CS245051B1 - Three-position cylinder for remote control of gears - Google Patents

Abstract

The cylinder body (2) has a stepped cross section where it is stored in the smaller diameter section fixed piston (3) fixed to piston rod (1) a in the larger diameter section, the sliding piston (4) which slides on the piston rod to form a stop for piston (3). It is in the housing for the sliding piston (4) (1) a stop (12) is provided for the cylinder.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a three-cylinder cylinder for the remote control of gears, with precise central positioning.

Three-pile rolls are known in which the intermediate positions are reached by a compression spring. In addition, three-position cylinders operating with two sliding pistons are used, with stops on the piston rod in the dark which result in an increase in the length of the cylinder. The cylinders are known working cylinders without internal stop surfaces and without rings forming stops for the piston; in these working cylinders, the center position ^{1 is} adjusted by applying pressure to the upper active surface of the auxiliary piston whose shaft is supported against the body bottom, and. because of the ratio of the different cross-sectional areas, the main piston is pressed against the auxiliary piston; it is permanently under pressure from the lower active side. In this construction it is disadvantageous as well. in the case of previous rollers, their production is very demanding. Thus, in the known three-position cylinders, more than the wild pistons and the various rings are used as stops within the cylinder, and these solutions then need more construction space.

The present invention overcomes these drawbacks and its object is a three-position cylinder for the remote control of gears, with precise positioning by means of a sliding piston and a fixed piston connected to the piston rod, in particular for motor vehicles.

The principle of the invention is that the cylinder body has a stepped cross-section and a sliding piston is displaceably mounted in the larger diameter section and a fixed piston fixed to the piston rod in the smaller diameter part, the sliding piston forming a stop surface for the fixed piston and cylinder body. is provided with a stop for the sliding piston. The sliding piston secures the center position of the fixed piston by its larger active surface and at the same time forms a stop for the fixed piston, so that in all three positions of the fixed piston the force required is applied to the piston rod.

Claims (3)

A three-position cylinder for the remote control of gears, even with precise adjustment of the center position by means of a sliding piston and a fixed piston ¹ connected to a piston rod, in particular for motor vehicles, characterized in that the body (2). cylinder, has a stepped cross section and in the larger diameter part is sliding u- ² BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a cross-sectional view of a three-position cylinder with a sliding piston for extending the piston rod and FIG. 2 shows a section through a three-position cylinder with a sliding piston on a continuous piston rod. According to FIG. 1, the piston rod 1 is guided in the cylinder body 2 and is fixedly connected to a fixed piston. 3. The sliding piston 4, which slides on the extension 5 of the piston rod 1 or according to FIG. To set the fixed piston 3 to the right end position, a pressurized medium is supplied through the bore G, so that the mandatory piston 3 with the piston 1 and the sliding piston 4 slides to the right position up to the stop 7 of the cover 8. On the other hand, the pressurized medium is supplied by the lift 9, the fixed piston 3 and the piston rod 1 slide to the left end position up to the stop 10 of the cylinder body 2, and the sliding piston 4 slides to the extension 5 of the piston rod 1 to the stop 7 without affecting the fixed piston 3. . In order to set the fixed piston 3 at the middle position, the pressure medium is supplied to the bores 6, 11 a, the sliding piston 4 is pushed to the stop 12 of the cylinder body 2. In this case, the fixed piston 3 slides with the piston rod 1 until the sliding piston 4 reaches its stop surface 13. Since the sliding piston 4 has a larger working surface, the center position of the fixed piston 3 is precisely fixed. The three-position cylinder according to FIG. 2 operates on the same functional principle as the cylinder of FIG. 1. The right position of the fixed piston 3 is achieved by supplying pressure medium through the bore 14 until the fixed piston 3 hits the stop 15 of the housing 8. In the leftmost position, the pressure medium is supplied through the bore 16 until the fixed piston 3 hits the stop 17 of the body 18. The center position of the fixed piston 3 is adjusted by supplying the pressure medium through the bores 16, 19. The sliding piston (4) and, in the smaller diameter part, a fixed piston (3) mounted on the piston rod [1j], the sliding piston (4) forming a stop surface (13) for the fixed piston (3) and the cylinder body (2j) provided with a stop (12) for sliding piston (4).