DE2939765A1 - COMPRESSED AIR MOTOR - Google Patents

Description

Pressure! air motor

The invention relates to a compressed air motor with a cylinder housing and a reciprocating piston.

The invention has for its object to propose a short-stroke and small air motor of this type, which together with the required reversing valve is designed simply and compactly.

This object is achieved in that in one Compressed air motor of the type mentioned is coaxial with the piston Rotary disk valve is provided, the rotatable valve disk is rotatably connected to a wing that is connected to the non-rotatably guided piston rod forms a butt screw arrangement. Under a butt screw assembly in the broadest sense is to understand a non-self-locking thread, which converts the stroke movement of the piston rod into a rotary movement of the wing, from which, in turn, with the help of the aforementioned torsionally elastic connection, which acts as a torque storage device, a jerky rotary movement the valve disc is derived. An advantageous butt-screw arrangement is, for example, that in the control section of the piston rod screw-shaped grooves are milled and the wing contains radial guide pins, the inner ends engage in the grooves.

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In a further development of the invention, it is proposed that the piston rod be firmly connected to the diaphragm of a diaphragm pump and solely thereby guided non-rotatably. This solution is particularly advantageous if the membrane has a substantially larger diameter than the piston because in these proportions stiff diaphragm is enough to withstand to the way of the piston rod exerted on actuation of the turntable valve torsional stress to.

The rotary disk valve is expediently in a cylinder housing that extends at the rear and has a compressed air connection connected pressure chamber arranged into which a rear control portion of the piston rod protrudes.

The rotary disk valve can consist of a valve disk fastened to an end wall of the pressure chamber and one between two There are angle stops rotatable and lockable in the end positions valve disc. At this time, the arrangement becomes preferable made so that the connecting channels to the cylinder chambers to which compressed air is to be applied alternately and the exhaust air channel the fixed valve disc open through the pressure chamber. The rotatable valve disc has with these Mouths interacting recesses and passages. she is pressed onto the stationary valve disc by the supply air pressure in the pressure chamber.

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A particularly space-saving, simple and reliable torsionally flexible one According to a further proposal, connection can be achieved in that the rotatable valve disc is in the shape of a cylinder jacket Has edge and spiral springs are provided within this edge, which cling to the edge in the circumferential direction and are supported at one end on the wing and at the other end on catches projecting inward from the edge. After all it is advantageous to attach small depressions as a latching arrangement for the rotatable valve disc on the outer surface of the edge and to push balls open radially from the outside using springs. Included the spring pressure can be easily adjusted from the outside using an adjusting screw.

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An embodiment of the invention is based on the following the drawing explained in more detail. Tm individual shows

Fig. 1 shows an axial section II of a compressed air motor and a

attached and driven by this diaphragm pump, Fig. 2 a cross section II-II of the unit according to Fig. 1 and Fig. 3 an angled axial section III-III of this unit.

In the drawings, which show the structural unit approximately twice its natural size, is the upper part of the diaphragm pump with 1 and its lower part with 2. With the help of screws 3 there is a membrane 4 between these parts trapped. The space above the membrane 4 has two ventilation openings 1a. Between the lower part 2 and one from below this screwed-on intake port 5 is clamped in a flexible film 6. This has two arched cutouts and tongues exposed in this way, which rest from the inside on bores 7 in the intake manifold and act as flap intake valves works. Furthermore, an outlet port 8 is radially screwed into the lower part 2, which contains a ball valve.

A cylinder housing 9 is placed on the upper part 1 and secured together with a cover 10 by means of two screws 11.

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screwed. The cylinder housing 9 has a transverse wall and forms between this and the upper part 1 a space in which a piston 12 can move up and down. The piston rod is two-sided. A lower section 13 extends through the upper part 1 and is firmly connected to the membrane 4. The upper so-called Control section 14 penetrates the transverse wall and protrudes into the adjoining pressure chamber 15 closed off by cover 10 into it. The cover contains a compressed air connection 16.

In the chamber 15 there is a valve disc 17 which the Control section 14 of the piston rod concentrically surrounds and fastened to the transverse wall of the cylinder housing 9 by means of a countersunk screw 18 is. A valve disk in the form of an annular disk with an L-shaped cross section lies on the valve disk 17. she is in the valve housing 9 fitted easily rotatable and has play towards the cover. The flat surfaces of the valve disks lying on top of one another 17 and 19 are sanded. A stop pin 20 (FIG. D / which is inserted into the fixed valve disk 17) and this protrudes upwards, engages in a recess 21 on the underside of the valve disc 19 and limits its angle of rotation to about 20 °.

From Figure 2 is the locking device for this rotatable valve disc 19 recognizable. The cylinder housing 9, which is square in outer outline, has at two opposite corners in Height of the chamber 15 two housing projections 22 on. In this

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Housing approaches 22 are each provided with a screwdriver slot and screwed in with a nut 23 countered adjusting screws 24. On these compression springs 25 are supported, each press a locking ball 26 against the outer surface of the cylindrical edge of the valve disk 19. Small detent recesses 27 in the The locking balls 26 take on the outer surface mentioned.

