DE102007036854A1 - Storage and feed system for hydraulic fluid comprises cylinder with fluid storage chamber and anchor held in storage position by permanent magnets which is moved to feed fluid through outlet when current is passed through coil around it - Google Patents

Abstract

The storage and feed system for hydraulic fluid comprises a cylinder (10) with a fluid storage chamber (14). An anchor (50) is held in the storage position by permanent magnets (62) but can be moved to feed fluid through an outlet (12) when current is passed through a coil (22) surrounding it.

Description

The The present invention relates to a hydraulic fluid delivery device according to the preamble of the main claim. Such a device typically becomes in the form of a so-called memory connection for an oil supply in connection with (Motor vehicle) transmissions, which by means of such Device a predetermined amount of hydraulic oil to a predetermined state supplied shall be.

The 3 , which refers to the extent of the company's internal state of the art on the part of the Applicant, illustrates such a technology presupposed as generic. In a hollow cylindrical housing 10 is an opening on the front side 12 for discharging a predetermined amount in a storage section 14 of the housing contained hydraulic oil to a downstream unit, such as a transmission provided. That in the memory section 14 of the housing 10 stored hydraulic oil is generated by movement of a piston-like portion 16 an anchor element (by right movement in the figure, wherein the element 16 by an outside spring 18 is biased) triggered; the rightward movement of the anchor element 16 reduces the memory section 14 and brings appropriately provided therein hydraulic oil through the opening 12 out.

This delivery process is triggered by an electromagnetic actuator, which at the opening 12 opposite front end of the housing 10 in the form of a core element 20 or a surrounding coil device 22 is realized. More specifically, the stationary core element acts 20 on an inner (second) anchor element 24 which is in a stationary bearing bush 26 against the force of a second, compared to the outer compression spring 18 smaller inner compression spring 28 is biased and by means of one of a plurality of locking balls 30 a ring heel 32 at the outer rear end of the first anchor element 16 and notches 34 In the second anchor element realized locking device with the out of the units 16 and 24 cooperates formed anchor unit. The 2 illustrates the retracted memory state (storage position of the armature unit), and that is the coil device 22 in energized condition; Accordingly, the second anchor element made of magnetic material is 24 in the tightened left-hand position (against the force of the inner compression spring 28 , which oppose an abutment section 38 the bearing bush 26 supported, wherein in breakthroughs of the bearing bush 26 held detent balls 30 in the position shown with the annular shoulder 32 of the first anchor element 16 interact and thus keep this in the position shown).

Is the energization of the coil device 22 finished, the magnetic force on the second bearing element expires 24 , and this is due to the action of the inner compression spring 26 moved to the right. The detent balls 30 enter the notches 34 of the second anchor element 24 one; the engagement of the detent balls 30 with the ring heel 32 is solved. Consequently, still triggered by the second anchor element 24 , the first anchor element 16 Sliding freely to the right, driven by the force of the outer compression spring 18 , Accordingly, in the memory section 14 contained hydraulic oil through the opening 12 discharged.

When refilling the shown prior art device for reuse, a new batch of hydraulic oil would first pass through the orifice 12 in the storage section 14 brought in (with not yet energized coil device 22 ). The fluid pressure would be the first anchor element 16 against the restoring force of the outer compression spring 18 Move to the left in the drawing plane until the ring shoulder 32 the bearing bush 26 , in particular the breakthrough formed therein for the respective detent balls, engages over. Is then energized by energizing the coil device, the second bearing element, ie moves against the restoring force of the inner compression spring 28 in the left direction, occurs by the shearing action between the second anchor element 24 and the bearing bush 26 a respective detent ball 30 from the notches 34 out and lies in the 2 again shown shell side on the second anchor element 24 on. In this position is thus again an effective locking of the annular shoulder 32 and thus the first anchor element 16 given, so that with continued energization of the coil device 22 the first anchor element is held in the storage position shown, until the hydraulic charge is triggered again by again terminating the energization of the conveying or dispensing operation.

However, such prior art technology needs improvement in many respects. For one, the one in the 2 shown multi-part anchor element assembly with the by the detent balls 30 realized locking mechanically complex and error-prone, especially in problematic conditions in the automotive environment. In addition, for the realization of in 2 shown locking or storage position, the coil device 22 must be continuously energized, in other words, it is a permanent signal on the coil device 22 adjacent and signal interference can trigger inadvertent malfunction.

Object of the present invention is therefore to provide a generic device in their me To simplify chani implementation and operation, in particular to reduce the number of parts to be mounted and moving parts, and also to realize the signaling to the solenoid device easier, more reliable and with less energy.

The Task is by the hydraulic fluid delivery device with the features of the main claim; advantageous developments of the invention are described in the subclaims. In the context of the present invention is in particular a Use of the hydraulic fluid delivery device as a memory connection for hydraulic oil a motor vehicle transmission or the like. claimed downstream aggregate.

In According to the invention advantageously Way is first the locking device for the anchor unit by means of a (preferably stationary provided) permanent magnet device realized, such that in the storage position these permanent means the (still the ejection of the hydraulic oil the storage section causing) armature unit against the restoring force a compression spring or the like. Keep energy storage. The invention, preferred pulsed Energization of the coil device then causes a bump from the Anchor unit, thus overcoming the holding force of the permanent magnet on the anchor unit, so that this then then to empty the memory section and spreading the hydraulic fluid can be moved by the power storage.

