lateral” and the like which assist in providing a frame of reference with regard to the accompanying drawings. These terms, however, should not necessarily be construed as limiting of the present invention, except as otherwise stated herein.
Referring to FIG. 1, there is illustrated a safety bed 10, with the mattress 26 in the upper position in accordance with the preferred embodiment of present invention. The safety bed includes a wooden bed frame 14, the frame including a headboard 30, a footboard 34, and a pair of side rails 38 (only one of which is shown in FIG. 1), which interconnect the headboard 30 and the footboard 34. The bed frame 14 and each of the preceding components collectively define a supporting structure for a stacked mattress 26 and box spring (not shown). Each of the headboard 30 and footboard 34 extend above an upper surface 46 of the mattress 26, the headboard 30 and footboard 34 each including a pair of bed posts 48 which are secured to a unitary member 50, 54, respectively, the posts being secured thereto using conventional furniture fastening techniques, such as a knockdown fitting having an eccentric cam so as to reduce forward play in each of the interconnected components.
Referring to FIGS. 1 and 2, a guard rail adapter 60 according to the preferred embodiment includes a pair of guard members 64, 68, each of the guard members being disposed on an opposing lateral side of the bed frame 14. For purposes of the discussion which follows, only details specific to one of the guard members 64 are provided, though it should be understood that the remaining guard member 68 is identical in appearance and function.
More specifically, and referring to FIGS. 1-6, the guard member 64 includes an upper end 72 and a lower end 76, the guard members being substantially planar members made from wood having a grain preferably like that of the bed frame 14. The guard member 64 is sized to occupy the entirety of the lateral space between the footboard 34 and the headboard 30; that is, the length of a side rail 38 without any gaps therebetween.
Referring to FIGS. 6a-6c, a locking member 80 extends from respective opposing sides of the upper end 72 and the lower end 76 of the guard member 64 for engagement with a corresponding number of openings 96 which are provided in the bed posts 48. For purposes of this embodiment, the locking members 80 are pins housed within openings provided in each of the upper end 72 and the lower end 76 of the guard member 64, the pins being preferably though not necessarily biased into a deployed position by means of a spring 88. Each of the locking members 80 can be retracted by means of a lever 90 which is connected to one end of each locking member, the lever being movable to an inset position along an L-shaped slot 84 which retracts the pin to a unlocked slot position 94. It will be readily apparent to one of ordinary skill in the field that other release mechanisms can be utilized to unlock either the upper and/or lower end 72, 76 and should not be limited by the specific mechanism described herein. Moreover, and in conjunction with the openings 96, a strike plate (not shown) could be added to each of the bed posts 48, the strike plate having a ramped slot extending to the opening 96, such that the upper end 72 of the guard member 64 can be aligned relative to the openings 96 laterally mounted to the bed frame 14 without first having to retract the locking members 80 in assembly.
The guard member 64 has a corresponding height dimension such that the upper end 72 of the member can pivot about the lower end 76 between a first or raised position, such as shown in FIG. 1, and a second or lowered position, such as shown in FIG. 3. The axis defining the pivot axis of the lower end 76 is stationary throughout the pivoting action, this axis always being beneath the upper surface 46 of the mattress 26. Each of the first and second positions assumable by the guard member 64 as shown in FIGS. 1 and 3, respectively, are substantially in the same lateral plane as the side rail 38.
Each of the guard members 64, 68 include a set of transparent windows 100 made from Plexiglas, polycarbonate, or other suitable material, the windows being disposed between the upper and lower ends 72, 76, and permitting a caregiver to monitor a resting patient from a sitting position without having to first look over the guard member 64. Though three windows are shown, any number of windows can be provided; for example, a single window (not shown) extending over the length of the guard member 64 could be substituted.
Referring to the Figs. in general and in operation, the guard member 64 is herein first described as attached to the bed frame 14 and in the first position assumed in FIG. 1. In this raised position, the patient (not shown) cannot fall out of the bed in that the upper end 72 of the guard member 64 is substantially above the upper surface 46 of the mattress 26. Furthermore, because the guard member 64 extends along the entire lateral side of the bed frame 14 and includes no gaps, either within the guard member itself or between the lateral side of the mattress 26 and the guard member, the risk of injury is greatly minimized.
Retraction of each of the locking members 80 located at the upper end 72 of the guard rail adapter 60 is accomplished by pulling each of the levers 90 against the bias of springs 88 and placing the lever 90 within respective unlocked slot positions 94, thereby releasing the upper end and permits the guard rail member 64 to pivot downwardly about the lower end 76 from the first position, shown in FIG. 1, to the second position, as shown in FIG. 3. In this lowered position, the patient (not shown) can easily get into and out of the bed as needed.
