DE3616696A1 - Electrohydraulic switching device - Google Patents

Abstract

An electrohydraulic switching device is proposed for emitting electrical control signals as a function of pressure signals which are supplied, with a housing in which a piston (which can be acted on by the input pressure) is arranged such that it can be displaced axially, which piston is loaded against the input pressure by means of a compression spring which is supported on a spring plate which is connected in a positively-locking manner to the piston, and a switch is provided which is arranged coaxially with respect to the piston and switches over suddenly, which has at least one contact pair, a switch housing, a snap-action switching mechanism and an operating element which causes the sudden switching-over of the switch as a result of the change in its geometrical position with respect to the switch housing. In order to specify a switch device which is structurally simple, can be produced cost-effectively, can be adjusted easily and operates reliably, the invention provides that the snap-action switching mechanism is formed by an operating plate 22, which is prestressed in the axial direction, and a lock 18, which holds the operating plate 22 in position, can be operated by the operating element 9 and interacts with a fixed-position part 21 on the switch housing 20. <IMAGE>

Description

The invention relates to an electrohydraulic switch device for outputting electrical control signals in Ab dependence of supplied pressure signals, with a Ge housing in which a Kol ben is arranged axially displaceable against the one gear pressure through a shape with the piston compression spring that supports the spring plate is spring-loaded, and a coaxial to the piston ordered switch provided with sudden changeover is, with at least one contact pair, a switch set housing, a snap switch mechanism and an actuator member due to the change in its geometric Location opposite the switch housing the sudden order circuit of the switch causes.

Such electro-hydraulic switching devices are e.g. B. from earlier applications P 35 42 603.9, and P 36 05 388.0 of the applicant is known. As electrical Control signal generators are used in the known Schaltvor directional microswitches, some with abrupt switchover, which in one the housing of the Switching device closing cap arranged and by means of one connected to the hydraulic piston Part are actuated.

Apart from the fact that the switching behavior of such switching devices both by temperature and in hydraulic part of the device prevailing friction is affected, the tend to be used  Microswitch more or less strong for bouncing, that for Burning or welding whose contact surfaces leads. Around to largely avoid the latter disadvantages, switches with sudden changeover were provided, the z. B. by the older patent applications P 35 32 055.9 and P 35 45 670.1 have become known to the applicant. However, the switches described therein have two un stable switch positions, which are considered disadvantageous are. The On is also less advantageous to look at employment related to the hiring of two defined end positions must be carried out.

The present invention is therefore technical Problem underlying an electrohydraulic gear shift to indicate the direction of the genus mentioned at the beginning the disadvantages mentioned above are avoided. In doing so they are structurally simple and easy to manufacture in series be adjustable, easily adjusted or adjusted can and be inexpensive to manufacture components stand. In addition, the number of required Items are reduced.

This object is achieved in that the Snap-action mechanism by an axial direction prestressed actuator plate as well as the actuator supply plate in position, from the actuator actuatable lock is formed with a fixed Interacts part of the switch housing.  

In the electrohydraulic switching according to the invention device will significantly lower the manufacturing cost of a job improvement reached. The control of the electrical switching part he advantageously follows only in dependence the distance covered by the piston, d. H. independent of the existing temperature and friction influences.

Further features and advantages of the invention result from the subclaims and the following description, which in connection with the drawing the Er explain the invention in more detail using an exemplary embodiment, corresponding parts with the same loading signs are provided. In detail shows

Fig. 1 shows a longitudinal section through an electro-hydraulic switching device according to the invention in the rest position and

Fig. 2 shows the electro-hydraulic switching device according to Fig. 1 in a first switching position.

In the drawing, 1 denotes a housing which is hydraulically sealed on the one hand by means of a closure piece 5 and on the other hand is closed by a closure cap 32 which is secured to the housing 1 by means of a reeving 33 . The closure piece 5 has an axial bore 7 in which a piston 2 is axially slidably mounted, the right end of which is acted upon by hydraulic pressure in the illustration. For the hydraulic sealing of the piston 2 , a sealing ring 3 , which is mounted in a radial recess 35 of the closure piece 5 . The axial bore 7 opens into a recess 12 of larger diameter, which is connected to the atmosphere in a connection via an inclined channel 14 . The recess 12 forms together with the surface of the piston 2 and a membrane seal 4 pushed thereon, the outer edge of which is inserted in a radial groove (not shown) in the closure piece 5 , a closed space from which a compact leakage is discharged via the channel 14 in this space can be.

