DE2742217A1 - Hydraulic pump and motor acting on differential pressure - have single rotor working as motor and pump on opposite sides - Google Patents

Abstract

A hydraulic machine acts as a motor over one half of its circumference and as a pump over the other half. A pressure tank with an air pocket provides a supply of liq. at pressure to the motor side of the machine. The pump side delivers liq. to a tank through a stop valve. There is a non-return valve is a connected between the high and low pressure sides of the system. A relief valve between the receiver tank and the pressure tank controls the pressure in the latter.

Description

Subject: Principle of a mini rotor differential force motor,

Fiehr stages - in-cell rotor differential force motor and variants of lfiotor- and buzzers.

Description: The principle of the in-cell rotor differential force motor exists essentially in the fact that the rotor drawing 1 Fig. 1, half as a liotorräufer and on the other half it serves as a pump run. In principle, stands or rules Apply pressure from pressure core 3 on one side of the runner. From the opposite There is no pressure on the runner's side. This wide has a connection to the tank 4.

On the side where the displacers 2 protrude from the rotor 1, drawing 2a Fig. 1, is the rotor part of the motor.

The opposite side where the sealing wing 3 from the displacer 2 is the pump part. The distance from the center of the rotor to the pump part is smaller than the distance to the engine part. The difference between these distances results in below Taking into account the pressure from the pressure medium, the resulting torque.

The basic scheme of a single-rotor differential power motor also includes Inlet and outlet lines 5 and 7, and line 6 with a check valve 9. The check valve 9 opens when the differential force motor is switched off through valve 8, the rotor continues to rotate by means of external influence.

The print medium then runs within the rotor and the line 6 around.

The regulating valve 10 drawing 1 has the task of reducing the pressure in the pressure vessel to regulate either automatically or by manual or other aids, after this has been set to an iflindesdruck. The regulating valve can be set up to a certain maximum pressure or this maximum pressure will be by means of a safety valve which is integrated in the regulating valve will.

A multi-stage single-bank1 differential force engine essentially consists from the compilation of several twin runners on one or more shafts are connected. In particular, runners according to FIG. 1, drawing 2a can be provided here will.

However, runners according to drawing 3a, FIG. 1, are also possible here.

When using a rotor the analogue to drawing 3, Fig. 2 produced pumps must also be attached, even if the diagram according to (Fig Drawing 1 is executed.

The displacement of the displacer is provided by a multi-stage differential motor be executed according to the drawings 2 uiü2a, FIGS. 1 and 2.

According to drawing 2 and drawing 2a, FIGS. 1 and 2, the move Sealing wing 3 in the displacers 2 back and forth to act as a pump at the top. the Displacers 2 occur at the part where they turn the rotor 1 into a motor rotor this from and together with the sealing wings form the pressure surface. The displacer can be performed with the help of roller bearings, which in turn run in bushes 4 a, the bushes are supported in the housing via roller bearings 4 b. The shaft 7 can With a suitable construction, be stored in such a way that it can be used together with the carriage 1 is adjustable in height towards the housing in order to regulate torque and speed.

A special sliding material can be used in the sealing surfaces of rotor 1 and displacer 2 must be installed in order to keep the friction as low as possible.

The same as in drawing 2 and 2a applies in principle to the execution of the rotor according to drawing 3 with the difference that here the rotor is only a motor rotor is performed. The roller bearings can also be provided so that this over run the sealing surface of the eccentric ring 6 while wearing the displacer. the Displacers 2 also carry the sealing wings 3 here, which seal aum eccentric ring.

The motor rotor according to drawing 3a Fig. 1 can be used as a Fiotor explanation or used as a motor-pump rotor and therefore as a single-rotor differential force motor will. The displacer 2 hang on tabs 3a, which in turn have a support bolt be stored, with which the displacers are positively controlled. Know the displacer be made in one piece with the tabs and sealing in the rotor 1 back and forth move forward. Another way of sealing consists in between rotor 1 and displacer 2 to introduce a sealing strip 2a, the rotating Movements and up and down 3ewegungen join in The sealing wings according to the drawings 2a Fig.1, and according to drawing 3a Fig. 1, may or may not be volume compensated be installed to compensate for the volume.

The number of displacers can be less than 6 but also larger Number of pieces to be provided.

Claims (7)

Protection claims: 1. Principle of a single rotor differential force motor , Training stage single rotor differential force motor and variants of Viotor and pump rotors characterized in that it consists essentially of a notor pump rotor, Hotorrunners, pressure vessels, Tzk, displacers and valves. 2.) as before according to claim 1, characterized in that according to the drawing 1 the scheme of a single rotor differential force motor consists of a single rotor, Motor runner and pump runner 1, a line system 5, 6 and 7, a check valve 9, a through valve 8 and an i2egulierventil 10 in which a safety valve is integrated, a 'l'ank 4, a pressure vessel 3 by an air cushion 3a is located by enclosing air or gas in a flexible container, the safety valve or a safety valve is particularly provided which, when opened, the excess pressure in the tank. 3.) as before according to claim 1 and 2 characterized in that after Drawing 2 and 2a of the single runner consists of a correspondingly shaped runner 1, the displacers 2 move up and down suspended in roller bearings 4 which in turn in light embedded in the housing or in a circulating and roller bearing guided Bushing 4a move and the sealing wings 3 are preferably embedded in the displacer are and the shaft 7 can be installed so that it is adjustable in height to To be able to influence torque and speed. 4.) as before according to claim 1, 2 and 3, characterized in that the rotor according to drawing 3 Fig. 2 is preferably used as a motor rotor only and for this purpose it is built with displacers 2, in which the roller bearings are installed Give the possibility that the displacer on this on the sealing surface of the eccentric ring prop up while the sealing wing 3, the consumption and delivery space in high and low pressure split up and seal against high pressure and that this motor runner also drives a differential motor is suitable and that the displacer 2 in the rotor 1 between bearings 7 and 8 but also between particularly slippery material in the Sealing joints built in between displacer and rotor, which can move how the bearings 7 and 8 are built in for the purpose. 5.) as before according to claim 1, 2, 3 and 4, characterized in that the rotor according to Fig. 1 of the drawing 3a both single rotor and only motor rotor After installing the eccentric ring, it can be that the displacer 2 tabs 3a own and support themselves together on a '£ rtiger bolt, the carrier bolt eccentric to the runner 1 is fixed or set in variable height to the runner is, the displacers 2 move up and down in the rotor 1 in a direct sealing manner and seal strips can be built in that allow these movements and that as in all runners the number of displacers is variable and both smaller and larger than 6 pieces can be and they sealing wings ae both after execution of a differential force motor as well as not, vmlumensompensiert wing can be built. 6.) as before according to claim 1, 2, 3, 4 and 5 dadurcn characterized that a multi-stage differential force motor 1 or more rotors on one or more shafts possesses which are referred to as incell rotors, motor rotors and also pump rotors can whereby single rotors are the rotors that work on a rotor as a motor and a pump rotor apply, motor rotors those that are just motor rotors and pump rotors that are any Can include construction principle. 7.) as before according to claim 1, 2, 3, 4, 5 and 6, characterized in that that basically every motor runner has displacers that correspond to the pressure medium displace their volume as a proportion of the total swallowing volume and in many ways can be built in.