This invention relates generally to actuators and more specifically to actuator controlled equipment that requires extended run times before repair or replacement of the actuator.
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The concept of rack and pinion actuators for converting linear motion into rotational motion is known in the art. One of difficulties with conventional actuators is that the actuators often need to be replaced or repaired due to repeated use. In certain applications the repair or replacement of the actuators needs to be minimized since the whole system may need to be shut down to repair or replace the actuator. Because of the unbalanced arrangement of forces on rack and piston actuators it is often times difficult to obtain an extended operating life for a rack and pinion actuator. The present invention provides a long life actuator that eliminates the need for frequent repair or replacement of the actuators.
Briefly, the invention comprises an actuator having a set of slidable pistons including sliding regions with the sliding regions including at least one wear member supported by a resilient member. A second wear member can be laterally spaced from the first wear member with a lubricant carried therebetween for maintaining the wear members in lubricated sliding engagement with the cylindrical walls of the housing to limit the need to replace or repair the actuator. In order to provide rapid ingress and egress of fluid from the chambers within the actuator a channel passage extends along the back side of an extension of each of the piston to permit quick venting of fluid.
a is an enlarged view of a portion of the sliding region on the piston in the actuator;
In operation of actuator 10, if the pressure in piston end chamber 40 and piston end chamber 41 is greater than the pressure in central chamber 35 the pistons 12 and 32 are driven toward each other (indicated by arrows) thereby causing counter clockwise rotation of shaft 16 as the teeth on extension of each of the piston 12 and 32 engage the teeth 16a on the shaft and rotate the shaft 16. Similarly, if the pressure in the central chamber 35 is higher than the pressure in piston end chamber 40 and 41 the pistons are driven away from each other causing clockwise rotation of shaft 16 through engagement with the teeth 16a thereon. Thus through controlling the pressure in piston end chamber 40 and 41 as well as central chamber 35 one can drive pistons 12 and 32 back and forth within the cylindrical sidewalls 11a.
a shows the sliding region 42 of piston 32 in greater detail. Housing 11 has a cylindrical piston wall surface 11a for piston 32 to slide therealong. Located on the skirt of piston 32 are three circumferential recesses 32a, 32b and 32c. Recess 32a carries an annular wear member 51 to permit sliding engagement with wall surface 11a. Similarly, recess 32c carries a wear member 52 to permit sliding engagement with wall surface 11a. In addition recess 32c carries a resilient sealing member 53, such as an elastomer, to prevent flow therearound as well as resilient hold wear member 52 against wall 11a to allow piston 32 to slide laterally along cylindrical sealing wall 11a. In the embodiment shown the wear members 51 and 52 are made from a rigid wear material such as nylon or the like, which is softer than the cylindrical sealing wall 11a, yet sufficiently durable so as to be able to withstand repeated sliding engagement without having to be replaced.
Located between recess 32a and 32c is an annular lubrication recess 32b for carrying a lubricant. A solid or viscous lubricant can be placed in the lubrication recess 32b to enable the lubrication to be carried on the piston skirt as the piston 32 slides back and forth thereby enabling the lubricant to be continually available proximate the wear members 51 and 52. Thus, the lubricant 70 which can be maintained in recess 32b is available for continual lubrication of the surface 11a so as to minimize wear as the piston 32 slides back and forth with the wear members 51 and 53 in sliding engagement with cylindrical wall surface 11a.
The actuator 10 of the present invention is useful in many types of systems.
With the combination of the wear members of the present invention and the lubricant reservoir over a million piston cycles are obtainable without having to replace or repair the actuator.
Thus the invention includes a method for extending the cycle life of a rack and pinion actuator comprising the steps of forming at least two spaced apart wear member which are carried on a skirt of a piston for forming sliding engagement with a cylinder wall and placing an elastomer member proximate at least one of the spaced apart wear members to prevent flow of fluid the repast as well as to resiliently maintain the at least one of the spaced apart wear members in resilient contact with the cylinder wall. In addition by including the step of placing a non-runable lubricant such as viscous or solid lubricant between the spaced apart members one can provide for on-the-go lubrication of the wear members.
The invention thus includes a conveying system with an actuator having a rotatable shaft and a set of pistons slidable in a cylinder, each of the pistons having a set of teeth for engaging with a set of teeth on the rotateable shaft so that displacement of the pistons toward or away from each other produces at least a partial rotation of the rotateable shaft. Each of the pistons has a skirt carrying a first wear member, a lubricant and a second wear member located on the skirt. Located proximate one of the wear member is an inner resilient or elastomer sealing member for preventing flow of fluid the repast with lubricant carried therein maintaining a lubricated state between the cylinder and the wear member to allow for repeated displacement of the pistons without having to replace the sealing or the wear member.
With the lubrication recess extending around the peripheral circumferential region of the skirt of each of the pistons one can and carry a lubricant for 360 degree lubrication of the wear members.
Number | Name | Date | Kind |
---|---|---|---|
4890645 | Andersen | Jan 1990 | A |
4895037 | Komatsu | Jan 1990 | A |
4928577 | Stoll | May 1990 | A |
6173965 | Niessen | Jan 2001 | B1 |
Number | Date | Country |
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44 11 006 | Dec 1994 | DE |
0 099 546 | Feb 1984 | EP |
1 509 067 | Jan 1968 | FR |
Number | Date | Country | |
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20040251445 A1 | Dec 2004 | US |