DE2056936A1 - Hydraulic servo motor with compressed air motor - Google Patents

Description

concerning
Hydraulic servo motor with compressed air motor

(Priority: November 21, 1969, P-137O3O, Poland)

The invention relates to a hydraulic servo motor with a compressed air motor for driving an integrated hydraulic one Piston pump that delivers liquid to the working chamber of a plunger cylinder.

There is already a construction of a hydraulic servo motor with a compressed air motor, especially for hydraulic lifting devices, which, however, has the disadvantage that it makes the construction of servo motors of small or miniaturized dimensions * complicated or even impossible. This is back- ™ supply that a compressed air line is arranged in the axis of the air motor and the hydraulic pump connected to it is at the same time as the supply of compressed air to the upper Space of the plunger as well as for controlling a hydraulic rotary valve serves, this valve is located in the hydraulic line, which is slidable in the opening in a selected Bottom of the plunger is added. There are several seats on the central compressed air line mentioned above for non-contact, pneumatic and hydraulic seals, which complicates the construction and which to apply Materials higher requirements are made.

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The main disadvantage of this design, however, is that the use of hydraulic pump pistons of a diameter below 12 to 15 mm is impossible; thus the design mentioned cannot be used to build small motors for high pressures 300 to 600 kg / cm can be used where the diameter of the hydraulic piston is of the order of 4 to 8 mm.

The previous construction of hydraulic servo motors with compressed air motor also has the disadvantage that it allows operation of the servomotor only in a vertical position, since the The level of the hydraulic medium in the plunger is free; for normal operation of the servomotor, however, is a constant and perpendicular Position of the level of the hydraulic medium with respect to the plunger is required.

The purpose of the invention is to eliminate the drawbacks discussed above and hydraulic servo motors with air motors to create larger diameter ranges for the hydraulic piston, starting with an order of magnitude of 2 to 3 mm, are possible and at the same time an unchangeable position of the level of the hydraulic medium with respect to the plunger is ensured.

To solve this problem, according to the invention, the line that supplies compressed air to the upper space of the hollow plunger, in which the Side wall surrounding recess arranged in which the piston of the hydraulic pump moves.

At the same time, the hydraulic rotary valve arranged in the pump axis is replaced by a needle valve and transversely in the bottom of the Housed cutting device that separates the air motor from the space of the plunger cylinder.

For this purpose, an elongated opening is made in the side wall surrounding the recess, through which the hydraulic medium is fed Hydraulic needle valve opening flows.

In order to achieve an unchangeable position of the level of the hydraulic medium in relation to the plunger, the hydraulic

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ORIGINAL INSPECTED

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Medium separated from the compressed air by a separating device in the form of a piston, which is sealed and slidable to the inner Surface of the plunger and the outer surface of the compressed air line is adapted.

A hydraulic servo motor with a compressed air motor built in this way is not for lifting devices, but also for various pulling devices, Press-in and spreading devices, riveting machines and workshop presses of the smallest dimensions, among others, can be used.

The light little hydraulic servomotors with air motors replace expensive hydraulic units driven by electric motors, hydraulic high-pressure lines and hyf hydraulic servomotors as executive bodies.

The use of hydraulic servomotors with compressed air motors instead of the previous ones driven by hydraulic units hydraulic servo motors bring about a considerable reduction in system and operating costs.

The object of the invention is shown in a preferred embodiment in the drawing, in which

1 shows a longitudinal half-section of the hydraulic servo motor with compressed air motor and M.

Fig. 2 is a cross-section along the line A-A of Fig.

shows through outlet valves for the hydraulic medium.

The servomotor consists of a housing 21, inside which a Hollow plunger 20 is arranged. In its lower part, the plunger 20 has a flange insert 28 which is supported by an adjusting ring 29 is.

In the opening of the flange insert 28, an elongated part of a cutting device 27 is slidably arranged, which is provided with an inlet and an outlet valve for the hydraulic medium. The inlet valve comprises a ball 13 _f, a mandrel 14 and a spring 15, and the outlet valve contains steel balls 17 which are held by a spring ...,., /. ., ._ J 098 25/1? «7 '

ORIGINAL INSPECTED

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The inlet valve blocks a space 12 connected to a space 11 from a cylinder space 16, while the outlet valve a space 19 under the plunger 20 closes off from the cylinder space 16.

In the bottom of the cutting device 27 there is a hydraulic one Piston 22 which has a cavity with a bottom 36. In the cylinder opening, in which the piston 22 moves, there is an annular groove 34 which is connected to a bore 25. The piston 22 is driven in the working direction by the piston of a compressed air motor 2 which is arranged in a cylinder 5. The cylinder 5 has a line groove 6 on its outer surface, which has a bore 4 in the cylinder base with an opening 3 leading to the feed line 1 of the motor leads, is connected.

In the upper part of the cylinder of the engine 5, the line groove 6 is means a line 7 and a pipe 8 connected to an upper space 9 of the plunger 20, in which a pneumatic-hydraulic piston is housed.

On the outer surface of the plunger 20 there is a circumferential groove, in which a sealing ring 33 is arranged. The plunger has two different diameters 32 and 31, the one between these diameters The annular space 37 contained therein is connected to a compressed air line which feeds the motor via an opening 30 in the housing 21.

