DE102009037500A1 - Measuring device for use in switching dome for detecting e.g. position of components of dual clutch transmission of passenger car, has repulsion unit repulsing dirt to reduce deposition of particle abrasion between sensor and transmitter - Google Patents

Abstract

The device (1) has a dirt repulsion unit (15) for repulsing dirt to reduce deposition of metal particle abrasion between a sensor and a signal transmitter, where the repulsion unit is designed as a dirt repulsive mold part i.e. oil guiding plate. The signal transmitter is designed as a permanent magnet, and the sensor is designed as a hall-sensor. A selector interlock mechanism has a switching bolt (2) made from metal, and the sensor is arranged in a housing (19) that is made from plastic, ferromagnetic metal or non-ferromagnetic metal. Independent claims are also included for the following: (1) a transmission comprising dirt collection magnets (2) a method for measuring a switching parameter of the transmission.

Description

Background of the invention

The Invention relates to a measuring device for detecting positions, Routes or speeds of one or more components of a ölbefüllbaren Motor vehicle transmission, wherein the measuring device is a signal generator and a sensor.

EP 1 152 174 A1 discloses a sensor with which the shift position of a transmission can be determined. For this purpose, a switching shaft to a plurality of different circumferential grooves, in which engages a sensing element in response to the switching position, which is connected to a sensor which provides a corresponding electrical signal depending on the position of the switching shaft. The signal is thus an indication of the currently prevailing shift position.

In transmissions, it is increasingly necessary to capture not only the switching positions, but also intermediate positions accurately and promptly. In particular, in very fast switching operations, such as occur especially in automated dual-clutch transmissions, a close monitoring of the on or off gear is almost essential. DE 103 36 971 B3 describes an arrangement for detecting the exact position of a movable shift fork or a rocker arm in a transmission. The arrangement allows a continuous detection of the gear position. For this purpose, a receiving element is provided in the end region of the shift fork, which includes a permanent magnet as a position sensor. The magnetic field generated by it is detected within its range of motion by a stationary magnetic field sensor.

One directly attached to the rocker magnet is directly the Exposed to environmental influences inside the gearbox, so that on the magnet during the operating time magnetic particles how to fix ferromagnetic metal abrasion. The particles lead to unwanted stray fields and complicate a precise Position determination of the magnet. Be for every rocker arm used separate magnets overlap their magnetic fields, whereby the magnetic field sensors in an unfavorable position or movement of the switching rockers disturbed by adjacent magnets can be.

The usually used in the vehicle field magnetic field sensors Like GMR or Hall sensors, they are very sensitive to unforeseen events Tilts or changes in the distance between sensor and magnetic field, which, for example, by a load-induced bending of the Shift fork can occur. They must therefore be very accurate be aligned with the position of the magnet and / or need Before each use a calibration for example on the respective neutral position of the shift fork.

To solve these problems suggests DE 10 2007 044 425 A1 a shift rocker, which has a damping element as a position sensor, wherein the damping element attenuated generated by a stationary sensor, designed as a resonant circuit high frequency field and the degree of damping, the position of the shift fork or rocker arm is detected. However, this good solution can only be used to a limited extent in the case of components made of steel, since a high-frequency field generates eddy currents in these materials. It is also relatively expensive.

Object of the invention

task The invention therefore is to provide a device which on the one hand a low-wear detection of movement and positional states of transmission components, in which eliminates the disadvantages resulting from the prior art are.

The Task is according to the features of the claim 1 solved. Further advantageous embodiments result from the dependent claims.

One certain proportion of particles settles in a transmission the operating time is seen permanently between the sensor and the Signal generator off. This is especially true as a magnet trained signal generator, the metal-containing abrasion even attract. According to the invention, the measuring device means on which the concentration of the measurement affecting particles and oil droplets locally between the signaler and reduce the sensor. As a result, the formation of interference fields, which can affect the sensor, counteracted.

An advantageous embodiment of the invention provides that the means is designed as a magnet for collecting dirt. Fluidized or dispersed in an oil mist, ferromagnetic metal particles accumulate over the term at this. It thus represents a sacrificial magnet. The sacrificial magnet is arranged to the sensor system, which consists of the sensor and the signal generator, so that on the one hand, the collected particles in the attached state can not affect the accuracy of measurement and on the other hand he still keeps enough particles away. In particular, when the signal generator also as a magnet in the form of a Messmagne th and the sensor is designed as a Hall sensor, a disturbance of the field of the measuring magnet must be avoided.

There the sacrificial magnet does not have a precisely defined field strength must, can be cost-effective in mass production Use magnets with a relatively high dispersion. Is the signaler not as a measuring magnet or as a magnetic base Component designed as a coil, but works, for example on an optical basis, one is in the field strength choice of Sacrificial magnet free, as an interaction with a measuring magnet does not exist and is focused solely on the dirt-collecting effect can be. Therefore, it is useful in passenger car transmissions, the distance of the sacrificial magnet to the sensor or the signal generator smaller than about 10 cm to choose.

