DE102015221411A1 - Synchronous carrier body with a sprung sheet metal sleeve as centering - Google Patents

Abstract

In a synchronous carrier body of a synchronizing device of a gearbox, it is provided for centering and / or fixing a sliding sleeve in a switching position that a resilient locking means is arranged in a radial bore of the synchronizer body, wherein the locking means comprises a tubular piece, cylindrical housing, which by means of resilient lugs in the Radial bore is latched.

Description

The invention relates to a synchronous carrier body of a synchronizer for transmission with a locking element for centering a sliding sleeve.

In manual transmissions synchronizers are used to allow comfortable switching between the individual gear stages. During the switching operation, the circumferential speed of a gear wheel of the peripheral speed of the gear shaft is adjusted by means of various elements of the synchronizer and then made a positive connection between the gear shaft and this gear. The synchronous carrier body is an important component of the synchronizer. Through the synchronous carrier body, the transmission shaft and the sliding sleeve of the synchronizer are rotatably connected to each other. This is usually done in that the synchronous carrier body is on the one hand in the circumferential direction positively connected via a formed on its scar spline or tooth profile with the transmission shaft, and on the other hand via external teeth of its sleeve carrier, the sliding sleeve at its outer diameter along the longitudinal center axis of the transmission shaft is displaceable. Furthermore, the synchronous carrier body serves as a stop and guide element for synchronous or friction rings, depending on its design. The synchronous carrier body is often provided with evenly spaced on its outer circumference shots with locking elements, such as locking bolts or detent balls and provided for plungers. The locking elements hold the sliding sleeve in its center position when no gear is engaged. The locking elements are pressed under spring tension in a detent groove of the sliding sleeve, or the locking element acts on a pressure piece, which in turn is accommodated in a detent groove of the sliding sleeve.

In such synchronizing devices arranged in the receptacles of the synchronous carrier body pressure pieces during a switching operation for Vorsynchronisieren, d. H. for moving the respective synchronizer ring against a friction surface of the adjacent coupling body or intermediate ring. At z. B. Doppelkonussynchronisationen the synchronizer. Depending on the design of the synchronizer, the pressure piece is biased either directly by the one or two springs or by a prestressed locking pin or detent ball in a detent groove in the sliding sleeve. If the sliding sleeve is moved axially to select the gear, the pressure piece is pushed axially against the synchronizer ring via the inner contour of its detent groove with a pressure end. The synchronizer ring is thereby pressed against the friction surface.

By the DE 10 2007 031 310 A1 a synchronous carrier body for a synchronizer of a gearbox is known, which has a ring gear with external teeth for engagement in an internal toothing of a sliding sleeve. In order to fix the sliding sleeve in a zero position relative to the synchronous carrier body, a latching means is provided which is secured in a recess of the ring gear and by means of a spring-loaded head of the locking means in a locking groove of the sliding sleeve can be latched. An attachment of the locking means in grooves of the synchronizer support body is effected by means arranged on the latching lobes which engage in the grooves.

The German utility model G 94 08 943 also shows a synchronous carrier body with a ring gear, which has an external toothing for engagement in an internal toothing of a sliding sleeve. A locking means for fixing the sliding sleeve relative to the synchronous carrier body comprises a pressure piece, which is arranged displaceably in a recess of the ring gear in a groove. Provided guide plates support a sliding movement of the pressure piece in the groove.

The DE 1991 7231 A1 shows a composite of sheet metal parts synchronous carrier body. At a seam between two sheet metal parts, a receptacle for a lock is formed. The lock consists of a spring-loaded locking element, which can be latched into a detent groove of a sliding sleeve.

The invention has for its object to provide a synchronous carrier body for a synchronizer of a gearbox, which has a receptacle for a locking means at a sufficiently large torque transmission strength.

The object is achieved by the features of claim 1.

It is a particular advantage of the invention that the synchronous carrier body has a receptacle for the latching element, wherein a weakening by additional windows in the outer toothing is omitted, so that the load capacity of the ring gear is substantially completely retained in a torque transmission to the sliding sleeve.

According to the invention, the receptacle is an easy-to-manufacture radial bore in the sprocket of the synchronous carrier body. A arranged below the sprocket in a hub of the synchronous carrier body recess for receiving the locking means may advantageously z. B. be made by sintering. The synchronous carrier body has at least one receptacle consisting of radial bore and recess, but preferably one Number of evenly distributed on the circumference of the synchronizer support body arranged recordings.