The hydraulic space 11 of the plunger 20 is via a line 26 which Bore 25 and a line 24 connected to the high pressure chamber 19 under the plunger. The room 11 can be blocked off from the room 19 be separated by means of a needle 23 between the bore 25 and the line 24. The annular groove 34 in the opening of the cutting device 27 is connected to the hydraulic space 11 of the plunger 10 via the bore 25 and the line 26.

As shown in Fig. 1, the line 1 supplied compressed air to the air motor 2 and at the same time through the opening 3 in the line 1 to the bore 4 in the bottom of the cylinder 5 of the motor 2, of there through the groove 6 to the line 7 and further through the pipe 8 to the space 9 above the pneumatic-hydraulic piston 10.

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Taking into account the initially low air pressure inside of the servomotor, the motor 2 is not yet working; on the other hand, the pneumatic-hydraulic piston 10 presses on the piston located in the space 11 Hydraulic medium, which thereby deflects the ball 13 supported by the mandrel 14 and the spring 15 in the space 12 and into the Room 16 arrives. The hydraulic medium pushes through from the space 16 Bores 35 on the balls 17 'supported by the spring 18 enter the space 19 under the plunger 20 and push it out the housing 21 addition.

As soon as the plunger 20 encounters resistance, the pressure of the compressed air rises and the motor 2 is set in motion. The piston of the Motor 2 presses on piston 22, presses it into space 16 and causes high pressure therein. As a result, the hydraulic medium penetrates in the same way as before to the space 19 and sets the plunger 20 under load in working movement.

The process described above runs cyclically in the rhythm of the

Work of the compressed air motor 2 and pumps the hydraulic medium from Space 11 to space 19 under the plunger 20. At the moment when the supply of compressed air to line 1 is interrupted, the motor stops 2 on. The working movement of the plunger also stops. Consequently

the connection of the line with the environment causes the pneumatic overpressure inside the servomotor to drop. The in Compressed air contained in space 37 acts continuously in a rearward direction on the plunger.

If the needle 23 is now withdrawn, the spaces 11 and connected, and thus the hydraulic medium begins from space 19 through line 24, bore 25 and line 26 to space 11 stream. As a result, the plunger 20 pushes itself into the housing 21 and finally assumes the extreme starting position.

In order to guide the plunger 20 along the extended part of the Making the cutting device 27 independent of the guidance of the plunger in the opening of the housing 21 at the lower end of the plunger, the transversely displaceable insert 28, which is supported by the adjusting ring 29, was used.

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Claims (1)

Claims 1./hydraulic servo motor with compressed air motor, consisting of a housing, - in the lower end of which the compressed air drive motor is arranged, and a hollow plunger, which extends the Part of a cutting device, characterized in that a hydraulic low-pressure chamber (11) inside the hollow plunger (20) with a hydraulic high-pressure chamber (19) below the plunger above a longitudinal opening (26) in a wall which encloses a cylinder space (16) receiving a hydraulic piston (22), as well as is connected via further openings (25,24). 2. Motor according to claim 1 ,. characterized in that in the wall surrounding the cylinder space (16) a Longitudinal opening (7) is arranged, which is connected to an upper space (9) of the plunger (20) via a line (8) which forms an axial extension of the cutting device (27). 3. Motor according to claim 1 or 2, characterized in that that a line (6) is arranged in the wall or on the outside of the cylinder (5) of the compressed air motor (2), which is connected to the feed line (1) via an opening (3) and a transverse opening (4) in the cylinder base of the compressed air motor is. 4. Motor according to claim 2 or 3, characterized in that that the upper space (9) of the plunger (20) from the hydraulic low-pressure space (11) in the plunger by means of one of the line (8) penetrated sliding piston or another cutting device is separated. 5. Motor according to one of claims 1 to 4, characterized in that that in the wall surrounding the cylinder space (16) there are arranged transverse openings (35), from the side of the high pressure chamber (19) by one 1 0 9 ö 2 S / 1? 8 7 2 O ^ Γ: η 3 π Spring element (18) held balls (17) or other rotating elements are locked. 5. Motor according to one of claims 1 to 5, characterized in that an opening (12) _? which leads to the hydraulic low-pressure chamber (11), is separated from the cylinder chamber (16) by a ball (13) or some other rotary element that directly or indirectly acts on a spring ( 15) supports. 7. Motor according to one of claims 1 to 6, characterized in that that in the lower bottom of the plunger (20), which separates the space (11) from the space (19), regardless of the plunger f a flange element (28) is arranged which, with its opening, encloses a longitudinal section of the cutting device (27) and is supported by a ring (29). 8. Motor according to claim 6 or 7, characterized in that that the hydraulic piston (22) has a recess on which The bottom (36) is supported by the spring (15), which in turn carries the ball (13) or the rotating element via a mandrel (14). 9. Motor according to one of claims 1 to 8, characterized in that a circumferential groove (34) ä is arranged on the cylindrical surface which encloses the hydraulic piston (22), which via the openings (25,26) with the hydraulic Low pressure chamber (11) is connected. 10. Motor according to one of the claims 1 to 9, characterized in that the plunger (20) has two different diameters (31) and (32) which are adapted to the corresponding diameter of the housing (21), the difference being the Diameter formed space (37) with a feeding the motor Compressed air line is connected. OfHGWAt INSPECTED 1 0 9 8 ? S / 1? 8 7 Blank page