The end of the piston 2 protruding from the bore 7 interacts via a spring plate 8 with an actuator 9 , the task of which will be described below. On the radially outer edge of the spring plate 8 , a compression spring 6 is supported , the other end of which is supported on a support sleeve 15 , which is arranged together with the closure cap 32 at the opposite end of the housing 1 . The compression spring 6 counteracts the hydraulic input pressure and ensures in the rest position of the order for the spring plate 8 to rest on the end face of the closure piece 5 .

Inside the housing 1, the main components of a switch with abrupt switching are finally coaxially with the piston 2 are disposed, the housing of a Schalterge 20, one on the switch body 20 fixed integrally formed part 21, an axially displaceable in the switch housing 20 actuating plate 22, a radially movable Lock 18 with a locking lug 18 a , the actuator 9 , two compression springs 23, 25 , an actuating rod 30 and two contact pairs 16, 17 , which cap 32 are provided within the closure. The arrangement of the switch is preferably such that between a piston 2 facing radial wall 38 of the switch housing 20 and a radial extension 9 a at the end of the actuating member 9, a further compression spring 10 is arranged, which on the one hand via a spring plate 11, the actuator 9th with the spring plate 8 positively connects and on the other hand biases the switch housing 20 in the direction of an adjustable stop 31 which is screwed into a suitable threaded hole in the closure cap 32 . The protrude from the switch housing 20, the ends of the actuator 9 and the actuating rod 30 interact with one of the contact pairs 16, 17 .

In its central part 9 b of larger diameter, the actuator 9 has both axially opposite ramps 28 a , 28 b and a flat guide surface 35 . The middle part 9 b forms together with the lock 18 , the actuating plate 22 and the fixed part 21 on the switch housing 20, the snap-action mechanism of the switch. The actuating plate 22 has in its central region a first and a second radial recess 34, 27 , in which the lock 18 is mounted so that it can be slid in the radial direction. For the radial bias of the lock 18 provides a compression spring 19 , the end facing away from the lock 18 is supported on the bottom of the second recess 27 , while the lock 18 itself has an axially extending edge 36 , which in operation with the middle part 9 b of the Actuator 9 attached ramps 28 a , 28 b enters into effective connection.

The mode of operation of the electrohydraulic switching device described is explained in more detail below, starting from the idle state of the arrangement, in which all moving parts assume the position shown in FIG. 1. If the piston 2 is acted upon by a hydraulic pressure which overcomes the force of the compression spring 6 which counteracts it, the piston 2 moves in the actuating direction, as a result of which the pressure springs 6 and 10 are compressed. This movement also follows with the spring plate 8 in a non-positive connection actuator 9 , wherein in the beginning phase of the movement with the ramp 28 a cooperating edge 36 of the lock 18 slides down along the ramp 28 a . At the same time, the lock 18 moves under the action of the compression spring 19 and comes with its locking lug 18 a into engagement with the stationary part 21 on the switch housing 20 , against which it now lies axially. The second compression spring 25 relaxes, which comes to bear against a piston wall 2 facing radial wall 26 of the actuation plate 22 , which is thereby positioned in a first position. The contacting is interrupted by the pressure exerted on the contact pair 17 by means of the actuating member 9 ( FIG. 2).

If the hydraulic pressure acting on the piston 2 is increased further, the actuating member 9 moves further in the actuating direction, the first compression spring 23 , the left end of which, in the illustration, is supported on a radial wall 37 of the switch housing 20 facing away from the piston 2 the actuator 9 is compressed and its right end in the illustration of the piston 2 facing away from the radial wall 24 of the actuating plate 22 is lifted. By this movement, the second ramp 28 b presses the lock 18 radially downward against the action of the compression spring 19 . If the radial path covered by the lock 18 is greater than the radial length of the locking lug 18 a which is in engagement with the stationary part 21 , the lock 18 releases the actuating plate 22 , which results in a sudden movement of the actuating plate 22 in the illustration to the left Consequence. Due to the action of the compression spring 19 , the locking lug 18 a of the lock 18 comes back into engagement with the stationary part 21 on the switch housing 20 , the first compression spring 23 again coming into contact with the actuating plate 22 . By engaging the latch 18 a , the actuating plate 22 is positioned in this second position, the first contact pair 16 being opened by means of the actuating rod 30 due to its abrupt movement. The relative position of the switch housing 20 relative to the actuator 9 corresponding to the individual switching points can be adjusted by means of the adjustable stop 31 .

