This invention relates to an adjust and lock mechanism suitable for adjusting a moveable member such as an adjustable member of a gantry.
According to one aspect, the invention comprises an adjust and lock mechanism comprising a drive gear rotatably mounted in a frame and adapted to engage a drive track in an adjustable member that is to be adjusted relative to the frame by rotation of the drive gear, the drive gear being mounted on a drive spindle that can move axially relative to the drive gear and which is normally spring loaded into locking engagement with the frame and can be moved axially to disengage the locking engagement and allow the spindle to be rotated to operate the drive gear.
In one embodiment, the locking engagement is provided by a brake, such as a dog gear, and said axial movement is provided by mounting the drive gear on a sleeve in which the spindle slides. A lock release button on one end of the spindle allows it to be operated by depression, and the brake at the opposite end of the spindle disengages to allow the drive gear to be rotated. A hand wheel mounted on the spindle adjacent to the lock release button serves to rotate the drive gear to adjust the adjustable member. The lock release button is then released to allow the brake to re-engage and lock the adjustable member in its new position. The proximity of the hand wheel and lock release button facilities joint operation. Also the spring loading of the lock release button makes it fail-safe if released accidentally.
The adjust and lock mechanism may incorporate a gear train to improve the mechanical advantage of the hand wheel in operating the drive gear. The drive track in the adjustable member may comprise a drive chain secured in place to move with the adjustable member upon rotation of the drive gear. The drive track is preferably received in a channel in the adjustable member.
In one embodiment of the invention, the adjust and lock mechanism is mounted on a frame comprising front and back plates with the drive gear located between them and the hand wheel and lock release button accessible outboard of one of the plates. The plates may serve to connect a pair of splayed legs which extend downwards therefrom to form a base frame. Wheels may be provided at the lower ends to make the base frame mobile. The adjustable member is received between the plates to extend upwards from them and may be guided by support wheels either side to resist movement laterally of the drive gear and spindle.
According to another aspect, the invention comprises an adjust and lock mechanism comprising a drive wheel mounted on a drive spindle that can move axially relative to the drive wheel and which is normally spring loaded into locking engagement with a stop and can be moved axially to disengage the locking engagement and allow the spindle to be rotated to operate the drive wheel, a manually operable lock release member mounted on the spindle to move the spindle axially when operated, and a manually rotatable adjust member mounted on the spindle adjacent the lock release member so as to facilitate operation of both jointly.
According to yet another aspect, the invention comprises an adjustment mechanism comprising a drive gear rotatably mounted on a frame and adapted to engage a drive track in the form of a chain mounted on a member so as to allow adjustment between the frame and member by rotation of the drive gear.
The invention will now be described by way of example with reference to the accompanying drawings in which:
The gantry shown in
The plates 7 are of a generally triangular shape to match the profile of the diverging legs 6 and each have a pair of upwardly projecting lugs 11 at their upper end to form mounting points for a pair of guide wheels 12 located between respective pairs of lugs 11 either side of a central vertical gap between the two plates. This gap is designed to receive an upright adjustable support 13, the top of which is connected to one end of the horizontal beam 2. The support 13 is a tubular member with a substantially rectangular section and has channels 14 formed longitudinally in opposite sides. A roller link chain 15 is fitted in one of these channels for engagement by a drive gear 16 to determine the vertical position of the support 13. A second pair of wheels 12 is mounted between the plates 7 below the drive gear 16 to engage and support the sides of the support 13.
As shown more clearly in
As shown more clearly in
In use, the spindle 17 is installed with the disc 32 and grease points 37 outboard of the one plate 7, and with the second pin 36 outboard of the other plate 7. The outer face of this other plate 7 is provided with a series of projections 38 spaced around the end of the spindle so as to form spaces therebetween in which the projecting ends of the pin 36 can engage in the manner of a dog gear. Thus the spring 34 normally serves to urge the rod 28 axially so as to engage the dog gear, which serves to prevent rotation of the spindle 17. The dog gear 36, 38 therefore acts as a brake to prevent rotation of the spindle 17 until the disc 32 is depressed to disengage the dog gear 36, 38. Once the pin 36 is clear of the projections 38, the spindle is free to rotate. When the brake is applied, the downwards load of the supports 13 and horizontal beam 2 and any load carried by it, is transferred via the chain 15, drive gear 16, and spindle 17 to the dog gear brake 36, 38. When the brake is released by depressing the disc 32, the downwards load is applied through the gear train to the hand wheel 18, but the mechanical advantage of the gear train reduces the torque on the hand wheel so that it can be managed by a user. The fact that the disc 32 to operate the brake, and the hand wheel 18 to adjust the height of the beam 2 are located together on the same spindle serves to make joint use very easy.
It will be appreciated from
In order to increase lateral stability of the gantry, a strut member 40 is provided between the beam 2 and each side frame 1. The strut 40 comprises a tubular member similar to the support 13 and is connected at its lower end to the lower end of the support 13 where it projects below the plates 7. This connection 44 then limits the extent to which the support 13 and beam 2 can be raised vertically. The upper end of the strut 40 is connected to the beam 2 inboard of the support 13 via connection plates 41 either side. It will be appreciated that when the supports 13 and struts 40 are disconnected from the beam 2, the side frames 1 can be readily folded into a compact assembly for transport.
The beam 2 preferably has a section as shown in
In another embodiment, a beam trolley may be connected to a chain in the manner of a continuous loop and engage gears at either end of the beam, one of which is driven.
In yet another embodiment of the invention, the adjust and lock mechanism shown in
It will be appreciated that the provision of a chain to form a gear track is a simple and effective manufacturing step, which allows suitable hard wearing material to be used for the track in a member which may be composed of softer material, such as extruded aluminium.
Number | Date | Country | Kind |
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0722596.4 | Nov 2007 | GB | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/EP08/65675 | 11/17/2008 | WO | 00 | 8/27/2010 |