In order to remove the guard rail adapter 60 from the bed frame 14 from the first position, as shown in FIGS. 1 and 2, the guard member 64 is first pivoted to the second position, as shown in FIGS. 3 and 4, as described above, by releasing the locking members 80 at each opposing side of the upper end 72. Once the member 64 has been pivoted, the locking members 80 at the lower end 76 of the guard member 64 can also be retracted in a similar manner by pulling each of the levers 90 against the biasing of springs 88 to unlock the lower end and remove the guard member from the bed frame 14, as shown in FIG. 6a. Though not shown, guard member 68 can be similarly removed. As noted and upon removal of the guard rail adapter 60, the safety bed 10 looks no different than a standard twin size bed and can be used for that purpose.
Additionally, FIG. 1 shows the mattress 26 in the raised position, and close to the top of the bed frame 14. In the raised position, a patient lying on the mattress 26 can easily be attended to by a health practitioner. The transparent windows 100 in the guard rails 64, 68 allow the patient to look out into the environment. With the guard rail 64 in the upper position, the patient is still safely enclosed in the safety bed 10. If the practitioner needs to have better access to the patient, the guard rail 72 can be lowered as shown in FIG. 3.
Referring to FIG. 2, the mattress 26 can be lowered within the confines of the bed frame 14, so that the upper surface of the mattress 46 is well below the top of the guard rails 64, 68. With the mattress 26 in the lowered position, the patient is safely held within the walls of the safety bed 10. The windows 100 in the guard members 64, 68 allow light into the safety bed 10, even when the mattress 26 is in the lowered position. This adds to the comfort of the patient. As shown in FIG. 4, a health provider can still access the patient when the mattress 26 is in the lowered position. The guard member 64 can be lowered to allow greater access to the patient. However, even when the guard member 64 is lowered, the top of the mattress 46 is still below the lower end 76 of the guard member 64. Even when the mattress 26 is in the lowered position, there is still a significant barrier for the patient to escape from the safety bed 10.
The second embodiment of the present invention is shown in FIGS. 5 and 6a. The second embodiment includes a double set of guard members 64, 68 on each side of the safety bed 10. The addition of double guard rails 64, 68 increases the overall height of the bed frame 48, and is appropriate for taller patients. When the mattress 26 is in the lowered position, even a patient of significant height will be safely enclosed in the safety bed 10. In order to access the patient, the mattress 26 can be raised and the guard rails either removed and/or lowered, as shown in FIG. 6a.
Referring now to FIG. 7, the mattress support structure 200 is illustrated in a raised position, which places a patient close to the top of the bed frame 14. The mattress support structure 200 is supported by support legs 218, which are on top of casters or wheels 214. The casters 214 allow the mattress support structure 200 to roll more easily. The mattress support structure 200 is preferably made of heavy tubular steel to maximize the strength and stability of the sleep surface in all positions. The lower substructure 212 remains fixed on top of the support legs 218. The upper substructure 210 is connected above the lower substructure 212 by a scissor linkage 208. The scissor linkage 208 is comprised of cross bars 209 which come together at a scissor hinge 219. Each cross bar 209 rotatably connects at a fixed position 226 on either the upper substructure 210 or the lower substructure 212. The opposite end of the cross bar 209 interacts via a roller joint 228 with either the upper substructure 210 or lower substructure 212. An electric motor 222 operates a piston 224 which raises the upper substructure 210 in relation to the fixed lower substructure 212. As the piston 224 pushes the upper substructure 210, the scissor linkage 208 expands, thus moving the roller joints 228 towards the center of the mattress support structure 200. When the electric motor 222 stops, the piston 224 holds the upper substructure 210 in place. The electric motor 222 is controlled by a remote control 220. Although an electric motor 222 and piston 224 are shown as the exemplary mechanism to raise the mattress support structure 200, it is within the scope of this invention to use additional mechanisms to accomplish the same task. Additionally, although a scissor linkage 208 is shown, other linkages such as parallelogram could also be used.
As shown in FIGS. 7 and 8, the mattress support structure 200 has articulating joints 216 which separate the head section 202, the thigh section 204, and the foot section 206. The articulating joints 216 allow the head section 202, thigh section 204 and foot section 206 to raise and lower independently. This allows for greater patient comfort. The remote control 220 can control additional DC motors (not illustrated) to operate actuating pistons 225 to raise and lower the sections. FIG. 8 specifically shows the mattress 26 resting in an articulated position on top of the mattress support structure 200. FIGS. 7 and 8 also show the mattress support structure 200 in a raised position close to the top of the bed frame 14. In contrast, FIG. 9 illustrates the mattress support structure 200 in the lowered position, recessed from the top of the bed frame 14. This is representative of the mattress position in FIGS. 5 and 6, and includes the double stacked guard rail member.
It is understood that the invention is not confined to the particular construction and arrangement of parts herein illustrated and described, but embraces such modified forms thereof as come within the scope of the following claims.