Not Applicable.
The present invention relates generally to a patient support, and more specifically to a bed being positionable to assist a patient to a sitting position and/or a standing position when the patient is lying on the bed, or to position a patient in any angular position between 0° (i.e., horizontal, lying position) and approximately 90° (i.e., vertical, standing position).
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 tilt and stand capabilities.
According to one embodiment, a patient support bed is provided comprising: a base frame; a patient support assembly connected to the base frame, the patient support assembly having a separately moveable head section, seat section and foot section, wherein the head section is adjacent a head of the bed, wherein the foot section is adjacent a foot end of the bed, and wherein the foot section transitions from a generally horizontal position to a generally vertical position to place the patient support bed in a chair orientation to allow a patient to exit the bed at the foot end of the bed; a tilt frame connected between the base frame and the patient support assembly, the tilt frame being rotatable adjacent the foot end of the bed to place the patient support assembly, including the head section, seat section and foot section, in a generally vertical position to allow a patient to exit the bed in a standing orientation; and, a foot board assembly connected to the foot section, the foot board assembly having a foot board, the foot board assembly separately moveable about a longitudinal axis of the bed toward the head end and the foot end of the bed.
According to another embodiment, the patient support bed further comprises a mattress on the patient support assembly, the mattress connected at its foot end to the footboard assembly, the foot end of the mattress moveable with the foot board toward the head end of the bed.
According to another embodiment, the patient support bed further comprises a first siderail adjacent the head section of the bed and a second siderail adjacent the foot section of the bed, and a linkage connecting the second siderail with the head section so that the second siderail rotates with the head section of the bed.
According to another embodiment, the patient support bed further comprises a CPR release to automatically drop the patient support assembly, including the head section, seat section and foot section, from the generally vertical position, when the bed is in a standing mode, to a generally horizontal position.
According to another embodiment, the CPR release disengages two actuators, including a first actuator for the head section and a second actuator for the tilt frame.
According to another embodiment, the patient support bed further comprises an actuator to separately raise and lower the head end of the patient support assembly when the head section, seat section and foot section are in parallel planes, and a separate actuator to separately raise and lower the foot end of the patient support assembly when the head section, seat section and foot section are in parallel planes, the separate actuators thereby providing to place the patient support assembly in both the Trendelenburg and reverse Trendelenburg positions.
According to another embodiment, the patient support bed further comprises a plurality of casters connected to the base frame and a powered locking system that locks each of the casters prior to the tilt frame being able to be tilted.
According to another embodiment, the patient support bed further comprises a sensor at a foot end of the foot section to sense pressure and have the bed stop movement when moving to either the chair orientation or the standing orientation.
According to another embodiment, the patient support bed further comprises a sensor at a foot end of the foot board to sense pressure and have the bed stop movement when moving to either the chair orientation or the standing orientation.
According to another embodiment, the patient support bed further comprises deck width extenders with connected mattresses at the head section and seat section.
According to another embodiment, the patient support bed further comprises a powered drive wheel connected to the base frame, and a controller for controlling the speed of the powered drive wheel, the controller connected to a headboard of the bed.
According to another embodiment, the patient support bed is provided comprising: a base frame; a patient support assembly connected to the base frame, the patient support assembly having a separately moveable head section, seat section and foot section, wherein the head section is adjacent a head of the bed, wherein the foot section is adjacent a foot end of the bed; a foot board assembly connected to the foot section, the foot board assembly separately moveable about a longitudinal axis of the bed toward the head end and the foot end of the bed; and, a mattress on the patient support assembly, the mattress connected at its foot end to the footboard assembly, the foot end of the mattress moveable with the foot board assembly toward the head end of the bed.
According to another embodiment, a patient support bed is provided, comprising: a base frame; a patient support assembly connected to the base frame, the patient support assembly having a separately moveable head section, seat section and foot section, wherein the head section is adjacent a head of the bed, wherein the foot section is adjacent a foot end of the bed; and, a first siderail adjacent the head section of the bed and a second siderail adjacent the foot section of the bed, and a linkage connecting the head section of the bed with the second siderail to rotate the second siderail with the head section of the bed.
