DE2117466A1 - Hydraulic stepper motor - Google Patents

Description

DR-INQ. DIPL.- INO. M. SC. Ol l · I. .- Ph »a. DM. OIPL..PHV5.

HÖGER - LEGAL RIGHT-GRiESSBACH - HAECKER

PATENT LAWYERS IN STUTTGART

. ' 2117A6B

A 38 753 m
a - 134
April 8, 1971

AB ball regulator

S - 661 OO Säffle / Sweden

Hydraulic stepper motor

The invention relates to a hydraulic stepper motor. To a To move or turn a shaft or a lever, it is known to use so-called stepper motors, which are driven by electrical pulses in such a way that they are at each Move the pulse by a predetermined distance or by a predetermined angle of rotation. Electromechanical stepper motors are already Known for many years, however, they have the disadvantage that a complicated additional control arrangement is necessary for their operation is. In addition, the work done by the electric stepper motors is only marginally efficient.

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A 38 753 m
a - 134
April 8, 1971

The object of the invention is to provide a hydraulic stepper motor provide that can be easily driven and easily regulated.

To solve this problem, the invention is based on a hydraulic one Step motor and consists in the fact that a hydraulic cylinder with piston and piston rod is provided that at least one end part of the cylinder with the outlet of a volumetric Fluid pump is connected, which is driven by a solenoid which can be excited by means of electrical pulses, that at the other 'end part of the cylinder one, one of which is magnetic actuatable valve controlled outlet is provided, and that the valve is driven by the liquid pump Current pulses is opened.

The advantage of such an arrangement is that, owing to the peculiarities of the hydraulic drive of this motor, it is easy is a suitable transfer ratio for each individual case to select.

According to an advantageous embodiment of the invention both end parts of the cylinder are equipped with volumetric liquid pumps and exhaust valves, which are magnetically controlled, However, it is of course also possible to use a spring instead of the liquid pump, which acts in such a way that that it moves the piston in one direction, d. h., For example, takes over the return stroke.

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The following structure and mode of operation are based on the figures an embodiment of the invention explained in detail, shows:

1 shows a vertical section through an embodiment of an inventive stepper motor,

Fig. 2 is a circuit diagram for the solenoids used.

In Fig. 1 is a hydraulic cylinder 3 with piston 4 and Piston rod 5 shown. The end parts of the cylinder are connected to lines 6 and 7, each alternating as an inlet and outlet serve. Since the lines 6 and 7 come from mutually identical arrangements, the following will only refer to The structure and mode of operation of one of these arrangements are discussed in more detail.

The line G comes from a vessel 8, which is at the top a block 9 is attached, which is submerged in a liquid in a container 10. The upper V'and of the Vessel 8 v / eist an opening 11 which is controlled by a valve element 12 located outside of the vessel 8 is. The valve element 12 consists of a rod which can be moved in the direction of the opening 11 and away from the opening 11, wherein The rod and the opening are connected to one another due to a conical end part on the rod. The valve stem simultaneously acts as an armature in a solenoid 14 surrounding it and is actuated by a spring 13 in the closing direction of the valve pressed. If the solenoid 14 is energized, then

-A-

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he lifts the valve rod 12 against the action of the spring 13, so that the outlet opening 11 is exposed.

The bottom of the vessel 8 has an opening 16 with a Cavity 15 in block 9 communicates; a flap valve 17 is provided in the vessel 8, which opens the opening 16 releases when an overpressure occurs in the cavity 15. A Connection channel 18 extends obliquely from Ibhlraum 15 down through the block 9 into the lower part of a vertical bore 19 made in the block. The lower end of this Bore 19, which is slightly widened, is from a plate

20 shot, which contains an opening 21 through which the Bore 19 is in communication with the container 10. The opening

21 is also controlled by a flap valve 22 which is arranged in the bore 19 and opens when in the Bore 19 there is a negative pressure.

Furthermore, an elongated rod-shaped piston 23 is inserted into the upper end part of the bore 19. Normally the piston 23 is held in its upper position by a helical spring 24, but under the action of this spring it can be pushed down a short distance so that, as will be explained in more detail below, a pump stroke is obtained. The upper end portion of the piston 23 and the spring 24 are surrounded at a distance by a cylindrical housing 25, soft mounted on the block 9 "The upper end of the housing 25 carries a solenoid 26, which is aligned coaxially with the piston 23 'through the Solenoid 26 extends a heavy armature part 27 and rests with its lower end on the upper

A. 38 753 m
a -134
.8th'. 4th 1971

End part of the piston 23. When the solenoid is energized, then the armature 27 is pulled downwards and moves the piston 23 into the bore 19 against the action of the spring 24 into it. The movement of the anchor 27 and consequently the hat- length of the piston 23 are such that the lower part of the piston never covers the inlet of the passage 18. Ivird the solenoid 26 is de-energized again, then the spring 24 lifts the piston 23 and the armature 27 back into their starting positions.

