DE19637051A1 - Hydraulic drive - Google Patents

Description

The invention relates to a hydraulic drive according to the preamble of claim ches 1.

Such a drive has become known from EP 0 158 054 B1. This drive has a working piston with a piston rod molded onto it, which with a High-voltage circuit breaker is connected and the on or off. The Working piston or the working piston-cylinder arrangement is supplied with pressure fluid, which is provided by a pressure accumulator, which has a pressure piston and a Includes pressure cylinder, both of which concentrically surround the piston rod. To generate supply of the pressure fluid acts on the pressure piston also the working piston con Centrally surrounding disc spring arrangement, which is approximately in the middle of the working col ben cylinder arrangement on the outside of the cylinder body on the one hand and against on the other hand supports a thrust piece, which is connected to the pressure piston via tie rods connected is. The tie rods reach through the cylinder body, creating a total together with high effort also regarding sealing is required.

The object of the invention is to provide a hydraulic drive of the type mentioned to create, which is simplified compared to the known hydraulic drive.  

This object is achieved by the characterizing features of the Claim 1.

Thereafter, the pressure piston is surrounding the working piston-cylinder arrangement Annular piston which slides in an annular space actuated by the spring arrangement, wherein in the annulus section that is opposite to that of the spring assembly Side of the ring piston, the pressure fluid is present.

An advantageous embodiment can go that the pressure piston cylinder order between the spring assembly and the switch end of the Zylin the body is located. Switch-side end here means the end from which the protrudes the switch or possibly another device actuating piston rod. This arrangement results in a very space-saving design.

An annular space is provided to form the pressure piston-cylinder arrangement NEN through the outer surface of the cylinder body and outside through the inner surface of a Outer cylinder formed and open to the spring arrangement and close to the switch End of the cylinder body through a radially inwardly projecting bottom ge is closed. This floor lies sealed against the outer surface of the cylinder body on or includes this.

According to a further embodiment of the invention, the fixed end of the spring arrangement fixed at the switch-side end of the cylinder body; between that whose, freely movable end of the spring assembly and the pressure piston cylinder order a pressure piece is provided, which on the outer surface of the cylinder body sealed and slides and the spring force of the spring assembly on the pressure piston transmits.

The relaxation movement of the spring arrangement is towards the high voltage switch directed.

Further advantageous embodiments of the invention are the further subclaims Chen to take.

Using the drawing, in which an embodiment of the invention is shown, the invention and further advantageous refinements and improvements and further advantages of the invention are explained and described in more detail.

It shows the only Fig. An arrangement of the hydraulic drive in two Variants, the one variant with a stronger energy storage on the left the center line and those with a smaller energy store or weaker Energy storage is drawn to the right of the center line.

The hydraulic drive 10 has a cylinder body 11 which contains a working cylinder space 12 in which a working piston 13 slides. A piston rod 14 , which cooperates with a high-voltage switch 15 , is formed on the working piston 13 on its upper side in the drawing. High voltage also includes the voltage range referred to as the medium voltage range greater than 1 kV.

The cylinder body 11 is cylindrical and surrounded by a Federanord voltage 16 or 17 ; the spring assembly 16 , which consists of more disc springs than the spring assembly 17 , is laid out for a higher pressure level or for other switching sequences.

At the switch-side end of the cylinder body 11 , a groove 18 is introduced, into which, in the embodiment on the left of the center line, a split, in cross-section L-shaped force transmission body 19 with an inwardly radially projecting flange edge 20 is inserted; the force transmission body 19 is surrounded by a holding pot 21 , this holding pot 21 having an inner flange edge 22 which jumps radially inwards and partially overlaps the force transmission body 19 , and an outer flange edge 23 at its switch-side end against which one end of the plate spring arrangement is located 16 creates. This is the fixed end of the diaphragm spring arrangement. In the embodiment on the right of the center line MM, the force transmission body 19 is inserted in a groove 24 which is at a greater distance from the end of the cylinder body 11 on the switch side than the groove 20 ; the power transmission body 19 is surrounded by a cross-sectionally Z-shaped holding pot 25 , against the radia len outer flange edge 26 of which the spring arrangement 17 rests with its fixed end.