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 is shown a variety of embodiments of patient support beds 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 a traditional bed, a gurney or stretcher (not shown), an operating room table or surgical table (not shown), a bed that expands and contracts in width (see
In the chair bed embodiment the bed 10 is manipulated to achieve both a conventional bed position having a generally horizontal patient support or sleeping surface upon which a user lies in a supine position, and a sitting position wherein the foot deck of the bed is provided in a generally vertical position such that the user's feet can be positioned on or adjacent the floor and the back of the user is supported by a raised back support. In the expanding width bed configuration the bed 10 is manipulated to convert to a wider patient support surface at various sections of the bed 10. The width of the expanding width bed 10 may be narrowed, however, to that of a conventional hospital bed to provide for ease of mobility of the bed 10. Additionally, in one embodiment the bed 10 is a bariatric bed, meaning it is provided to support morbidly obese patients. In the standing or tilt configuration the bed 10 is manipulated to angularly rotate the patient support surface to a substantially vertical position, wherein the entire patient support surface is generally in-line and preferably at an angle of about 75° from the horizontal, to allow a patient to exit and enter the bed standing. Alternately, the tilt or stand bed may be stopped at any angle between 0° and 75° to provide for different therapeutic benefit to the patient. The tilt bed also may have, as part of its control system, features to provide reports on the amount of tilt (i.e., angle), length/duration of tilt at each angle, etc. Such reports and data may be downloaded from the controller to provide history reports to the clinicians.
In various embodiments, patient support beds 10 are provided as shown in
In an embodiment where the bed can tilt to provide standing access and egress, such as shown in
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 without tilt/stand up capabilities 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. If tilt/stand up capabilities are provided, the tilt frame assembly 16 will typically be connected to the weigh frame assembly 34. In one embodiment the bed 10 will be capable of transitioning to a chair orientation, and in some embodiments also or alternately 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 preferably 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 as shown in
In a preferred embodiment, the intermediate frame assembly 18 is raised and lowered via internal arms and actuators connected to the base frame assembly 32 to allow the intermediate frame assembly 18 to nest within the base frame assembly 32 and thereby lower the bed 10 closer to the floor. Specifically, a first actuator is provided to raise and lower the head end 24 of the intermediate frame assembly 18, and a second actuator is provided to raise and lower the foot end 26 of the intermediate frame assembly 18. These actuators also assist in placing the bed 10 in the Trendelenburg and reverse Trendelenburg positions.
As explained herein, an optional drive system 310 may be provided to provide a driving force to assist in moving the bed during transportation. Referring to
Referring to the figures, the patient support bed 10 is shown in a traditional hospital bed configuration in
The bed 10 in
Referring to
The siderail assemblies for the bed 10 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 steerable and lockable 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. In the tilt or stand-up bed configuration, as shown in
In one embodiment, as shown in
There are three modes to the brake and steer system. The first mode is the brake mode. The brake mode is set by fully engaging/pressing any of the three brake pedals 300. When in the brake mode all four casters 42, 43 will be simultaneously locked to prevent the bed 10 from moving. In the manual mode the casters 42, 43 are locked when any of the brake pedals 300 is engaged and the mechanical linkage system operates to mechanically lock each caster 42, 43. In the automatic mode, when any of the brake pedals 300 are pressed the sensor/switch 305 at that brake pedal operates to electrically manipulate each actuator 303 at each caster 42, 43 to lock each caster 42, 43. The second mode is the neutral mode. The neutral mode is set by positioning any of the brake/steer pedals 300, 302 to the middle position which is the neutral position. In the neutral position all four of the casters 42, 43 the mechanical linkage system placed all of the casters 42, 43 in the fully rotatable and unlocked orientation. In the automatic mode the sensor/switch 305 at the brake/steer pedals 300, 302 would sense that one of the brake/steer pedals 300, 302 was placed in the middle position and the sensor/switch 305 would electrically manipulate each actuator 303 to place each of the caster 42, 43 in the neutral position so that they are both fully rotatable and unlocked. The third mode is the steer mode. The steer mode is set by fully engaging/pressing any of the three steer pedals 302. In the steer position, when the brake and steer assembly is in the manual mode, one or more of the casters at the foot end 26 of the bed will lock in the forward position, through a mechanical linkage connected from the steer pedals 302 to the caster(s) at the foot end 26 of the bed 10 to assist in overall steering capabilities of the bed during transport. Similarly, when the brake and steer assembly is in the automatic mode, when steer pedals 302 is engaged the switch/sensor 305 at that pedal 302 will sense that the steer pedal 302 was engaged and would electrically operate the actuator 303 at one of more of the casters at the foot end 26 of the bed 10 to lock that caster in the forward position.