The arrangement associated with the line 7 is structural Structure exactly the same as the arrangement connected to the line 6, so that consequently the same reference numerals have been used, but with the difference that they are provided with an index mark.

The circuit diagram shown in Figure 2 shows how the four solenoids 26, 14 ', 26' and 14 can be connected to a voltage wave. An alternating voltage of 220 volts is transformed down to a suitable, lower voltage by means of a transformer 28, a half-wave rectifier 30 is connected to the secondary winding 29 of the transformer via a connecting line, and a further connecting line 31 extends from the half-wave rectifier 30 to a Switching arm which can be brought into contact with two contact elements 33 and 34 from an empty position. The one contact element 33 is connected to the left-hand side in Fig. 1 arranged pump solenoid 26, and attached to the right hand valve solenoid 14 ', while the other contact element 36 attached to the right hand Pv.:npen-Sole-

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noid 26 'and rait the valve solenoid on the left hand side connected is. The other terminal of the secondary winding 29 of the transformer is with the remaining terminals on all four solenoids connected. If the circuit is closed via the contact element 33, then the two are parallel to each other lying solenoids 26 and 14 'are excited, while the two solenoids 26' and 14, which are also connected in parallel, then are excited when the circuit is closed via the Kontakteleraent- 34. Since generally the one supplied to the sclenoids Alternating current has a periodicity of 50 Hz, so does every anchor in the. Soienoids 50 strokes, if the assigned Solenoid is energized.

The stepper motor mentioned earlier works in the following way: Should, for example, the piston of the working cylinder3 outwards, d. That is, are moved to the right in the drawing of FIG. 1, then the contact 33 is closed, so that the Solenoidä 26 and 14 'received current pulse ©. This lifts the Solenoid 14 'the valve element 12' so that the liquid, which is located in the space to the right of the piston 4, escape through the line 7, the vessel 8 'and the outlet opening 11' can; The liquid then flows downward from the outlet opening 11 'into the surrounding container 1O. At the same time the presses Armature 27 the pump piston 23 down, so that the valve 22 is closed and liquid from the space 19 via the passage channel 18, the now open valve 17 into the container 8 and from there into the line 6 and into the space on the left side of the Cylinder is driven, so that there a volume of liquid is introduced, which the piston 4 by a small step moved to the right. As soon as after the brief electrical

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see impulse (namely 1/100 sec.) the solenoids 26 and 14 ' are de-energized again, the valve element 12 * is also closed and the spring 24 brings the pump piston 23 and the armature 27 back to their original positions. Due to the Now that the pump piston 23 moves upwards, a negative pressure forms in the space 19, as a result of which the valve 17 is closed and at the same time the valve 22 is opened, which in this way again new liquid into the space 19 from the Container 10 admits.

If the solenoids are de-energized, the piston 4 is blocked in the position set in this way, since both check valves 17 and 17 'as well as the two valves 12 and 12 "controlled by the solenoids are closed.

The cycle just described is repeated with the next current pulse. Thus the piston 4 will move step by step to the right as long as the circuit is closed via the contact 33, in which way it is viccr- Lbh to determine the length of the piston stroke with extremely good accuracy. The movement of the piston 4 to the left is obtained by now closing the circuit via the contact 34, so that the solenoids 26 'and 14 are excited. The switching lever part 32 or some other movable contact element can, if desired, be actuated either manually or automatically by means of suitable control mechanisms.

109B44 / 1177

Claims (1)

2 M7A66 Λ 38 753 πι a - 134 April 8, 1971 Claims Hydraulic stepper motor, characterized in that a hydraulic cylinder (3) with piston (4) and piston rod (5) is provided, that at least one end part of the cylinder (3) with the outlet of a volumetric liquid pump (23, 24; 23 ', 24 ') connected by a solenoid that can be excited by means of electrical pulses {26, 26 ^! ) is driven that at the other end part of the cylinder (3) an outlet controlled by a solenoid / actuatable valve (12/12 ') is provided and that the valve (12' / 12) of the liquid pump (23, 24 ; 23 ', 24') driving current pulses is opened. ! Hydraulic stepping motor according to claim 1, characterized in that each end part of the cylinder (3) is connected to a vessel (8, 8 '), the outlet (11, 11') of which is controlled by the magnetically actuated valve (12, 12 ') that a channel (18, 18 ') connecting the vessel (8, 8') to the pressure side of the liquid pump (23, 24; 23 ', 24') is provided. 8 ') opening check valve (17, 17') is provided and that a storage vessel (10) is provided for the liquid, which is connected ^{to both pumps via check valves (22, 22 1} ^ which open into the pumps. 109844/1177 Blank page