The difference between the holding pot 21 and the holding pot 25 is only that the axial extent of the holding pot 21 is significantly larger than that of the holding pot fes 25th

The switch 15 facing the end of both the spring assembly 16 and the spring assembly 17 bears against a pressure body 27 which, with the interposition of a seal 28, includes the cylinder body 11 on the outside. From the Tellerfederan arrangement 16 and 17 seen beyond the pressure ring, an outer cylinder 29 is arranged at a distance from the cylinder body 11 , the inner surface 30 of which forms an annular space 31 with the outer surface of the cylinder body 11 . Against the pressure body 27 , the end of the outer cylinder facing away from the switch rests and the end of the outer cylinder 29 near the switch forms a type of bottom 32 which rests directly against the outer surface of the cylinder body 11 .

To fix the outer cylinder 29 in relation to the cylinder body 11 , a retaining ring 33 is provided which projects into both the cylinder body 11 and the outer cylinder 29 . An annular cover 34 , which is fastened by means of screw connections 35 to the switch-side end face of the cylinder body 11 , serves as a connecting element for channels or bores (without reference numerals) running inside the cylinder body 11 , via which pressure fluid is conveyed at low pressure into a low-pressure fluid collecting space .

Between the pressure piece 27 and the bottom 32 within the annular space 31 there is an annular pressure piston 36 , the mode of operation of which is explained in more detail below.

Inside the working cylinder 12 at the switch-side end of the cylinder body 11 , a sealing bush 37 is inserted, which is penetrated by the piston rod 14 and which is held on the cylinder body 11 by means of an end cover 38 . The piston rod 14 also extends through the end cover 38 .

Within the cylinder body 11 and outside of the working cylinder 12 are axially extending bores 39 and radially extending bores 40 are provided, which with one another or with the connections 41 with a switch valve, not shown, by means of radially extending bores 42 with the working cylinder 12 and by means of wide radial bores 43 are connected to a device 44 referred to as a low pressure and pump unit. The low pressure room mentioned above is part of the low pressure and pump unit.

The special mode of operation of the device 44 and the connection of the individual bores 39 to 43 is not of particular importance for the invention; through these bores, the pressure fluid to the working piston 13 is supplied and the working piston 13 relieves in a suitable form, for example, see EP 0158054 B1.

The following is important: by means of the pump low-pressure drinking device, the area of the annular space 31 facing the switch, controlled by the changeover valve, is filled with pressurized fluid, so that the annular piston 36 is driven out of the outer cylinder 29 in the direction of the arrow P, whereby the spring arrangement 16 or 17 compresses and thus stores energy in the spring arrangement 16 or 17 serving as an energy store. The spring arrangement 16 or 17 would essentially be compressed onto a block and the annular piston 36 would be pushed out of its annular space 31 , seals 45 present in the annular space from the switch-side end of the annular piston 36 not being allowed to overflow. At least the seals 46 located on the outside in the area of the annular piston 36 near the switch must still remain inside the outer cylinder 29 . Since due to internal controls the space below and above the working piston 13 is also provided with pressurized fluid ver, the working piston 13 is pressed upward, so that the piston rod 14 moves out of the cover 38 and the switch 15 thereby closes. This is the case because the space below the working piston 13 , which is opposite the piston rod 14 , has a larger area than the space in which the piston rod connects to the working piston 13 .

If the switch 15 is to be turned off, then the space below the working piston 13 , that is, the space with the larger piston area, is relieved by the pressure fluid located there, which is supplied to the low-pressure space in a manner not shown, which causes the changeover valve, not shown becomes.

The transition between the working piston 13 and the piston rod 14 has an area 47 with a larger diameter; this area 47 is a Dämpfungseinrich device 48 assigned; if the area 47 enters the damping ring 48 during the switch-on process, the switch-on movement is damped. On the kolbenstangenabseiti gene side of the working piston 13 , a pin-like extension 49 is provided which retracts into a damping ring 50 during the switching-off process and thereby brakes the end region of the switching-off movement.

