DE275796C - - Google Patents

Description

IMPERIAL M

PATENT OFFICE.

PATENT LETTERING

JVr 275796 - CLASS 14 «.. GROUP

in London.

Piston machine with rotating cylinders. Patented in Doutschen Reiche on July 19, 1913.

The invention relates to a piston machine with rotating cylinders that can be used as a pump or motor. The one with the same The main purpose is to increase friction in a simple manner reduce, as well as the manufacturing costs, the dimensions and the weight of the machine for a given performance.

The subject of the invention is used with Wiisser, to oil or another pressure medium, ζ. Β. Air, Gas or steam.

The main feature of the invention ordered in the use of balls or rollers as pistons that can rotate freely ■ and in cylinders a reciprocating motion carry out. The sphere or the outer sphere, if several balls are used in a cylinder, it will roll on a guideway along, for the purpose of getting back and forth motion. This construction is very simple, as bearing journals are superfluous. The manufacturing costs of the Balls are relatively low because hardened steel balls can be used as which are in the trade

Some embodiments of the invention can be seen from the drawings, namely: Fig. Ι a cross section through the cylinder 1, which is arranged tangentially to the axis of the machine are. The slide 2 3 ″ is arranged in the axis. The guideway 3 is fixed and arranged eccentrically to the axis of the rotating cylinder so that the balls 4 a specific hub.

Fig. 2 shows a longitudinal section through the machine with a partial view.

FIG. 3 shows a view similar to FIG. 1. In this embodiment, the eccentric guide track 3 is adjustable for change of the piston stroke.

Fig. 4 shows a longitudinal section of a machine with two eccentric guide tracks 3 and two cylinder rings 1, in which the cylinder bores of one ring are angled to those the other stand and all open into a common channel 6.

Fig. 5 shows a longitudinal section and

6 shows a section along line bb of FIG. 5 of a machine in which the cylinders are arranged concentrically and parallel to the main axis and are open at both ends. The cylinders each contain two balls 4, and the inlet 6 of the valve 2 is located between the balls 4. The pressure medium affects each ball 4, which roll on a guide track 3, which can be designed so that one or more strokes achieved during one revolution. ^v

FIG. 7 shows one similar to FIGS. 5 and 6 Construction in which four balls are used in each cylinder.

Fig. 8 shows a longitudinal section and
9 shows a section along the line cc in FIG. 8 of a machine corresponding to FIG. 1, in which, however, rollers 4 are used instead of balls. The rollers are provided with pins 8, which run in slots 9 of the cylinder and over fixed rings 10, which are also arranged eccentrically and are designed to correspond to the guide track 3.

Fig. 10 shows a longitudinal section of one of the Fig. 8 and "9 corresponding machine, in which instead of fixed eccentric rings loose rings 10 are used, which automatically the rollers in contact with the fixed, eccentric guideway 3

■ '■'. keep.

ao If only one ball or roller 4 is used in a cylinder, as shown in ^{FIGS. 1, 2} , 3> 4j 8, 9, 10 or two separately working balls, as shown in FIG. 5, the stroke of the same must be smaller than its radius, since the seal is formed by the median plane of the ball or roller 4.

If a longer stroke is required, two or more balls are used, as in Fig. 7 shown. These balls are arranged one behind the other, and the outer balls or -Rollers are arranged in guides 7, which are the extensions of the actual cylinder

.- '■ v' form. The guide track 3, through which the balls are informed of the reciprocating movement, is arranged between the guides 7. In this case, the ball which is furthest away from the guide track 3 forms the piston and never emerges from the actual cylinder. The center of this ball never reaches the end of the actual cylinder and thus maintains the seal, with the selected number of balls determining the stroke length.
In the case of a machine that can be reversed at will, the guide. path that communicates the back and forth movement to the balls or rollers in one

'■. Angle to the cylinders 1, or in other words, the direction of reaction between the ball 4 and the guide track 3 does not coincide with the axis line of the cylinder (see FIG. 1). As a result, a certain sliding friction will arise between the ball or balls and the side wall of the cylinder.

i. If the piston machine is only driven in one direction or mostly in one direction, as as the drive motor of motor vehicles: bci those in the other direction of rotation the 'j performance is out of the question as the main objective, .then you can to achieve the maximum performance in the normal direction of rotation (Arrange the cylinder at such an angle that the balls hit the working surface of the Guide track, if 'possible at right angles,' act so that the resulting pressure if possible in the axial direction of the cylinder • dcrs is transmitted to the friction between 'ball and side wall of the cylinder and ■ Keeping guides small. .

I ι In Fig. Such an arrangement is provided Sorghum bicolor, in which the cylinders are tangential ■ drilled to the 'extent of the axis of the machine.

! It is essential to keep the balls in contact with the guideway. In a motor ΐ this is easily achieved by the fact that the pressure of the propellant pushes the balls against the guide track when the piston is hung . while the piston retracts, the balls have to push the propellant out of the cylinder. If it is, however, to I a pump, then the other conditions, since during the suction stroke, the balls have a tendency to the guide track as a result of; to leave the external air pressure on the balls. A variety of devices can be used to prevent this.
If rollers are used instead of balls, they can be of the usual shape with a work surface that is arranged in square or rectangular recesses in the cylinder.

The rollers can also be designed differently, e.g. double-conical or oval, whereby the cylinders must be designed accordingly.

Claims (2)

; Patent Claims: V; i. Piston machine with revolving cylinder, characterized in that the in % .-; Pistons arranged in the cylinders consist of ν balls or rollers which, when they are adjusted, move along the guideway along V; can rotate freely. 2. Piston machine according to claim i, characterized in that a plurality of balls or rollers are arranged in each cylinder to increase the stroke length is. For this purpose 2 sheets of drawings