DE102017115481A1 - Double magnet holder for a piston of a CSC with sensor and slave cylinder with double magnet holder - Google Patents

Abstract

The invention relates to a double magnet holder (1) for receiving two magnets (2) for a piston (3) of a hydraulic slave cylinder (4), wherein the magnets (2) are provided and designed, in conjunction with a sensor (5) conclusions about the position of a piston (3) of the slave cylinder (4), wherein a base body (6) has two receiving areas (8) for each magnet (2), wherein the dimensions of the receiving areas (8) are such that in inserted state of the magnets (2) in the receiving areas (8) and in the inserted state of the double magnet holder (1) in the piston (3) the magnets (2) are held without play on the base body (6) in the position required for the operation .. The invention also relates to a hydraulic slave cylinder (4) for use in a clutch or brake system with a housing in which a piston (3) is mounted axially movable, wherein a two magnets (2) holding Doppelma invention Gnethalterung (1) in the piston (3) is inserted.

Description

The invention relates to a double magnet holder for receiving two magnets for a piston of a hydraulic slave cylinder, such as a Kupplungsnehmerzylinders, in particular a CSC / Concentric slave cylinder, the magnets are provided and designed, in conjunction with a sensor conclusions about the position of a To give piston of the slave cylinder, wherein a (substantially rectangular) base body has two adjacent, preferably spaced apart and / or separated by at least one web, in particular one-piece, receiving areas for each magnet.

Pistons are already known from the prior art, used in the magnets and glued or fixed by clips, for example with a plate spring.

Also reveals about the document DE 10 2015 223 972 A1 an actuator for actuating a friction clutch, comprising a housing and a piston movable in the housing along an axial direction, wherein centering is arranged on a front side of the piston in a pressure chamber of the housing, wherein in the centering two magnets in the axial direction in a Spaced apart from each other and wherein on the housing a Hall sensor for measuring the magnetic fields of the magnets is arranged, wherein the centering comprises a receptacle in which the magnets are arranged, both magnets through the receptacle and by a one-piece fixing in position are fixed to each other, wherein the fixing element is fixed in the receptacle.

However, the prior art always has the disadvantage that the sticking of the magnets in the piston is associated with high process costs and / or risks during assembly. In addition, there is a problem with a double magnet concept, depending on the arrangement of the magnets, that the two magnets tighten and thereby even worse (for bonding) can be positioned.

It is therefore the object of the invention to avoid or at least mitigate the disadvantages of the prior art. In particular, the magnets are to be prefixed in a manner in which gluing is not required and the positioning of attracting magnets is facilitated. Furthermore, the process costs and / or risks during assembly should be reduced.

This object is achieved in a generic double magnet holder according to the invention that the dimensions of receiving areas and a web of the double magnet holder are such that in the inserted state of the magnets in the receiving areas and inserted state of the double magnet holder in a piston, the magnets backlash on the main body of the double magnet holder in are held / positioned for the operation necessary position.

This has the advantage that by pre-assembling the magnets on an additional component - a Doppelmagnethalterung- the magnets are easier to position in the piston and gluing can be eliminated, which process costs and / or risks during assembly can be reduced. In this case, a holding force is generated via the assembly, which is also able to compensate for different temperature expansions.

Advantageous embodiments are claimed in the subclaims and are explained in more detail below.

Preferably, at least two biasing tabs project from the main body per receiving areas, which are matched to the dimensions of one of the two magnets such that a biasing force positioning the respective magnet is applied thereto. In this case, the biasing tabs in pairs on the longitudinal edges of the body, in particular terminal, i. an aligned conclusion with the body forming at the transverse edge, be arranged.

Advantageously, the magnets can be clamped in this way in each case between two biasing tabs and thus secured by friction against slipping. An aligned termination also ensures that no exposed edges can tilt during assembly of the double magnet holder in the piston tilting.

In particular, the web can protrude centrally between the two receiving areas of the base body in the same direction as the biasing tabs. By the central position of the web between the receiving areas, the two mutually attracting magnets, when placed in the receiving areas, kept at a distance from each other and stored stable in their position relative to each other.

In this case, recesses may be provided on the main body on each longitudinal edge, between which the web is positioned, so that the outer surfaces of the web extending parallel to the longitudinal axis of the main body are further arranged on the longitudinal axis of the main body than the biasing tabs. In addition, the bridge can be made of two tabs be formed, which are arranged on the longitudinal edges of the base body.