The rotatable valve disk 19 is driven by means of a double wing 28 which is rotatably mounted on the control section 14 is and includes two radial guide pins 29, which with their inner ends protrude into a helical groove 30 of the control section 14. To this in particular from Fig.2 The apparent arrangement also includes two wedge-shaped drivers 31, which by means of cylindrical lugs on two diametrically opposite points are inserted from the inside into the edge of the valve disk 19. Between these drivers 31 and the arms of the double wing 28 that are adjacent in the circumferential direction two helical springs 32 and 33 each are clamped in, which cling to the curvature of the cylindrical edge of the valve disk 19 and secured against slipping off the double wing 28 and the drivers by a hemispherical lug 34 on each of these parts are. All four helical springs 32 and 33 mentioned are the same.

To understand how the rotary disk valve works, it should be noted that the cylinder housing 9 contains three channels are that through holes in the fixed valve disc 17

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are continued and open into the chamber 15, these holes lying on the same arc. Regardless of the exact angular position of these channels and mouths, which is not specifically shown, are indicated in the drawing Exhaust port 35, a * from the lower cylinder chamber Connection channel 36 (Fig.1) and one of the upper cylinder chamber outgoing connection channel 37. The flat part of the valve disc 19 has a two mouths on the underside Recess 38 and two passage openings, not shown.

The air motor described works as follows. In the drawn Position is the piston in its upper end position and the valve position is such that via the compressed air connection 16, the chamber 15, one of the holes in the rotatable valve disc 19 and the connecting channel 37 of the pistons is acted upon at its top with compressed air, while the chamber at its bottom via the connecting channel 36, the Recess 38 and the outlet channel 35 is connected to the outside atmosphere. The piston 12 thus moves downwards. Included the double vane 28 follows the twist of the groove 30 in the control section 14 of the piston rod and rotates according to FIG to the right. (In Fig. 1, the groove 30 should only be made visible. Its course does not correspond to reality). So relax the helical springs 33 and the helical springs 32 are combined

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- OK -

pressed .. Shortly before the piston \ 2 reaches its lower end position, the clockwise torque on the rotatable valve disc 19 is so strong that it is released from its latching and suddenly rotates into its other position, whereby the control channels are switched so that the Piston 12 moves up again.

It should be pointed out that in the case of the structural unit described, the diaphragm pump for the function of the compressed air motor is insofar is of essential importance as the membrane 4 prevents rotation of the piston rod. This is guaranteed because in the present case the membrane is stable enough in relation to the effective spring forces. In other applications The air motor needs a special one, the turning of the piston rod preventing longitudinal guidance be provided.

The structural unit shown is preferably used for conveying of liquid media from a transport container into a pipeline system from which it is taken irregularly. For use in commercial paint spraying systems, for example, a standpipe can be attached to the intake port 5 be, which is inserted into a paint barrel. The diaphragm pump then supplies a ring line system for several paint spray guns each with its own high-pressure pumps. Are the spray

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pistols out of operation, the diaphragm pump stops. As soon as a spray gun is activated and paint comes out of the ring main is removed, which sinks animal pressure, the pump starts up automatically and delivers the corresponding amount.

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Claims (7)

PATENT ADVERTISER DlFL-ING, EBERHARD EISELE 798 Ravensburg · GoetheplaU 7 ■ Tülofon (0751) 21400 Note: Ing.Erich Roscr Claims 1. Compressed air motor with a cylinder housing and a reciprocating piston, characterized in that a rotary disk valve (17, 19) coaxial with the piston (12) is provided, its rotatable valve disc (19) with a wing (28) is rotatably connected to the non-rotatably guided piston rod forms a butt screw assembly. 2. Compressed air motor according to claim 1, characterized in that that the rotary disk valve (17, 19) in a cylinder housing (9) extending at the rear, with a compressed air connection (16) connected pressure chamber (15) is arranged, into which a rear control section (14) of the piston rod protrudes. 3. Compressed air motor according to claim 2, characterized in that that the rotary disk valve consists of a pressure duct on one end wall attached valve disc (17) and one between two angle stops (20) rotatable and latched in the end positions Valve disc (19) consists, the connecting channels (36,37) to the cylinder chambers and the exhaust air channel (35) being the fixed The valve disc (17) open through the pressure chamber (15) and the rotatable valve disc interacts with these orifices Has recesses (38) and passages. 130016/0273 ORIGINAL INSPECTED 4. Compressed air motor according to claim 3, characterized in that that the rotatable valve disc (19) has a cylinder jacket-shaped Edge and the torsionally elastic connection of helical springs (32,33) nestled in the circumferential direction of this edge exists, which are supported at one end on the wing (28) and at the other end on drivers (31) projecting inward from the edge. 5. Compressed air motor according to claim 1, characterized that the push screw assembly has helical grooves (30) in the control section (14) of the piston rod and in the wing (28) introduced, engaging with the inner ends in the grooves comprises radial guide pins (29). 6. Compressed air motor according to claim 3, characterized in that that a spring pressure adjustable (24) locking arrangement with radially from the outside onto the edge of the rotatable valve disc pressing balls (26) is provided. 7. Compressed air motor according to one of the preceding claims, that the piston rod (13, 14) is firmly connected to the diaphragm (4) of a diaphragm pump and is guided so that it cannot rotate. 130016/0273