The brake and steer system is supported by a brake or caster lock function in the bed's software that ensures that the brake system is in the lock mode before allowing the bed to go into tilt or stand mode. For example, if the user attempts to place the bed into tilt/stand mode and the caster/brake lock is not engaged, the software will provide an alarm and will preclude the user from actuating tilt/stand mode. Once the bed is placed into brake lock mode (i.e., all casters are locked either mechanically or with actuators) the software will disarm the alarm and allow the user to place the bed in tilt/stand mode. Further, once in tilt/stand mode, the software will not allow the brake lock mode to be disengaged until the bed is back in the full horizontal position. The brake and steer system uses a solenoid that is operated by the software to maintain the brake lock in brake mode during tilt/stand operations. In the automatic mode, the brake and steer system will maintain the actuators 303 in the lock mode during tilt/stand operations to keep each caster locked. The caster lock function locks the casters to prevent any unexpected movement of the bed during tilt/stand mode.
As best shown in the embodiments of
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 independently raise and lower each end of the intermediate frame assembly 18. In one embodiment of the intermediate frame assembly 18 is made of a welded tubular frame assembly. Because each end of the intermediate frame assembly 18 can be independently raised and lowered, the bed 10 can be put into the trendelenberg and reverse trendelenberg positions.
In one embodiment the weigh frame assembly 34 is connected to the intermediate frame assembly 18 with a plurality of load beams. In one embodiment, four separate load cell assemblies extend from the top outer corner of the intermediate frame 180 to support the weigh frame assembly 34. In a preferred embodiment, the weigh frame assembly 34 and the patient support assembly 19 (i.e., the support deck assembly 20 and the mattress 22), including all actuators to actuate the patient support assembly 19, are all supported from the load cell assemblies. The load cell assemblies 35 include load cells that movably couple the weigh frame assembly 34 to the intermediate frame assembly 18. Each load cell includes a fixed portion and a sensing portion that is movable relative to the fixed portion. Each load cell assembly 35 also comprises a transducer connected to the sensing portion that provides an electrical signal in response to movement of the sensing portion relative to the fixed portion. The extent of the movement of the sensing portion depends upon the amount of weight supported by the load cells, and accordingly the electrical signal provided by the load cells varies in response to the weight supported by the weigh frame assembly 34.
In one embodiment, 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, in one embodiment 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
In one embodiment, such as shown in
In the embodiments shown in
Referring still 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
In one embodiment of the bed 10, the head deck section 202 generally comprises a head frame assembly 212 and a head deck plate 240. Additionally, in one embodiment wherein the bed 10 has a variable width component, the head deck section 202 also comprises a first side head deck extender assembly 232 and a second side head deck extender assembly 234. The deck extender assemblies are also referred to as patient support extension assemblies. The first side head deck extender assembly 232 is utilized to increase the width of the bed at the first side 28 of the bed 10, and the second side head deck extender assembly 234 is utilized to increase the width of the bed at the second side 30 of the bed 10.