Due to the recesses or the recessed position of the web on the longitudinal edges of the base body, the double magnet holder during assembly in the piston for the fitter is safely within reach and can be placed precisely in the piston.

Further, the tabs of the web at the edges, which extend substantially orthogonal to the transverse and longitudinal axis of the body, beveled. This allows a certain clearance when positioning the magnets in the receiving areas, which facilitates the use of the magnets in the double magnet holder.

Particularly preferably, the base body is made of sheet metal or plastic injection molding, preferably in one piece. In the production of a ferromagnetic sheet, the magnets are advantageously additionally fixed by magnetic force on the body.

The biasing tabs may be Z-shaped. The resulting kink in the upper area, i. distal to the body, the biasing tabs are directed in particular toward the magnet so that it contacts the bend and the upper portion of the biasing tab buckles away from the magnet.

In addition, preferably, the double magnet holder on at least one additional tab for fixing the body in the axial position on the piston. By means of this additional lug, the double magnet holder can advantageously be held in the axial direction of the piston so as to be slip-proof. In this case, the additional tab can be arranged on a transverse edge of the base body.

It is also possible that a fixing lug is arranged on the base body, which is located in particular in the region of the first additional lug and secures a magnet in the longitudinal direction of the base body against slipping.

The invention further relates to a hydraulic slave cylinder for use in a clutch or brake system with a housing in which a piston is mounted axially movable, wherein the above-described, the magnet backlash (ent) holding double magnet holder is inserted without clearance in the piston.

Preferably, the double magnet holder is inserted radially from the inside or outside into the piston. The double magnet holder can also be used radially in the piston. Advantageously, the double magnet holder including the magnets can thus be mounted in a simple manner in the piston, so that an additional and / or complex prefixing of the magnets in the piston is no longer necessary.

For this purpose, the piston on a recess or recess or bulge, in which the base body of the double magnet holder is positioned with magnets inserted.

It is possible that the biasing tabs are supported on the piston, so that the double magnet holder is advantageously fixed in position in the circumferential direction of the piston

Particularly preferably, the piston has a stop geometry, for example in the manner of noses / projections which are aligned in particular with one another. In the assembled state, the stop geometry is in contact with the biasing tabs of the double magnet holder, in particular with the upper portion of the Z-shape of the biasing tabs, so that the double magnet holder is advantageously positively secured against slipping in the radial direction of the piston.

More preferably, the piston is made of plastic or other material, which has a lower strength than the material of the main body of the double magnet holder or the biasing tabs, and the base of the double magnet holder or the biasing tabs of a metal or other material that a higher strength has as the material of the piston. This makes it possible that the biasing tabs, in particular the upper portion of the Z-shape dig in the mounted state in the material of the piston and thus the double magnet holder frictionally and / or positively secured in the piston.

It is also conceivable that the piston has a groove / recess in the receiving area for the double magnet holder or the biasing tabs, so that the biasing tabs, in particular the upper portion of the Z form, in the assembled state of the double magnet holder in the piston respectively engage in the groove / recess and Secure the double magnet holder in the piston.

In other words, the invention relates to a holder for a dual magnet concept for a sensor at the CSC. The magnets are preassembled in this holder. In this case, tabs are provided on the holder, which allow a bias on the magnet. The positioning of the holder via a bulge provided on the piston. For this purpose, in a first variant, the holder is mounted radially from outside or inside the piston. In a second variant, the holder is axially in the Piston inserted. The fixing takes place via additional tabs provided on the holder.

• 1 eine Schnittansicht eines Nehmerzylinders gemäß einer ersten Ausführungsform der Erfindung,
• 2 eine perspektivische Draufsicht einer Doppelmagnethalterung mit eingesetzten Magneten gemäß der ersten Ausführungsform der Erfindung,
• 3 eine perspektivische Draufsicht einer Doppelmagnethalterung und zweier Magneten vor der Montage gemäß der ersten Ausführungsform der Erfindung,
• 4 einen Querschnitt eines Kolbens entlang der Linie IV der 5 mit eingesetzter Doppelmagnethalterung gemäß der ersten Ausführungsform der Erfindung,
• 5 eine perspektivische Draufsicht eines Kolbens mit eingesetzter Doppelmagnethalterung gemäß der ersten Ausführungsform der Erfindung,
• 6 eine perspektivische Draufsicht einer Doppelmagnethalterung gemäß einer zweiten Ausführungsform der Erfindung, und
• 7 eine Schnittansicht in radialer Richtung eines Nehmerzylinders mit eingesetzter Doppelmagnethalterung gemäß einer zweiten Ausführungsform der Erfindung.