In According to a further embodiment of the invention, the means is a Formed molded part that acts dirt repellent. Bounced oil droplets bounce on this, without the sensor and the signal transmitter or a housing in which these two components are arranged, to reach. The molding can be in the form of a Ölleitblechs be formed, immediately before the signal generator and the sensor is arranged. Instead of a sheet of aluminum or steel can It also consist of heat-resistant plastic. Preferably The molding passes the oil droplets in the oil sump.

In According to an application of the invention, the measuring magnet detects switching positions of switching elements of the transmission. The switching elements are considered axial movable shift rails, rotatable shift shafts or as shift rails formed with non-circular cross-section. As another Switching elements are shift rails, shift forks or more to the transmission housing movable components conceivable. Even if these components are made of steel are formed, can be with a sacrificial magnet a achieve good dirt localization. The gear can be a manual or automated manual transmission. Especially the latter not only requires discrete position recognition, but increasingly also the continuous detection of intermediate positions, which required a very accurate measurement. The invention is also used in sensor systems, the speeds or speeds to register.

In Another embodiment of the invention is the means by a electrically producible and possibly temporally variable Magnetic field realized. This can, for example, a or a plurality of coils may be provided in the measuring device. at Use of a measuring magnet or a measuring coil as signal generator It is therefore particularly helpful to take a measurement through the sensor when the electric field of the coils is turned off. Then the mutual influence is as low as possible. It is expedient to determine the measurement in each case, regular measuring points at intervals.

The Measuring equipment is inexpensive to install when they as a whole is integrated into a housing. The housing does not necessarily surround the sensor and the signal generator, but only sets the relative position of Components of the measuring device to each other firmly. This is especially true a shift dome provided which supports a shift shaft and a receptacle for the signal transmitter, the sensor and the dirt repellent having.

The The invention also relates to a transmission with an inventive Measuring device. It is advantageous, the means above the im Delivered state, oil level levels to arrange the transmission. Thus, not too many of them gather heavy metal particles on the soil repellent, but fall by gravity to the ground. This leaves the function the agent longer guaranteed. Also the signal generator and the sensor should thus be placed above the fill level be from the outset the least possible pollution to be exposed.

A Particularly advantageous embodiment of the invention is the combination a measuring magnet, a sacrificial magnet and another magnet in a transmission. The other magnet in the transmission is not Part of the measuring device. He is in the oil sump and prefers placed on or near the drain plug. This The job is to get as many metal particles as possible to bind to the transmission bottom. He thus reduces the global metal particle concentration of the oil mist throughout the transmission. Thus, the victim magnet Relieves and can over a very long period of his Function well.

A Another embodiment of the invention is a transmission with a means for dirt repellency, by an electrically producible and thus temporally variable magnetic field is realized. In this Case can be waived, the means as a physical component to integrate into the measuring device.

A logical interaction, which is ensured by a control unit, allows the generation of relatively strong magnetic fields, which attract the abrasion in the form of metal dust or contaminated oil well and at the same time switching off the magnetic field to ensure the most trouble-free measurement. The strong magnetic fields allow the functional interaction of the locally relatively distant arrangement to the measuring device. The same control unit can also be used to process measured values recorded by the sensor.

In summary allows the invention targeted removal of the metal-containing oil mist of the sensor. The metal particles are selectively collected or rejected, so the accuracy of the sensor over the operating life decreases less quickly.

Short description of the drawing

The Invention is suitably with reference to the drawing explained in more detail.

It demonstrate:

1 a measuring device of a transmission with a signal generator, a sensor and a means for dirt repellency,

2 an enlarged view of the partial view 1a .

3 a three-dimensional representation of a partially cut gear for a measuring device according to 1 ,

Detailed description the drawings

In the 1 and 2 is a measuring device 1 displayed. The measuring device 1 has a shift lock 25 with a locking housing 8th and a housing 19 on. Both the case 19 as well as the shift lock 25 can be manufactured and transported separately from each other, without the possibility of contaminating essential components. The shift lock 25 has a switching pin 2 made of metal with a dome 4 and a shaft-shaped carrier 3 as a pressure pin 21 on. End facing outward is on the shift pin 2 a ball 5 arranged by means of rolling balls 6 in the dome 4 is stored on roller bearings. The ball 5 is against a runway 18 a shift shaft 26 biased. The housing 19 is separate from the lock housing 8th made and pressed with this.