The first and second side head deck extender assemblies 232, 234 are independently moveable from a first retracted position to a second expanded position. Similarly, the supplemental mattresses on the first and second side head deck extender assemblies 232, 234 are thus repositioned from a first retracted position to a second expanded position. In one embodiment the distance from the centerline of the bed 10 to an edge of the mattress 22 is identified as distance W1, and the distance from the centerline of the bed 10 to an edge of the supplemental mattress after the supplemental mattress is in the second expanded position is identified as distance W2, where W2 is greater than W1. In a preferred embodiment, the width of the supplemental mattress is approximately 5 inches, and thus the distance from W1 to W2 is approximately 5 inches. In one embodiment, in the retracted or non-deployed position the deck extender assemblies 232, 234 are generally underneath the deck plate 240.
As briefly explained above, in a preferred embodiment each of the head 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 is provided for the first side head deck extender assembly 232, and a second side supplemental mattress assembly 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″. Further, in a preferred embodiment the head deck extender assemblies 232, 234 are sliding drawer style assemblies.
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 to a second expanded position. In one embodiment, the distance from the centerline of the bed 10 to an edge of the mattress 22 at the seat section is identified as distance W3, and the distance from the centerline of the bed 10 to an edge of the supplemental mattress after the supplemental mattress is in the second expanded position at the seat deck section is identified as distance W4, where W4 is greater than W3. In a preferred embodiment, the width of the supplemental mattress is approximately 5 inches, and thus the distance from W3 to W4 is approximately 5 inches.
In a preferred embodiment, each of the seat 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 is provided for the first side seat deck extender assembly 432, and a second side supplemental mattress assembly 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. Further, like the head deck extender assemblies 232, 234, in a preferred embodiment the seat deck extender assemblies 432, 434 are sliding drawer style assemblies.
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. Further, it is understood that the supplemental mattresses for the head and seat deck extender assemblies are always connected to the deck extender assemblies, including in both the non-deployed positions and the deployed positions of the deck extender assemblies.
As shown in the Figures, the support deck assembly 20 of the patient support assembly 19 also comprises a foot deck section 206. In one embodiment the foot deck assembly 206 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. For example, in one embodiment, as shown in
In one embodiment of a stand-up bed 10 as shown in
In another embodiment of a stand-up bed 10 as shown in
Additionally, as shown in
As best shown in
Additionally, as shown in
A pair of foot end siderails 29 is provided on the bed 10. In one embodiment the foot end siderails 29 are rotatedly connected to a shaft, and rotate with the head deck section 202. Accordingly, when the head deck section 202 is rotated from the substantially horizontal position shown in
In various embodiments, the foot end siderails 670, 672, or alternately handles, are generally rotatably coupled to one of the head deck section 202 or the foot deck section 206, unless disengaged therefrom as explained above. And, in a preferred embodiment, the foot end siderails 670,672 are coupled with linkage 671 to the head section 202. Thus, in such an embodiment, when the head section 202 is actuated to rotate, the foot end siderails 670, 672 will rotate as well. Each siderail assembly 29 may also be operably connected 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.
To provide for allowing independent movement of the siderails 670, 672, a locking assembly 673 is provided. As shown in
The siderails 670, 672 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 in one embodiment the siderails 670, 672 are rotatedly fixed to the head deck section 202 through the drive mechanisms in the engaged state, the siderails 670, 672 have relative movement with the head deck section 202. Thus, as the head deck section 202 is rotated from the generally horizontal position to the substantially vertical position, the foot end siderails 670, 672 also rotate therewith. The patient can hold onto the foot end siderails 670, 672 during this rotation.
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, see
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, wherein they generally provide a barrier preventing the patient from unintentional exit off the bed at either of the sides 28, 30 thereof, to a second position, wherein a barrier is not provided above the patient support surface. Each of the head end siderails 800, 802 are independently moveable from the first position to the second position. In both the first and second positions the head end siderails 800, 802 are adapted to remain stationary relative to the head deck section 202 during movement of the foot deck section 1206.