The invention will be explained below with the aid of a drawing. Show it:

• 1 a sectional view of a slave cylinder according to a first embodiment of the invention,
• 2 a top perspective view of a double magnet holder with magnets inserted according to the first embodiment of the invention,
• 3 a perspective top view of a double magnet holder and two magnets before mounting according to the first embodiment of the invention,
• 4 a cross section of a piston along the line IV of 5 with inserted double magnet holder according to the first embodiment of the invention,
• 5 FIG. 2 is a top perspective view of a double solenoid-mounted piston according to the first embodiment of the invention; FIG.
• 6 a top perspective view of a double magnet holder according to a second embodiment of the invention, and
• 7 a sectional view in the radial direction of a slave cylinder with inserted double magnet holder according to a second embodiment of the invention.

The figures are merely schematic in nature and are for the sole purpose of understanding the invention. The same elements are provided with the same reference numerals. The features of the individual embodiments can be interchanged.

1 shows a double magnet holder 1 , in the two magnets 2 (not visible) are inserted, which into a piston 3 is mounted. The piston 3 is in a slave cylinder 4 which further has a sensor 5 having. The double magnet holder 1 has a basic body 6 on, being a bridge 7 the two recording areas 8th for one magnet each 2 spaced apart. The magnets 2 are each between two biasing tabs 9 , The slave cylinder 4 also has a release bearing 10 on. Depending on the position of the piston 3 ie depending on the position of the magnets 2 the double magnet holder 1 , the sensor detects 5 a signal.

2 shows a perspective view of a double magnet holder 1 according to a first embodiment of the invention with two magnets 2 in a mounted state. The magnets 2 are each located in a receiving area 8th of the basic body 6 the double magnet holder 1 , Between the recording areas 8th is a jetty 7 arranged, the two aligned orthogonal to the transverse and longitudinal direction of the body tabs 11 having, wherein the tabs 11 closer to a longitudinal axis of the body 6 are arranged as the at the longitudinal edges of the body 6 provided biasing tabs 9 , The tabs 11 of the footbridge 7 thus serve as a spacer between the two magnets 2 , The orthogonal to the transverse and longitudinal direction of the main body 6 running edges of the tabs 11 are in their upper area, ie distal to the main body 6 located, each beveled. The pretensioning straps 9 are in pairs opposite each other and terminal, ie with a transverse edge of the body 6 in alignment, at the base 6 arranged. The dimensions of the receiving areas 8th are each designed to be a magnet 2 when inserted on the tabs 11 of the footbridge 7 abuts and with the transverse edge of the body 6 flees.

3 shows a perspective view of a double magnet holder 1 and two magnets 2 in a non-assembled state. The main body 6 has at the longitudinal edges in each case a centrally between the receiving areas 8th positioned recess 12 on, at the longitudinal edge of each tab 11 is arranged. When assembling the magnets 2 from above, ie from the distal to the main body 6 located portions of the biasing tabs 9 towards the main body 6 out, between in each case two pairwise opposing biasing tabs 9 used and in contact with the body 6 brought. The pretensioning straps 9 apply a bias to the magnet 2 on, causing the magnet 2 frictionally engaged between the biasing tabs 9 is held.

4 shows a cross section of the piston 3 along the cutting line IV of the 5 in which the piston 3 a depression 13 shows in which a double magnet holder 1 with inserted magnet 2 is mounted. When mounting the double magnet holder 1 with inserted magnets 2 radially from the inside into the piston 3 used, with the double magnet holder 1 on the outer circumference of the piston 3 positive fit in abutment with a stop geometry 14 of the piston 3 is brought. The pretensioning straps 9 the double magnet holder 1 each have a Z-shaped course, each with a kink of the biasing tabs 9 under bias in contact with the magnet 2 stands and an upper section 15 a biasing tab 9 each with a stop geometry 14 of the piston 3 in plant stands.