By these measures according to the invention initially reduces the effort for the latching / locking of the armature unit in the storage position clearly, especially those with the anchor unit replace magnetically cooperating permanent magnet means which on the assumed State of the art required measures of multipartite and relative mobility of the two anchor elements, the detent balls and the associated breakthroughs or recesses; the error rate The unit is significantly reduced, and not least realize the permanent magnet means a monostable actuator, which in the storage position, the permanent energizing of the coil device no longer necessary.

Corresponding it is preferred and further education provided, the anchor unit according to the invention, which at least in the region of the memory portion formed like a piston is and works, in one piece form, according to a further, preferred development then this anchor unit at its (opposite the storage section) inner wall Abutment for the compression spring offers, in turn, suitable for a housing projection or the like. stationary Section of the housing supported.

In manufacturing technology and magnetically favorable way are the (by means of conventional Permanent magnet materials realized) Area of the core element, with an arrangement chosen that especially with regard to the storage position of the magnetic flux through the core, the anchor unit and possibly other elements of the magnetic Circle is optimized.

While it preferred is the hydraulic fluid delivery device according to the invention in connection with the introduction of an additional oil supply in a transmission or the like. to use downstream unit, is the device of the invention not limited to this application, but offers itself for more conveying and dosing tasks, in which in the manner according to the invention a mechanically simple realization with elegant and energetic better Realization of a resting state should be combined.

Further Advantages, features and details of the invention will become apparent the following description of a preferred embodiment and with reference to the figures; these show in:

1 FIG. 4 is a longitudinal section through the hydraulic fluid delivery device according to a first preferred embodiment of the present invention. FIG.

2 : a longitudinal section analog 1 a second embodiment of the invention and

3 : a representation analog 2 to illustrate the assumed prior art in-house state of the art.

In the description of the 1 First, those already related to the 3 used reference numerals insofar as they directly refer to corresponding details or components.

As can be seen in the comparison, the anchor realized in the prior art from two parts is an anchor unit 50 realized in one piece, in the cross section in the manner of a double-T-shaped punch or piston, which at one end in the direction of the storage section 14 in the known manner, a printing or conveying surface 52 forms, the opposite inside 54 a stop or abutment for a compression spring 56 offers (which is against a integrally ansitzenden inner ring flange 58 of the housing 10 supported), and the other ends a stop section 60 offers, which with the core element 20 interacts.

In the 2 shown, mechanically complex latching unit is in the embodiment of 1 replaced by an annular realized permanent magnet element 62 , which end on the core element 20 abuts and via an annular intermediate piece 64 the magnetic circuit to the stopper section 60 closes, so that in the shown (and de-energized) storage position of the 1 nevertheless the anchor unit 50 firmly on the left side stop at the core 20 is held.

For discharging the in the storage section 14 held delivery is the coil device 22 so energized that they, based on the magnetic flux of the permanent magnet means 62 , a lifting or (especially in conjunction with the compression spring 56 ) repulsive force on the anchor unit 50 so that it is then moved to the right in the plane of the drawing and the engaging piston surface 52 according to the hydraulic oil from the chamber 14 through the opening 12 comes out.

When refilling, in turn, the intended amount of hydraulic oil through the opening 12 in the chamber 14 registered, which, against the force of the compression spring 56 , the anchor unit 50 shift to the left until it passes through the permanent magnet adhesion force of the unit 62 in the in the 1 shown position is held; the coil device 22 is either de-energized during this filling, alternatively energized so that, in support of the left movement of the anchor unit 50 , an attractive force is exerted on the anchor unit.

The second embodiment of the invention according to 2 structurally corresponds almost completely to the 3 to the internal, unpublished state of the art, with the exception of the permanent magnet 70 , the analogous to the first embodiment (there element 62 ) acts. The description of 3 Moreover, it is considered as a description of this embodiment of the invention.

Claims (9)

Hydraulic fluid delivery device having a storage section (in 14 ) for hydraulic fluid to be delivered, in particular hydraulic oil, housing ( 10 ) movably guided, with a preferably stationary provided Spulvenvorrichtung ( 22 ) and for discharging the hydraulic fluid through an opening ( 12 ) formed on the storage section anchor unit ( 50 ), which against the force of a force accumulator ( 56 ) held in a storage position, in particular latched and / or locked, can, characterized in that the armature unit by action of permanent magnet means ( 62 . 70 ) can be held in the storage position so that the coil device is de-energized in the storage position of the armature unit and by preferably pulse-shaped energization of the coil device, the armature unit can be moved from the storage position for discharging the hydraulic fluid. Device according to claim 1, characterized in that that the case at least in the region of the storage section formed as a hollow cylinder is preferred, wherein preferably the memory area in an end region and the opening in an end face of the Hollow cylinder is formed. Device according to Claim 1 or 2, characterized that the anchor unit at least in the region of the memory section is formed like a piston. Device according to one of claims 1 to 3, characterized that the anchor unit in one piece is trained. Device according to one of claims 1 to 4, characterized in that the energy accumulator as the anchor unit biasing spring ( 56 ), in particular compression spring, is realized. Apparatus according to claim 5, characterized in that the compression spring between a said memory portion facing away from the piston portion ( 54 ) of the anchor unit and a stationary housing section ( 58 ) is supported as an abutment. Device according to one of claims 1 to 6, characterized in that the permanent magnet means as a stationary, in a rear, the opening opposite core region ( 20 ) of the housing provided permanent magnet element ( 62 . 70 ) are realized. Device according to one of claims 1 to 7, characterized that the permanent magnet means in the stationary provided in the housing Coil device are arranged. Use of the hydraulic fluid delivery device according to a the claims 1 to 8 as storage circuit for introducing a predetermined Oil flow in a vehicle transmission in response to a drive signal for the coil device.