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
Referring to
Referring to
In one embodiment, the seat and foot sections of the alternating pressure mattress each have two zones, an A and B zone in the foot section, and a C and D zone in the seat section (see
In one embodiment, when the bed 10 has air bladders, and particularly air bladders for patient support surfaces, the bed 10 may include an air supply control box 700 as shown in
The manifold 706 also has a mother board or PCB 732 (see
In addition to the main manifold 706, in one embodiment a CPR manifold 726 is provided for rapidly dumping air from the various air bladders. Referring to
In one embodiment of the bed where a mattress is provided with rotational bladders, lumbar boost functionality may also be provided. Lumber boost functionality is achieved by filling the first side head rotation bladder 720 and the second side head rotation bladder 722 at the head section with air at the same time. Additionally, the head deck may be elevated, or the bed may be placed in the chair or X-gatch orientation. This essentially pushes that chest of the patient outwardly and provides a lumber boost.
In one embodiment the bed 10 is designed to quickly place the bed into a CPR position in which the head section, and preferably the seat and foot sections as well, are horizontal in case of emergency. In a preferred embodiment, the horizontal CPR position is achievable even when the bed is initially in the stand or tilt orientation, which previously has not been possible. To place the bed into the CPR position from the standing/tilting position the operator will lift one of the two CPR handles 780 located at the head side of the bed, as shown in
In one embodiment, the footboard 25 translates inwardly and outwardly with respect to an axis of the foot deck 206 extending from the head end of the foot deck 206 to the foot end of the foot deck 206. Movement of the footboard 25 is independent of movement of the foot deck 206, and independent of the type of mechanism to move the foot deck 206. In one embodiment a linear motor is provided to move the footboard 25 inwardly and outwardly. Further, in one embodiment the footboard 25 has approximately 8″ of travel: 4″ of travel outwardly from the zero position and away from the foot end 26 of the bed, and 4″ of travel inwardly from the zero position and toward the head end 24 of the bed. The footboard 25 generally comprises a footboard barrier 697 connected to first and second arms 698. The arms 698 may be provided between the two sides of the foot deck 206, as shown in
In a preferred embodiment, a portion of the mattress is connected to the footboard 25. Accordingly, when the footboard 25 translates inwardly and outwardly (i.e., toward the head end of the bed and away from the head end of the bed) the mattress will similarly translate with the footboard 25. In such an embodiment, the footboard 25 may have a retainer member 699, also referred to as a footboard mattress support slide, to which the mattress is connected (See
Preferably, the footboard 25 is generally maintained in the zero position. The bed is precluded from entering stand mode unless the footboard 25 is in the zero position. If the footboard 25 is not in the zero position and the operator attempts to tilt the bed, the control system will provide an alarm and an error message to the operator that is visible on the message board on the operator HMI 308. The error message will advise the operator that the footboard 25 is not in the zero position. Accordingly, the operator will have to move the footboard in or out, as necessary, to place the footboard in the zero position. Operation of the footboard in/out buttons provides for momentary movement of the footboard 25. Thus, as soon as the operator releases the in or out button, the footboard 25 will stop moving. During movement of the tilt assembly from the horizontal position (
Because in one embodiment the footboard 25 has footboard arms 698 that are interior of the sides of the foot deck assembly 206, the bottom portion of the mattress 22 may need to have slits to accommodate movement of the footboard 25. In one embodiment of the low air loss mattress 22 the overall height of the variety of air bladders at each of the head and seat sections 202, 204 may be approximately 7″. At the foot section 206, the air bladders in one embodiment are approximately 3.5″ in height, and a 3.5″ foam insert 209 is provided below the air bladders in the foot deck section 206. The foam insert 209 may have slits that allow the arms 698 to pass back and forth as the footboard 25 is actuated in and out. Because of the geometry of the arms 698 and the limited movement of the footboard 25, preferably no slits are provided in the air bladders in the foot section 206. In an alternate embodiment arms 698 of the footboard 25 are provided outside the mattress 22, so no slits are required in the mattress 22. Further, in another alternate embodiment, the footboard 25 does not move toward the head end of the bed further than the zero position (thereby only having travel from the zero position and outwardly past the foot end of the bed 10), so that no slits are required in the mattress in this embodiment as well.