The shift pin 2 is by means of a rolling bearing 7 in the lock housing 8th Hanging and guided from metal. The shift pin 2 is with a blind hole-like bore 9 which does not necessarily have to be circular in cross section, in which a spring is provided 10 is received in the form of a coil spring. The carrier 3 is inside the spring 10 guided, with the preloaded spring 10 on the one hand in the bore 9 of the shift pin 2 and then on the ground 22 of the lock housing 8th supported. The floor 22 of the lock housing 8th has a circular recess in this case 23 on, through which the carrier 3 in a recording 24 protrudes. He is here by the Arretiergehäuse 8th plain bearing. The carrier 3 acts on the end of a signal generator 16 ,

The measuring device 1 has a sensor 11 on, coming from a signaler 16 and one as a sensor 17 designated signal receiver consists. Optional features the sensor 11 not further described electronic components such as a measuring electronics 12 on. The measuring electronics 12 can in the case 19 in which also the sensor 17 is arranged, mounted or potted. The housing 19 is made of plastic, ferromagnetic or non-ferromagnetic metal. The sensors 11 has an interface to the vehicle in the form of a plug-in contact 20 on. The sensor 17 is a Hall sensor, and the signal generator 16 is a permanent magnet. The signal generation thus proceeds without contact.

On the outside, the locking housing 8th a means 15 for dirt removal in the form of a coil 14 on. The sink 14 is in close proximity to the signal generator 16 and to the case 19 arranged. On the one hand, this prevents particles from getting on the housing 19 attach, on the other hand, that particles; into the interior of the shift lock 25 have penetrated, continue to the signal generator 16 can penetrate. The application of the coil 14 with electricity is through the measuring electronics 12 regulated.

3 shows a gearbox 13 , in the resting state to the filling level 27 filled with oil. By means of a switching shaft 26 different gears are switchable. The shift shaft 26 with shift forks 30 is in a switching dome 28 stored in which a measuring device 1 is arranged, of which only the plug contact 20 is shown. Also in the switching dome 28 is - above the oil level 27 - the middle 15 for dirt removal as part of the measuring device 1 arranged. The oil drain plug 29 is also magnetic and in the oil sump at the bottom of the gearbox 19 arranged.

LIST OF REFERENCE NUMBERS

1

measuring device

2

switching pin

3

carrier

4

dome

5

Bullet

6

rolling balls

7

roller bearing

8th

lock housing

9

drilling

10

feather

11

sensors

12

measuring electronics

13

transmission

14

Kitchen sink

15

medium

16

signaler

17

sensor

18

slipway

19

casing

20

plug contact

21

pushpin

22

ground

23

recess

24

admission

25

Gearshift

26

shift shaft

27

filling height

28

switch dome

29

Oil drain plug

30

shift fork

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• - EP 1152174 A1 [0002]
• - DE 10336971 B3 [0003]
• - DE 102007044425 A1 [0006]

Claims (12)

Measuring device ( 1 ) for detecting positions, distances or speeds of one or more components of an oil-filled motor vehicle transmission ( 19 ) with a signal generator ( 16 ) and a sensor ( 17 ), characterized in that the measuring device ( 1 ) Medium ( 15 ) to prevent the deposition of metal particles abrasion between the sensor ( 17 ) and the signal generator ( 16 ) to reduce. Measuring device according to claim 1, characterized in that the means ( 15 ) is formed as a magnet. Measuring device according to claim 1, characterized in that the means ( 15 ) is designed as a dirt-repellent molding. Measuring device according to claim 1, characterized in that the measuring device ( 1 ) for determining the switching position of a shift fork ( 30 ) or shift rocker is formed. Measuring device according to claim 1, characterized in that the signal transmitter ( 16 ) as magnet and the sensor ( 17 ) are formed as a Hall sensor. Measuring device according to claim 1, characterized in that the means ( 15 ) is formed as an electrically inducible magnetic field. Measuring device according to claim 6, characterized the magnetic field can be generated at intervals. Switching dome ( 28 ) comprising a stored switching element ( 30 ) and a measuring device according to claim 1. Transmission ( 19 ) with a measuring device ( 1 ) according to claim 1, characterized in that the sensor ( 17 ) and the means ( 15 ) above the oil level ( 27 ) of the transmission ( 19 ) are arranged. Transmission ( 19 ) with a measuring device ( 1 ) according to claim 2, characterized in that the transmission ( 19 ) a dirt collecting magnet ( 29 ), which is not part of the measuring device ( 1 ). Transmission ( 19 ) with a measuring device ( 1 ) according to the preamble of claim 1, wherein the transmission ( 19 ) an electrically inducible magnetic field as a means ( 15 ) for anti-soiling to prevent the build-up of metal particle abrasion between the sensor ( 17 ) and the signal generator ( 16 ), wherein the magnetic field via a measuring electronics ( 12 ) of the measuring device ( 1 ) is controllable. Method for measuring switching variables of a transmission ( 19 ) with a measuring device ( 1 ) according to claim 7, characterized in that in a first state the means ( 15 ) generates a magnetic field for binding metal particles and in a second state with the magnetic field switched off a measurement of the signal from the signal generator ( 16 ) generated by the sensor ( 17 ) he follows.

Images