The locking means comprises in a first advantageous embodiment, a tubular piece-like, preferably produced by deformation housing, which has at its upper end facing the sliding sleeve a shelf for narrowing the upper opening. By this measure, a spring-loaded in the tubular housing displaceably arranged detent ball is secured against falling out. A force acting on the detent ball compression spring is supported at the bottom of the recess in the hub. The tubular housing has laterally two diametrically opposite arranged resilient lugs, which engage behind a stop edge in the recess and can latch there, so that the locking means is secured against centrifugal forces caused by radial falling out of the synchronous carrier body.

In a second advantageous embodiment, the tubular piece-like, cylindrical housing is provided at its upper end facing the sliding sleeve with a convex spherical cap. The housing is mounted radially displaceable in a radial bore in the synchronous carrier body and is pressed by a compression spring, which is supported on the bottom of the recess and acts against the spherical cap of the housing, in a detent groove of the sliding sleeve. The tubular housing has laterally two diametrically opposite arranged resilient lugs, which engage behind a stop edge in the recess and can latch there, so that the locking means against, caused by centrifugal forces, radial falling out of the synchronous carrier body is secured.

Both embodiments can be easily mounted in an advantageous manner. Two embodiments of the invention are illustrated in the drawings and will be described below. Show it

1a . 1b an externally toothed synchronous carrier body with radial bores for a locking element in a perspective view.

2 the radial bore in section with a first embodiment of a locking element.

3 a housing of the locking element with detent ball in a perspective view.

4 the radial bore in section with a second embodiment of the locking element.

5 a housing of the locking element with hemisphere head in a perspective view.

6a the synchronous carrier body in section in a switching position of the sliding sleeve

6b the synchronous carrier body in section in a central position of the sliding sleeve

A synchronous carrier body 1 a synchronizer of a gearbox has a sprocket 2 with an external toothing 3 on. The sprocket 2 is on a hub 4 of the synchronizer carrier body 1 arranged. sprocket 2 and scar 4 can be made in one piece by the casting process. The synchronizer body 1 engages with the external teeth 3 in an internal toothing 6 a sliding sleeve 7 a, which is used to shift gear wheels, not shown, along the toothing 3 slidably arranged. In a switching position according to 6a grips the internal teeth 6 the sliding sleeve 7 in a toothing 15 a coupling body 20 of the gear wheel.

For locking the sliding sleeve 7 opposite the synchronizer carrier body 1 in the shift position or a center position is a locking means 8th provided, which in a recording 9 in the synchronous carrier body 1 is arranged and resilient in a Rastiernut 10 . 10a or 10b the sliding sleeve 7 can intervene. The sliding sleeve 7 preferably has three axially spaced apart within the internal toothing 6 the sliding sleeve 7 arranged Rastiernuten 10 . 10a . 10b on. To lock the sliding sleeve in the middle position (eg idle), the locking means engages in the detent groove 10 one. For locking the sliding sleeve 7 in a switching position engages the locking means 8th in the Rastiernut 10a or 10b one.

The recording 9 is as a radial bore in the sprocket 2 educated. Below the radial bore 9 is in the hub 4 a recess 11 provided, which is also the inclusion of the locking means 8th serves. The radial bore 9 has a smaller diameter D than a width B of the recess 11 , By this measure results at the lower end of the radial bore 9 a circumferential stop edge 12 ,

The locking means 8th comprises in a first embodiment according to 2 . 3 a pipe-like, cylindrical housing 13 , which is preferably a sheet metal part produced by means of forming technology.

The housing 13 points to an upper of the sliding sleeve 7 facing opening 14 a shelf 16 on that a narrowing of the opening 14 has, so that one inside the case 13 arranged spring-loaded detent ball 17 only partially from the opening 14 can emerge. One with a first end on the detent ball 17 acting compression spring 18 is at the bottom with her other end 19 the recess 11 supported.

The housing 13 , which in the locked state at the bottom 19 the recess is supported, has laterally resilient diametrically opposed lugs 21 . 22 on, the stop edge 12 reach behind and thus the housing 13 in the recording 9 lock. The noses 21 . 22 are formed by forming technology projections and thus part of the housing 13 ,

The locking means 8th comprises in a second embodiment according to the 4 . 5 a pipe-like cylindrical housing 23 , which is preferably a formed by forming sheet metal part.