The particular advantage of the configuration according to the invention is that the referred to as the pressure chamber switch-side section of the annular space in immediate close proximity to the pump low-pressure tank device and thus to the working piston or the working piston-cylinder arrangement, so that the flow resistance, which has to be overcome when switching on and off is considerably reduced.

With the design according to the invention, all those parts that carry forces over, that are the plate spring assemblies 6 and 17 , the pressure ring 27 , the pressure ring piston 36 , the retaining ring 33 and the cylinder body 11 are arranged concentrically to one another, the individual components of the cylinder body 11 include. For this reason, forces that run transversely to the longitudinal axis of the cylinder body are avoided and overall, the arrangement results in a compact design. It is also important that the pressure chamber 31 , in which the pressure fluid is located, is arranged very close to the working cylinder chamber 12 .

As a side note, a closing element 51 with a blind hole 52 is inserted into the working cylinder space 12 on the switch-side end of the cylinder body 11 , in which the pin 49 engages when the switch is off; From the closing element 51 is held by means of a cover 53 .

The invention is based on a hydraulic drive for a high-voltage line switch described. Of course there is also the option instead of such a high-voltage circuit breaker to drive any other device, in which tasks similar to those of a high-voltage circuit breaker are solved have to.

Claims (7)

1. Hydraulic drive with a working piston-cylinder arrangement, of which the working piston ( 13 ) via a piston rod ( 14 ) drives an actuator, preferably a high-voltage circuit breaker, with a pressure piston-cylinder arrangement ( 29 , 36 ), with which to control the Working piston-cylinder arrangement ( 13 , 11 , 12 ) pressure fluid is provided, and with a spring storage arrangement ( 16 , 17 ), the storage energy of which is transmitted to the pressure piston-cylinder arrangement ( 29 , 36 ), the spring arrangement concentrically concentrating the working piston-cylinder arrangement ( 13 , 12 , 11 ), characterized in that the pressure piston ( 36 ) is a Zylin derkörper ( 11 ) of the working piston-cylinder arrangement surrounding annular piston which is actuated in an annular space ( 31 ) by the spring arrangement ( 16 , 17 ), wherein in the annular space section, which is located on the side of the annular piston ( 36 ) opposite the spring arrangement ( 16 , 17 ), the pressure area uid pending. 2. Hydraulic drive according to claim 1, characterized in that the pressure piston-cylinder arrangement ( 36 , 29 ) is located between the spring arrangement ( 16 , 17 ) and the actuator-side, preferably switch-side end of the cylinder body ( 11 ). 3. Hydraulic drive according to claim 2, characterized in that the annular space ( 31 ) of the pressure piston-cylinder arrangement ( 36 , 29 ) formed internally by the outer surface of the cylinder body ( 11 ) and externally by the inner surface of an outer cylinder ( 29 ) and for the spring arrangement open and to the actuating device side, preferably the switch-near end of the cylinder body ( 11 ) is closed by a radially inwardly projecting bottom ( 32 ) which seals against the outer surface of the cylinder body ( 11 ) or embraces it. 4. Hydraulic drive according to one of the preceding claims, characterized in that the fixed end of the spring arrangement ( 16 , 17 ) on the actuation device-side, preferably switch-side end of the cylinder body ( 12 ) is fixed and that between the other, freely movable end of the spring arrangement voltage (16,17) and the pressure piston-cylinder arrangement (36, 29) a pressure piece (27) is provided which slides sealed on the outer surface of the cylinder body (11) and the spring force of the spring arrangement (16, 17) on the pressure piston (36 ) carries over. 5. Hydraulic drive according to one of the preceding claims, characterized in that the relaxation movement of the spring arrangement ( 16 , 17 ) in Rich direction to the actuating device, preferably to the high-voltage switch ( 15 ), is directed GE. 6. Hydraulic drive according to one of the preceding claims, characterized in that a pump low-pressure drinking device ( 44 ) radially on one side of the cylinder body ( 11 ) in the region of the pressure piston ( 36 ) and on the distal opposite side is provided a changeover valve. 7. Hydraulic drive according to one of the preceding claims, characterized in that the cylinder body is a deep-drawing or forging material in which the working cylinder ( 12 ) and the bores ( 39 ) to 43 ) for the pressure fluid lines by mechanical processing (drilling) are.