DE1239157B - Rotary fluid drive for valves u. like - Google Patents

Description

Rotary fluid drive for valves and the like a pressure medium drive for valves and the like with a longitudinally displaceable, pressurized one Piston, which has a bolt and a slot with a direction transverse to its direction of movement lying, the locking piece adjusting, rotatable shaft is in connection.

The well-known pressure medium drives for valves are usually with racks, Gear drives or rods equipped and so complicated that often the costs the pressure medium drives are higher than those of the valve itself. Also need these pressure medium drives an undesirably large space, are subject to occurrence large frictional forces of rapid wear and require corresponding driving force, so that the maintenance cost is high.

The purpose of the invention is to eliminate these disadvantages and to create them a pressure medium drive with the smallest possible space requirement, simple construction, reduced frictional forces and lower drive requirements.

This is achieved in that in the case of a pressure medium drive the aforementioned Type a) the piston has the full diameter only over part of its length and outside of which merges into an extension, b) the piston in per se known Way is slidable on a rod, c) the extension on one side of the Rod carries the bolt and d) the rotatable shaft on the one facing away from the bolt Side of the rod is arranged and encompassing the extension with a fork piece part engages with the bolt.

Further features of the invention emerge from the subclaims.

An embodiment of the invention is related in the description explained in more detail with the drawing. It shows F i g. 1 shows a longitudinal section, FIG. 2 shows a cross section along the line 2-2 of FIG. 1.

The drive has a cylindrical housing 10, which is composed of a cup-like housing part 12 with a closed bottom, an adjoining hollow cylindrical part 14 and a cover 16 . The hollow cylindrical part 14 rests with one end against the open end of the cup-like part 12 and is sealed by a seal 18 at the stroke point. Correspondingly, the cover 16 covers the other end of the cylinder 14, in which it is sealed with a part 22 of reduced diameter by a seal 20. The three parts 12, 14, 16 of the housing 10 are held together by a rod 24 which axially and centrally penetrates the housing 10 and which is passed with threaded ends through the bottom of the cup-like part 14 and the cover 16 and provided on the outside with nuts 26 and washers 28 so that the housing 10 is liquid-tight.

The central rod 24 also serves as a piston rod on which a piston 30 is arranged to slide axially. The piston 30 has at one end a head part 32 which slides in the cylinder 14 and is provided with a sealing ring 34. In an outgoing from the end face of the head part 32, the rod 24 surrounding the axial bore 38. 36 is disposed a packing ring as a seal between piston 30 and rod 24, which is compressed by engaging with an external thread in the bore 38 of bearing sleeve 40 to the central simultaneously The piston 30 is supported on the rod 24 and is used to adjust the packing ring 36. This bearing sleeve 40 is preferably made of easily sliding bearing bronze or a similar bearing material.

At the other end of the piston 30 , a further bearing sleeve 42 is attached in an end bore 44 surrounding the rod 24 , which is likewise preferably made of easily sliding bearing bronze or a similar bearing material.

In order to convert the straight-line movement of the piston 30 into a rotating movement of a shaft 48, which transmits this rotational movement to the valve spindle 66, a mechanism with a fork piece 56 and a bolt 46 is provided. The bolt 46 extends transversely through a piston extension and protrudes therefrom at opposite ends. The shaft 48 penetrates the housing part 12 laterally of the rod 24 and the diameter of the piston extension, without hindering the latter in its axial movement, and the ends still protrude from the housing part 12. The shaft 48 is rotatably mounted in opposing and mutually aligned bearing bores 50 and 52 of the housing part 12 and is sealed by sealing rings 54. The fork piece 56 is fastened on the shaft 48 by means of a head bolt 58. The fork piece 56 is provided on both sides of the piston extension with parallel pairs of fingers 60 , which leave a sliding slot 62 free between them, in which the ends of the bolt 46 can slide. Each end of the shaft 48 protruding from the housing part 12 is provided with an angular insertion opening 64 into which the likewise angular end of a valve spindle 66, which is to be rotated, fits. In the exemplary embodiment, the drive device is fastened to the valve by means of a bracket 68 and screws 70 on the housing part 12 and screws 72 on the valve housing, which also serve as valve cover screws.

