The invention relates to a hoist device, particularly a hoist device for persons, also called a transfer lift.
The invention furthermore relates to an attachment device for a hoist sling, also called lifting sling, with which the hoist sling can be attached to the hoist device, and to a hoist sling provided with such an attachment device.
Especially when using the hoist device for lifting a semi-valid person or an invalid it is of importance that the attachment device of a hoist sling that supports the person, cannot inadvertently be opened or disengage from the hoist device.
WO 97/01319 describes a fastening for hoist slings comprising a holder provided with a plate-shaped part and a round stud having a round head wherein the head has a larger diameter than the stud, and a resilient element of which a portion projects above the face of the plate-shaped part. The fastening furthermore comprises a plate-shaped clip provided with a slot which has a first portion through which the head of the stud will pass and a second portion through which the stud will pass, but the head of the stud will not pass. If the fastening has to be closed, the first portion of the clip is placed over the stud of the holder. The resilient element of the holder here is pressed in by the plate-shaped clip. Subsequently the clip is moved so that the stud ends up in the second portion of the clip in a position in which the resilient element of the holder springs back. The resilient element blocks the sliding back of the clip.
A disadvantage of the known fastening is that it is not user-friendly. In the known device the operation member and the closing member are combined in the resilient element. As a result the known fastening is for instance difficult to open because the resilient element on the holder has to be pressed in manually, and while pressing in, the clip has to be slid over the resilient element. In case of an emergency the known fastening thus is not easily and quickly unlocked. Moreover the person trying to open the known closure may get his/her fingers wedged.
It is an object of the present invention to improve on this.
From one aspect the invention to that end provides a hoist device for persons comprising a lifting arm to which a headed stud is attached for attaching a hoist sling to the lifting arm, wherein the head has a larger diameter than the stud, and wherein the hoist sling comprises an attachment device for attaching the hoist sling to the lifting arm, comprising a plate-shaped part comprising:
The locking device in the first position ensures adequate closing off of the connection portion and ensures that the attachment device cannot be inadvertently be opened and/or disengage from the lifting arm. The closing member, which at least partially closes off the connection portion, blocks a passage of the stud through the connection portion. The locking device may by operation of the operation member be slid from said first position to a second position in which the connection portion is opened, as a result of which the stud can be slid through the connection portion and the attachment device can be detached from the lifting arm.
In the device according to the invention the locking device comprises a closing member near a first end, and an operation member near a second end. Thus the operation member can be placed further away from the closing member, as a result of which the operation of the operation member does not interfere with the opening of the attachment device, due to which the attachment device according to the invention is easy to operate and the risk of fingers getting wedged is reduced.
Another advantage of the device according to the invention in comparison to the known device is that the attachment device according to the invention comprises only one loaded part, namely the plate-shaped part. Therefore only one part needs to be made solid and firm instead of two as is the case in the known device. As a result the production costs of the device according to the invention will be lower.
In an embodiment of the hoist device according to the invention the locking device is rotatably attached to the plate-shaped part. Preferably the point of rotation is placed between the first and second end of the locking device. This results in a simple structure of the movable locking device which only at the location of the point of rotation has to be connected to the plate-shaped part.
Preferably the operation member is situated near a side of the plate-shaped part. It is furthermore advantageous here if the operation member is operable from the side of the plate-shaped part. Thus the attachment device can be operated from both sides of the plate-shaped part, and a univocal orientation of the attachment device according to the invention during attachment to the lifting arm is not necessary.
Preferably the side is situated in a longitudinal direction of the slot and lateral from the slot. Thus the operation of the operation member will not interfere with the hoist sling which in the extension of the slot is attached to the plate-shaped part. Said embodiment is particularly advantageous in combination with a rotatably placed locking device that is operable from the side of the plate-shaped part. The operation member then is situated in the squeeze plane of the attachment device. By pressing the operation member in the direction of the plate-shaped part, the closing member will give way in the direction of the side and thus clear the connection portion of the slot, which ensures a highly user-friendly operation.
In an embodiment the attachment device comprises a biassing device for biassing the locking device to the first position. Preferably the biassing device comprises a spring. The locking device can thus be automatically pressed into the closing position, which further increases the ease of operation and the safety of the device according to the invention.
In an embodiment of the hoist device according to the invention the locking device is adapted for giving way from the first position to a stud which moves in the slot from the first to the second portion. The attachment device can thus be easily and quickly attached to the lifting arm without the operation member having to be operated. Preferably the closing member at a side facing the first portion of the slot is provided with an inclined edge sloping in the direction of the second portion.
In a further embodiment the attachment device is adapted for a self-locking closing-off of the connection part by the closing member. The closing member is for instance urged further into the first position, being the closing position, by a pressure of the stud that is situated in the second portion, in the direction of the first portion of the slot.
Preferably the locking device is movably attached for a movement of the closing member directed away from the first portion from the first position and in which the attachment device comprises a stop for stopping a movement of the closing member directed towards the first portion from the first position. Chances of the attachment device inadvertently being opened and/or getting detached from the hoist device are further reduced with this embodiment which further increases the safety of the device according to the invention.
Preferably an engagement surface of the operation member is substantially perpendicular to the plane of the plate-shaped part. Via this engagement surface of the operation member the locking device is easily movable in a direction parallel to the plane of the plate-shaped part.
