NO119585B - - Google Patents

Description

Tumbling disc motor with multiple working pistons.

The present invention relates to a tumbling disc motor with several working pistons.

Such motors are frequently used for feed operation of machine tools. In this application, where during milling operation you work with a relatively low number of revolutions but a high torque, the tumbling disc motor must also be used for the roller movement. able to work at high rpm, as only small torques are required. In order to keep the need for propellants for the roller movement as low as possible, it is possible to adjust the inclination of the tumbling disc in relation to its axis. Such swashplate motors have already been made; however, they have the disadvantage that error-free storage and support of the tumbling disc on the axle, as is necessary for reliable operation, encounters great difficulties. In particular, the space conditions generally do not allow finding a solution that meets the requirements.

The invention consists in obtaining one

swashplate motor with which the above-mentioned operating states can be achieved, while avoiding the disadvantages of the known designs.

A tumbling disc motor with several working pistons for liquids or gas is, according to the invention, characterized in that one or more working pistons can optionally be put out of action to change the engine's capacity.

An example of the design of a tumbling disc motor according to the invention is schematically illustrated in the drawing to the extent necessary to understand the invention.

Fig. 1 shows a longitudinal section through part of the engine when set during operation with reduced capacity. Fig. 2 shows a cross-section through the engine along the line A—A in fig. 1. Fig. 3 shows the same section as fig. 1 (on a reduced scale) in normal setting, i.e. at full capacity.

In the housing 1, the shaft 4 on which the tumbler 3 is attached is rotatably mounted. The working pistons 2, which are displaceably arranged in the housing 1 in axial bores which lie concentrically about the shaft, are applied on their back side with a pressurized liquid or gaseous medium. Under the influence of the drive medium, the working pistons move in their cylinders from the outer to the inner dead center position and act on the tumbling disc thus imparting a rotary movement to it. After the stroke of each working piston is completed, its cylinder is connected to the drain. By the further rotation of the tumbler 3, the working piston is brought back to the outer dead center position, after which the working process begins again.

On the back of the tumbler 3, the housing together with the housing lid and insert piece forms an annular space in which the ring piston 5 is displaceably arranged. The ring stamp

5 has on its side the tumbler 3 facing

side holding fingers 7. There are arranged six such fingers which respectively stand opposite each other of the twelve working pistons 2 arranged in the present embodiment. A channel 6 opens into the annulus of the ring piston 5. This can be connected in a known manner, as needed, with the

pressurized propellant or with the drain.

In normal operation, the channel 6 is in connection with the drain and the ring piston 5 lies with its front side against the housing 1 lid. The ring piston 5 and its holding fingers 7 are so dimensioned that in this position they are outside the working piston 2's range of motion (see fig. 3). With this setting, all working pistons 2 can perform their full working stroke unimpeded.

When switching to operation with rapid movement where the swash plate motor is only to overcome small torques, the channel 6 is connected to the pressurized drive medium. The resulting pressure in the annulus acts on the ring piston 5 and displaces it. Then the holding fingers 7 move to the side past the tumbler 3 and grab the associated working pistons 2, bring these to their outer dead center position and hold them firmly in this (see fig. 1). All other working pistons continue working unimpeded, as the driving medium not absorbed by the retained pistons is at the disposal of the mentioned other working pistons. They thus inform the tumbling disc 3 of the desired rapid movement with the most favorable possible consumption of drive medium.

As soon as the ring piston 5 is relieved by switching the channel 6, the applied working pistons 2 which are in engagement with the hollow arms 7 can push the ring piston 5 back to its inactive end position. All working pistons 2 now again perform their full working stroke unimpeded. The swashplate motor again works in normal feed mode while delivering the required high torque.

In the shown embodiment of the tumbling disc motor, only a fixed number of working pistons can be put out of action at any time. For certain applications, it may be desirable, as needed, to exclude an arbitrary number of work stamps from the work output. By suitably dividing the ring stamps into individual separate and individually displaceable segments, this can be realized to a large extent. An even finer trim can be achieved if one arranges a separate control piston equipped with a holding veneer for each individual work cylinder. With these two variants, the various segments or board stamps, at any time the desired number of working stamps is put out of business. Of course, for this purpose, suitable lines and valves or the like must be arranged.

For setting the ring stamp, the en-

forged piston segments or the control pistons can be used with the described tumbling disc motors, at any time this pressurized drive medium is used. Of course, another gaseous or liquid medium under sufficient pressure can also be used. The setting of the ring stamp could also be effected in another suitable way, e.g. by mechanical, electrical or magnetic impact on the same. Combinations are also conceivable. The same naturally applies to variants with ring-piston segments or with individual steering segments.

Claims (9)

1. Tumbling disc motor with several working pistons for liquids or gas, characterized in that one or more working pistons (2) can optionally be put out of operation to change the engine's capacity. 2. Tumbling disc motor as stated in claim 1, characterized in that the decoupled working pistons (2) can be maintained in their outer dead center positions. 3. Tumbling disc motor as stated in claims 1 and 2, characterized in that an adjustable ring piston (5) maintains the switchable working pistons (2) in their outer dead center positions, while the ring piston (5) in its normal position lies outside the working pistons (2) range of motion. 4. Tumbling disc motor as indicated in claims 1-3, characterized in that the ring piston (5) has holding fingers (7) whose number corresponds to the number of the working pistons (2) to be disengaged. 5. Tumbling disc motor as specified in claims 1-3, characterized in that the side of the ring piston facing away from the working pistons (2) can be applied with a pressure medium. 6. Tumbling disc motor as stated in claim 3, characterized in that the ring piston (5) consists of individual segments separated from each other. 7. Tumbling disc motor as specified in claims 1 and 2, characterized in that an adjustable control piston is arranged for each working piston (2). 8. Tumbling disc motor as specified in claim 6, characterized in that the sides facing away from the working pistons (2) of the individual ring piston segments can be applied with a pressure medium. 9. Tumbling disc motor as stated in claim 7, characterized in that each control piston can be influenced by a pressure medium.