The pressure fluid can be admitted into the space to the left of the piston 30 through the supply line 74 arranged in the cover 16 or into the space to the right of the piston 30 through the supply line 76 arranged in the cup-like housing part 12. An adjusting screw 78 in the cover 16 with a counter nut 80 serves as an end stop for the piston movement to the left, while a corresponding adjusting screw 82 with a counter nut 84 in the bottom of the cup-like housing part 12 serves as an end stop for a piston movement to the right. If the piston 30 takes the in F i g. 1 a position 30 'shown in dashed lines, it rests against the stop 78, and when pressure fluid is sent through the supply line 74 into the cylinder 14, the piston 30 moves to the right. Initially, the fork fingers 60 of the fork piece 56 are in the dashed position 56 '.

When the piston 30 moves to the right, the bolt 46 pushes open the slot edges 62 and offset the fork piece 56 and the firmly connected Shaft 48 in rotary motion.

If the piston 30 is moved to its end stop 82, rotate it the fork piece 56 and the shaft 48 by about 90 ° in the illustrated embodiment to position 56 ". Pressure fluid is fed accordingly through the supply line 76 is fed into the space to the right of the piston 30, the piston 30 is moved to the left moves and thereby the fork piece 56 and the shaft 48 in the opposite direction turned to the left.

As a result of these rotary movements of the fork piece 56, the shaft 48 firmly connected to it is rotated 90 degrees in each case and the valve coupled to the shaft 48 is opened or closed.

With this conversion of the straight longitudinal movement of the piston 30 into a rotating movement of the shaft 48 and the valve spindle, a radial load on the piston 30 occurs because the bolt 46 presses against the fork slot edges of the slots 62 at angles of 45 to 90 °, so that the Pressure of the piston 30 has to overcome in the longitudinal direction and in the radial direction occurring resistance force components. In all such drive devices for converting straight-line movements into rotary movements, such radial resistance forces and not just limited, simple pin and fork-piece forces occur.

In the previous drive devices of this type, these come radial Resistance forces between the cylinder wall and the piston to the effect, see above that there is a tendency to move the piston head from its central position in the cylinder to push off one side, on which an increased one on the cylinder and on the piston Frictional wear occurs.

According to the invention, this one-sided, excessive loading of the piston head becomes eliminated by all radial loads being taken from rod 24 for piston 30 will. Due to the arrangement of the piston bearing sleeve 40 and the bearing sleeve 42 on the piston 30, which are preferably made of material with a low coefficient of friction, a low frictional resistance occurs between piston 30 and rod 24.

Claims (3)

Claims: 1. Pressure medium drive for valves and the like with a longitudinally displaceable, pressurized piston, which has a bolt and a Slot with a transverse to its direction of displacement, the locking piece adjusting, rotatable shaft is connected, d u r c h g e -marked, that a) the piston (30) only has the full diameter over part (32) of its length has and outside of which merges into an extension, b) the piston (30) in itself is known to be displaceable on a rod (24), c) the extension on the one side of the rod (24) carries the bolt (46) and d) the rotatable shaft (48) is arranged on the side of the rod (24) facing away from the bolt (46) and with a fork piece (56) engages around the extension with the bolt (46). 2. Pressure medium drive for valves according to claim 1, characterized in that the Rod (24) in a manner known per se at the same time as a cohesive member of the a plurality of axially lined up parts (12, 14, 16) existing housing (10) is trained. 3. Pressure medium drive according to claim 1, characterized in that the piston (30, 32) with the extension is designed as a one-piece body which is adjustably mounted at the ends with bearing sleeves (40, 42) with a low coefficient of friction on the rod (24) . Documents considered: Austrian Patent No. 186 080; French Patent No. 1265 365; British Patent No. 155,553; U.S. Patents Nos. 1406,012, 1958,262, 2,963,260, 3,109,457.