Preferably the attachment device comprises a further stop for stopping the movement of the locking device when the closing member is moved outside of the connection portion. The stroke of the locking device is thus optimally limited.
In a further embodiment of the hoist device according to the invention the attachment device comprises two locking devices that are placed on either side of the connection portion of the slot. Both locking devices cooperate for closing off the connection portion of the slot. For allowing a movement of the stud from the second to the first portion of the slot, both locking device have to be slid out of the connection portion. Chances of the attachment device inadvertently being opened and/or getting detached from the lifting arm are further reduced with this embodiment. The safety of the device according to the invention is thus further increased.
A further advantage of the use of two locking devices is that the stroke of each locking device can be smaller than the stroke of one single locking device. This may further improve the ease of use.
If moreover the operation member of both locking devices comprises an engagement surface that is substantially perpendicular to the plane of the plate-shaped part and is situated near opposite sides of the plate-shape part, a squeezing motion of a hand that engages over the plate-shaped part, can operate both locking devices simultaneously.
From a further aspect the invention provides an attachment device for a hoist sling, with which the hoist sling is attachable to a hoist device, comprising:
The invention furthermore provides an attachment device suitable and intended for a hoist device according to the invention.
The invention furthermore provides a hoist sling suitable and intended for a hoist device according to the invention.
The invention will be elucidated on the basis of the exemplary embodiment shown in the attached drawings, in which:
Two exemplary embodiments of a hoist device according to the invention are shown in
The attachment device 100 comprises a plate-shaped, part 1 provided with a continuous slot 2a, 2b as shown in FIG. 3. The slot comprises a first portion 2a through which a headed stud will pass. The slot comprises a second portion 2b through which the stud will, but the head of the stud will not pass. The first portion 2a and the second portion 2b are connected to each other by a connection portion. The ends of the plate-shaped part 1 that lie in the extension of the slot 2a, 2b, are provided with openings 3 through which a hoist sling can be attached (not shown). The plate-shaped part 1 forms the carrying part of the attachment device. That means that all loads will be exerted on this part. Only at the contact surface with the head of the stud is the carrying part (the plate-shaped part 1) therefore thin enough so that the headed stud can be slid from the first portion 2a to the second portion 2b of the slot. In this exemplary embodiment the thickness of the carrying part on the contact surface of the head is approximately 5 mm. Furthermore the plate-shaped part 1 is thickened in order to guarantee a strong and therefore safe attachment device. This is both advantageous to flexural strain and tensile strain.
The attachment device furthermore comprises two locking devices 6, 7 which are placed on either side of the slot 2a, 2b. The locking devices 6, 7 are attached to the plate-shaped part 1 rotatable about a hinge point 8. The hinge points 8 consist of a combination of a press connection and a screw connection. Here both locking devices 6 and 7 consist of two parts 6a, 6b and 7a, 7b, respectively. Both parts 6a and 6b and 7a and 7b, respectively, are pressed onto each other over the plate-shaped part 1 with a so-called male-female connection 40, 41. Here the compression springs 9 are put directly into position. To render the connection permanent and safe both locking devices 6, 7 are also secured with stainless steel screws 10. The locking devices 6, 7 are urged into a closed position by the springs 9. Stainless steel compression springs are used here. Said springs are operationally reliable and are completely covered by the locking devices 6, 7.
The locking screw near the point of rotation 8 of the left-hand locking device 7 shown in
In the non-operated condition shown in
After squeezing the locking devices 6, 7 in the direction A, as shown in
In the opened condition shown in
The operation of this exemplary embodiment of the attachment device according to the invention is shown in
For unlocking the attachment device, the operation members 12 of both locking devices 6, 7 have to be pressed in, as shown in FIG. 7. This is a simple and user-friendly action because the operation members 12 of the locking devices 6, 7 are situated in the squeeze plane of the attachment device. Subsequently the attachment device can be moved in the direction C, as a result of which the headed 20 stud ends up in the large opening 2a, so that the attachment device can be taken from the stud.
A further advantage of the exemplary embodiment of the attachment device shown here is that use can be made of injection moulded parts. A first injection moulded part then forms the plate-shaped part 1, and a second injection moulded part forms the parts 6a, 6b, 7a, 7b, respectively, of the locking devices 6, 7.
It will be clear that the exemplary embodiment of the invention described above is meant to be an illustration of the invention and not meant to limit the invention. An expert will certainly be capable of designing alternative embodiments that fall within the scope of protection of the attached claims.
The attachment device may for instance also be used for other types of hoist devices or other transfer lifts.
Number | Date | Country | Kind |
---|---|---|---|
1022487 | Jan 2003 | NL | national |
Number | Name | Date | Kind |
---|---|---|---|
4545085 | Feldt | Oct 1985 | A |
4802542 | Houston et al. | Feb 1989 | A |
5201858 | Otrusina | Apr 1993 | A |
6053519 | Poindexter et al. | Apr 2000 | A |
Number | Date | Country |
---|---|---|
1 064 906 | Jan 2001 | EP |
2 293 857 | Apr 1996 | GB |
9701319 | Jan 1997 | WO |
Number | Date | Country | |
---|---|---|---|
20050088004 A1 | Apr 2005 | US |