If the hydraulic pressure acting on the piston 2 diminishes, the piston 2 moves back under the action of the compression spring 6 into its starting position, in which the spring plate 8 comes into contact with the closure piece 5 . The above-described processes then take place in exactly the opposite order, with the first contact pair 16 being closed to the right due to the abrupt movement of the movement plate 22 with the actuating rod 30 and then the second contact pair 17 due to the progressive movement of the actuating member 9 .

Claims (11)

1. Electrohydraulic switching device for outputting electrical control signals as a function of supplied pressure signals, with a housing in which a piston which can be acted upon by the inlet pressure is axially displaceable and which is supported against the inlet pressure by a compression spring supported on a spring plate connected to the piston in a form-fitting manner is burdened, and a coaxial to the piston switch with sudden changeover is provided, with at least one pair of contacts, a switch housing, a snap-action mechanism and an actuator which, due to the change in its geometric position relative to the switch housing, the sudden changeover of the switch acts, thereby characterized in that the snap-action mechanism is formed by an actuating plate ( 22 ) preloaded in the axial direction and a lock ( 18 ) which holds the actuating plate ( 22 ) in position and can be actuated by the actuating member ( 9 ) and which is provided with a stationary part ( 21 ) on the switch housing ( 20 ) interacts. 2. Electrohydraulic switching device according to claim 1, characterized in that the lock ( 18 ) can be locked in two locking positions by means of a locking lug ( 18 a) which bears axially against the stationary part ( 21 ) on the switch housing ( 20 ). 3. Electro-hydraulic switching device according to claim 1, characterized in that the lock ( 18 ) in a first and a second recess ( 34, 27 ) from the actuating plate ( 22 ) leads radially GE. 4. Electro-hydraulic switching device according to one of claims 1 to 3, characterized in that the lock ( 18 ) is resiliently biased in the radial direction. 5. Electro-hydraulic switching device according to claim 4, characterized in that the lock ( 18 ) by means of a compression spring ( 19 ) is biased, the radially outer end of which is supported on the bottom of the second recess ( 27 ). 6. Electro-hydraulic switching device according to one of the preceding claims, characterized in that the actuating member ( 9 ) in the rest position of the switching device in positive connection with the spring plate ( 8 ) by a pressure spring ( 10 ) is held, by the action of the control housing ( 20th ) abuts an adjustable stop ( 31 ). 7. Electro-hydraulic switching device according to one of the preceding claims, characterized in that the actuating member ( 9 ) in the switch housing ( 20 ) is guided displaceably and in its central part ( 9 b) larger diameter so probably one of the first recess ( 34 ) of the actuation plate ( 22 ) facing guide surface ( 35 ) and two of the second recess ( 27 ) of the actuating plate ( 22 ) facing axially opposite ramps ( 28 a , 28 b) for actuating the lock ( 18 ). 8. Electro-hydraulic switching device according to one of the preceding claims, characterized in that between the piston ( 2 ) from the radial wall ( 24 ) facing the actuating plate ( 22 ) and the piston ( 2 ) facing away from the radial wall ( 37 ) of the switch housing ( 20 ) a first compression spring ( 23 ) is arranged, the actuating plate ( 22 ) towards the piston ( 2 ) to bias in the rest position of the order. 9. Electro-hydraulic control device according to claim 8, characterized in that between the said piston (2) facing the radial wall (26) of the actuating plate (22) and the piston (2) facing the radial wall (38) of the switch housing (20) second compression spring (25) is arranged at the piston (2) facing end surface of the middle part (9 b) of the actuator (9) is supported in the rest position of the arrangement. 10. Electro-hydraulic switching device according to one of the preceding claims, characterized in that the actuating plate ( 22 ) is provided with an actuating rod ( 30 ) which cooperates with a first contact pair ( 16 ). 11. Electro-hydraulic switching device according to one of the preceding claims, characterized in that a second pair of contacts ( 17 ) is provided which can be actuated directly by the actuating member ( 9 ).