The housing 23 has at its the sliding sleeve 7 facing a concave spherical cap 24 on, for snapping into the Rastiernuten 10 . 10a . 10b the sliding sleeve 7 radially displaceable in the radial bore 9 is arranged. One inside the case 23 provided compression spring 18 relies on the one hand on the convex spherical cap 24 and on the other hand at the bottom 19 the recess 11 from. The housing 23 has in the locked state with the locking groove 10 the sliding sleeve 7 a distance a to the ground 19 the recess 11 on and can against the force of the compression spring 18 so far in the radial hole 9 be moved until a lower edge 28 of the housing 23 at the bottom 19 strikes. Side diametrically opposite to the housing 23 arranged resilient noses 26 . 27 hit at the stop edge 12 and prevent a particular centrifugal forces caused by radial falling out of the housing 23 from the radial bore 9 ,

LIST OF REFERENCE NUMBERS

1

 Synchronous support body

2

 sprocket

3

External toothing ( 2 )

4

Hub ( 1 )

5

6

Internal toothing ( 7 )

7

 sliding sleeve

8th

 latching means

9

 radial bore

10

Rastiernut ( 7 )

10a

Rastiernut ( 7 )

10b

Rastiernut ( 7 )

11

 recess

12

 stop edge

13

 casing

14

Opening ( 13 )

15

Toothing ( 20 )

16

 Borde

17

 detent ball

18

 compression spring

19

Reason ( 11 )

20

 coupling support

21

Nose ( 13 )

22

Nose ( 13 )

23

 casing

24

 Convex spherical cap

25

26

Nose ( 23 )

27

Nose ( 23 )

28

Edge ( 23 )

A

Distance ( 23 / 28 )

D

Diameter ( 9 )

B

Width ( 11 )

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 102007031310 A1 [0004]
• DE 9408943 U [0005]
• DE 19917231 A1 [0006]

Claims (10)

Synchronous carrier body of a synchronizer for a transmission with an external toothing for torque transmission to a sliding sleeve and at least one receptacle for a spring-loaded locking means for fixing the sliding sleeve relative to the synchronous carrier body, characterized in that the receptacle ( 9 ) one in the sprocket ( 2 ) provided radial bore ( 9 ) and that at the radial bore ( 9 ) a stop edge ( 12 ) for fixing the locking means ( 8th ) in the radial bore ( 9 ) is provided. Synchronous carrier body according to claim 1, characterized in that below the radial bore ( 9 ) a recess ( 11 ) in the hub ( 4 ) of the synchronizer body ( 1 ) is provided. Synchronizer carrier body according to claim 2, characterized in that a diameter (D) of the radial bore ( 9 ) is smaller than a width (B) of the recess ( 11 ) and that at a radially inwardly facing end of the radial bore ( 9 ) the stop edge ( 12 ) is provided. Synchronous carrier body according to one of claims 1 to 3, characterized in that the latching means ( 8th ) a pipe-like cylindrical housing ( 13 ; 23 ) having. A synchronous support body according to claim 4, characterized in that in the housing ( 13 ) a detent ball ( 17 ) for centering the sliding sleeve ( 7 ) under the force of a compression spring ( 18 ) is slidably mounted. A synchronous support body according to claim 5, characterized in that the housing ( 13 ) a shelf ( 16 ) to secure the ball ( 17 ) against falling out of the housing ( 13 ) having. Synchronous carrier body according to one of claims 1 to 4, characterized in that the housing ( 23 ) under the force of a compression spring ( 18 ) in the radial bore ( 9 ) is displaceably mounted and a convex spherical cap ( 24 ) for centering and / or fixing the sliding sleeve ( 7 ) in a switching position. Synchronous carrier body according to one of claims 4 to 7, characterized in that the housing ( 13 ; 23 ) laterally diametrically opposite resilient noses ( 21 . 22 ; 26 . 27 ) having. Synchronous carrier body according to claim 8, characterized in that the lugs ( 21 . 22 ) the stop edge ( 12 ) while the housing ( 13 ) at the bottom of the recess ( 11 ) is supported. Synchronous carrier body according to claim 8, characterized in that a sliding path of the housing ( 23 ) in the radial bore ( 9 ) through the noses ( 26 . 27 ) at the stop edge ( 12 ) and through the bottom of the recess ( 11 ) is limited.

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