5 shows a perspective view of a peripheral side of the piston 3 with inserted Double magnetic holder 1 , The double magnet holder 1 is at their transverse sides, which are aligned with the transverse sides of the magnets used 2 are aligned, through the transverse outer walls of the recess 13 in the piston 3 fixed in position.

6 shows a perspective view of a double magnet holder 1 according to a second embodiment of the invention. The double magnet holder 1 The second embodiment is similar to the double magnet holder 1 of the first embodiment in the basic structure, so that below only on differences between the double magnet holder 1 the second embodiment and the double magnet holder 1 the first embodiment is received. On a transverse side of the main body 6 is an extra flap 16 arranged a fixing lug 17 having. The additional flap 16 used in the assembled state of the double magnet holder 1 in the piston 3 the axial, backlash-free fixation of the double magnet holder 1 in the depression 13 of the piston 3 , The fixation strap 17 used in the assembled state of a magnet 2 in the additional tab 16 adjacent receiving area 8th the fixation in the longitudinal direction of the body 6 of the magnet 2 in this recording area 8th ,

7 shows a section in the radial direction through the slave cylinder 4 , In the pistons 3 is the double magnet holder 1 , in the 2 magnets 2 are used, the second embodiment mounted. The additional flap 16 fixes the double magnet holder 1 in the axial direction backlash in the piston 3 , in which the distal to the main body 6 located end of the additional tab 16 in attachment with a section 18 the release bearing 10 under tension in plant stands. The fixation strap 17 holds the magnet 2 free of play in its axial position. When mounting the double magnet holder 1 the second embodiment in the piston 3 becomes the pre-assembled double magnet holder 1 ie the two magnets 2 are already in the double magnet holder 1 inserted, axially into the piston 3 inserted.

LIST OF REFERENCE NUMBERS

1

Double magnetic holder

2

magnet

3

piston

4

slave cylinder

5

sensor

6

body

7

web

8th

reception area

9

biasing tabs

10

release bearing

11

Tabs of the dock

12

recesses

13

Indentation / recess / protrusion

14

stop geometry

15

upper section

16

additional tab

17

fixing flap

18

Section of the release bearing

19

axial stop

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 102015223972 A1 [0003]

Claims (10)

A double magnet holder (1) for receiving two magnets (2) for a piston (3) of a hydraulic slave cylinder (4), the magnets (2) being designed and adapted to detect, in cooperation with a sensor (5), the position of a cylinder Piston (3) of the slave cylinder (4), wherein a base body (6) has two receiving areas (8) for each magnet (2), characterized in that the dimensions of the receiving areas (8) are such that in the inserted State of the magnets (2) in the receiving areas (8) and in the inserted state of the double magnet holder (1) in the piston (3) the magnets (2) are held without play on the base body (6) in the position required for operation. Double magnet holder (1) after Claim 1 , characterized in that protrude from the base body (6) per receiving area (8) at least two biasing tabs (9), which are matched to the dimensions of one of the two magnets (2), that a bias voltage is applied thereto. Double magnetic holder (1) according to one of Claims 1 or 2 , characterized in that a web (7) projects centrally between the two receiving areas (8) from the base body (6). Double magnetic holder (1) according to one of Claims 1 to 3 , characterized in that at least one additional tab (16) for fixing the base body (6) is provided in the axial position. Hydraulic slave cylinder (4) for use in a clutch or brake system with a housing in which a piston (3) is mounted axially movable, wherein a two magnets (2) holding double magnet holder (1) according to any one of the preceding claims in the piston ( 3) is used. Hydraulic slave cylinder (4) after Claim 5 , characterized in that the double magnet holder (1) is radially inserted from the inside or outside in the piston (3) or inserted axially into the piston (3). Hydraulic slave cylinder (4) according to one of Claims 5 or 6 , characterized in that in the piston (3) has a depression or recess or bulge (13) is provided, in which the base body (6) of the double magnet holder (1) is inserted with inserted magnets (2). Hydraulic slave cylinder (4) according to one of Claims 5 to 7 , characterized in that the biasing tabs (9) on the piston (3) are supported. Hydraulic slave cylinder (4) according to one of Claims 5 to 8th , characterized in that the piston (3) has a stop geometry (14), against which the double magnet holder (1). Hydraulic slave cylinder (4) according to one of Claims 5 to 9 , characterized in that the additional tab (16) rests against an axial stop (19).

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