DE2362852A1 - Low consumption differential power motor - has high pressure container fed from two sources for high efficiency - Google Patents

Abstract

The engine rotor is set in rotation by pressure medium and delivers the spent pressure medium to a container. Simultaneously the pump rotor rotates, removes pressure medium from the container and compresses this further in the high pressure container. The pump rotor pumps more pressure medium into the latter container than is removed from this by the engine rotor whereby the pressure increases. The safety valve opens and allows the excess pressure medium in the container to flow to the low pressure region whereby the pressure in the high pressure container remains constant. The circuit is enclosed. The motor is designed to use a minimum amount of pressure medium.

Description

Applicant:

Josef Bertrams * "

514 Erkelenz-Kückhoven

Katzemerstr. 1 December 16, 1973

Subject_2 Application for a -differential engine- for a patent.

The differential force motor essentially consists of motor rotor 1, pump rotor 2, container 3, safety valve 4, pressure regulating device 5, high-pressure container 6, air cushion 7 and non-return valve 8.

How the de? Differential force motors is as follows: After the pressure medium has been released to motor rotor 1 ″, it begins to rotate and releases the used printing medium to the container 3. At the same time, the pump rotor 2 rotates, takes pressure medium from the container 3 and continues to push it into the high-pressure container 5. The Pump rotor 2 pumps somewhat more pressure medium into high-pressure container 5 than is taken from it by motor rotor 1, as a result of which the pressure increases. The safety valve opens and lets that too much pressure medium present in the high-pressure container 5 in the container and thus flow off to the low-pressure area, the pressure in the high-pressure container 5 remains constant. The cycle is closed. The print medium is as incompressible as possible, e.g. a Liquid.

In this differential force motor, the motor rotor 1 has a pressure surface that is almost 100 # larger than the pump rotor 2, with the same shaft spacing or the same path. Caused by the different-sized surfaces, large forces d equal pressure prevails, miscellaneous whose difference for driving machines and devices used könnte.Bs formed, for example at the motor rotor 1oo Kg force, of which the pump rotor requires 55 Kg (for example) ^"e so s Me 45 kg of which another 10 kg is lost in friction. There then remain 35 kg for drive purposes. Something similar happens in an internal combustion engine, although this is exactly what is overlooked in reviews, namely, the expansion of the gases pushes an Ifrben downwards, another piston is pushed upwards, which requires work to compress the air-gasoline mixture that has been sucked in. 2> The amount of work to be done here * work must be deducted from the work that is created and after deduction of the work required to overcome the friction, it can be determined how large the proportion of the work done is of the work that was initially created.

The construction of the Mctorlaufer 1 is such that this actually uses less pressure medium than the pump rotor when it is approx. 5oi <- can promote smaller pressure area with the same path. Based on are the following patent applications for which I have applied Constructions:

1. Liquid motor with particularly high mechanical efficiency and extreme low consumption of printing material.

2. Rotor vane pump with a particularly high mech. Efficiency.

The pressure regulator 5 serves to increase the pressure, for example in order to increase the torque and speed and thus the performance increase to ζ.Έ. speeding a car.

- 2 - SAD

509825/023 /,

Claims (2)

Applicant: Josef Bertram ;: 514 Srkelenz-Kückhoven ^ atiemeretr. 1 The check valve 8 is installed within a line between high and low pressure, for example to allow pressure medium to pass when the shaft and thus the rotor continues to rotate due to an external force with the pressure supply closed, in order to ensure that the pressure medium runs smoothly. This could be the case, for example, if a car equipped with a differential force motor drives down a hill and the circulation of the pressure medium would not be fully possible due to valves being shut off too far. The air cushion 7 "± is a flexible container filled with air or gas so that the air or gas cannot get into lines or spaces other than those provided when the differential force motor is tilted. _J JJ differential force motor is characterized in that it preferably consists of: motor rotor 1, pump rotor 2, container 3, safety valve 4, pressure regulating device 5, high-pressure container, air cushion 7 and non-return valve 8. 2. Differential force motor according to claim 1, characterized in that the pressure surfaces of fiotorläufer 1 and pump rotor 2 either run the same path or with different paths and different distances from the center of the shaft correspondingly larger or smaller pressure areas exhibit. Josef "Bertrams BAD ORJGiNAL 5 098 25/023 U