An additional aspect of one embodiment of the bed is that limit switches are provided for pinch points at various areas of the bed. For example, along the side of the bed limit switches are provided at various areas of the base frame 32 and/or intermediate frame 34 to stop the bed from moving down when the switch senses pressure. Additionally, limit switches 213 or sensors 213 are provided on the bottom of the foot board 25 and the foot deck 206 to sense pressure adjacent the bottom of the foot board 25 and foot deck 206, so that if pressure is sensed the bed will stop further movement of the footboard 25 and/or foot deck 206, especially when the bed is moving to the chair and stand positions.
Additionally, it is understood that the tilting mechanism 16 may be stopped at any desired angle between the generally horizontal position and the generally vertical position to allow for various therapeutic loads to be applied to the load supporting portions of the patient's body.
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 claims priority to U.S. Provisional Patent Application No. 61/981,591, filed Apr. 18, 2014, which is incorporated herein by reference in its entirety and made a part hereof.
Number | Name | Date | Kind |
---|---|---|---|
3997926 | England | Dec 1976 | A |
4724554 | Kowalski | Feb 1988 | A |
4724555 | Poehner | Feb 1988 | A |
5366036 | Perry | Nov 1994 | A |
5454126 | Foster et al. | Oct 1995 | A |
5479666 | Foster et al. | Jan 1996 | A |
5513406 | Foster et al. | May 1996 | A |
5577279 | Foster et al. | Nov 1996 | A |
5666681 | Meyer et al. | Sep 1997 | A |
5692256 | Kramer et al. | Dec 1997 | A |
5715548 | Weismiller et al. | Feb 1998 | A |
6151739 | Meyer et al. | Nov 2000 | A |
6212714 | Allen et al. | Apr 2001 | B1 |
6351863 | Meyer et al. | Mar 2002 | B1 |
6496993 | Allen et al. | Dec 2002 | B2 |
6611979 | Welling et al. | Sep 2003 | B2 |
6684427 | Allen et al. | Feb 2004 | B2 |
6862762 | Johnson et al. | Mar 2005 | B1 |
7000272 | Allen et al. | Feb 2006 | B2 |
7086107 | Ellis et al. | Aug 2006 | B2 |
7213279 | Weismiller et al. | May 2007 | B2 |
7216389 | Ellis et al. | May 2007 | B2 |
7523515 | Allen et al. | Apr 2009 | B2 |
7676862 | Poulos et al. | Mar 2010 | B2 |
7743441 | Poulos et al. | Jun 2010 | B2 |
7757318 | Poulos et al. | Jul 2010 | B2 |
7779494 | Poulos et al. | Aug 2010 | B2 |
8104122 | Richards | Jan 2012 | B2 |
8104123 | Paz | Jan 2012 | B2 |
RE43155 | Allen et al. | Feb 2012 | E |
9687401 | Alford | Jun 2017 | B2 |
20060059621 | Poulos et al. | Mar 2006 | A1 |
20060260051 | Paz | Nov 2006 | A1 |
20070169267 | Paz | Jul 2007 | A1 |
20080086815 | Kappeler | Apr 2008 | A1 |
20100005592 | Poulos et al. | Jan 2010 | A1 |
20120066832 | Poulos et al. | Mar 2012 | A1 |
20130145550 | Roussy et al. | Jun 2013 | A1 |
Entry |
---|
International Search Report and Written Opinion for related International Patent Application No. PCT/US2015/049391 dated Jan. 20, 2016. |
Number | Date | Country | |
---|---|---|---|
20150297432 A1 | Oct 2015 | US |
Number | Date | Country | |
---|---|---|---|
61981591 | Apr 2014 | US |