DE3736146C1 - Gearbox, particularly for motor vehicles - Google Patents

Abstract

A gearbox, particularly for motor vehicles, has a synchroniser which consists of a sliding-sleeve carrier fixed on the main shaft in the rotational and axial direction, a sliding sleeve arranged on the said carrier in a manner which prevents rotation but allows axial movement, and synchroniser rings actuated by the sliding sleeve. Also provided is a device for braking the gears mounted on the main shaft by means of braking elements subject to centrifugal force such that the braking action of the said braking elements decreases as the centrifugal force increases, the centrifugal force acting on the braking elements being dependent on the rotational speed of the main shaft. The braking elements are connected to the sliding-sleeve carrier or to the sliding sleeve in a manner which prevents rotation but allows radial movement, are in operative connection with the synchroniser rings and are spring-loaded in the direction of their operative connection with the synchroniser rings but in the opposite direction to the centrifugal force. A braking device of this kind for the gears mounted on the main shaft is distinguished, on the one hand, by low technical outlay and, on the other hand, by its space-saving design since it is integrated into the synchroniser. It ensures effective braking of the gears mounted on the main shaft such that both the so-called idling clatter and the so-called shut-off clatter are considerably reduced.

Description

The invention relates to a manual transmission according to the Preamble of claim 1.

A manual transmission of the aforementioned type is characterized by the DE-OS 31 37 205 become known. The braking serves here device for the gears mounted on the main shaft to reduce or avoid the transmission noise in the Idle, the so-called "idle rattling" that the Engine idling can occur more or less strongly. It is caused by the teeth of the Gear wheel pairs due to the presence between the teeth Game. Because that on the braking elements - the direction counter to their braking force - acting centrifugal force of the speed of the main shaft is dependent is reached that the braking effect on the gears essentially only is present when the vehicle is stationary and the idling Rattling is most unpleasant. On the other hand but in normal driving, the switching process or the synchronization by the braking device does not follow partly influenced.

The DE-OS is also a supplement to the prior art 19 33 877 called, which is also a synchronous gear for Motor vehicles concerns. There are about the same there representational elements as in the subject of DE-OS 31 37 205 dealt with above, namely centrifugal brake elements, synchronizer rings, Springs, gearshift sleeve and sleeve carrier. However, these will Means for solving one of the intentions of DE-OS 31 37 205 and exactly the opposite problem to the present invention matik used, namely, at high speeds a to cause more braking than at low speeds  and to generate no braking effect at standstill. The DE-OS 19 33 877 is therefore unable to make any further progress for the person skilled in the art in solving the background problem described at the beginning to show.

The object of the present invention is the technical Effort to brake the bearings on the main shaft Gears in the sense of a more advantageous solution to the entrance further reduce the background problem outlined.

According to the invention, the object is in a manual transmission of the genus identified at the beginning by the characterize in solved the part of claim 1 specified features.

According to the invention, the braking device is therefore constructive and no longer functionally (as with the subject of DE-OS 31 37 205) assigned to the gears to be braked themselves, but rather integrated into the synchronizing device. No special precautions are required on the gears conditions for braking to be provided. The Erfin This also applies to manual transmissions vehicles given the need for a space-saving concept tion very largely opposed.

A very advantageous one, particularly in the latter respect Embodiment of the invention can be found in claim 2.

Include further advantageous embodiments of the invention Claims 3 and 4. By the in the claim 3 mentioned features, it is advantageously possible with a only (from several wedge pieces in the shape of a segment of a circle existing) braking element simultaneously two side by side braked gear wheels on the main shaft.

First of all, the possibility is conceivable that radially support the compression springs directly on the gearshift sleeve. In this case, however, the would of the springs on the brake  element exerted pressure on the synchronizer rings during the entire switching process remain constant.

According to a preferred embodiment of the invention therefore alternatively the measure that can be taken from claim 5 men suggested. Ball and associated compression spring can expediently in one and the same radial Bore of the braking element arranged or guided radially be.

The advantage of this preferred variant is that the springs through the during the switching process over the Ball moving cams are relieved and thus the pressure of the brake which may hinder the switching process is taken from the synchronizer rings.

Further advantageous embodiments of the invention result themselves from claims 7 and 8.

To illustrate or explain the invention serve embodiments shown in the drawing and are described below. It shows  

Fig. 1 shows an embodiment of a gearbox in (partial) longitudinal section and

Fig. 2 shows another embodiment, in the representation corresponding to Fig. 1, but omitting some of the parts shown in Fig. 1.

In Fig. 1, 10 denotes the partially shown housing of a manual transmission for motor vehicles. In the housing 10 are - by means of ball bearings 11 or roller bearings 12 - a main shaft 13 and - in parallel - a secondary shaft 14 gela. On the main shaft 13 - by means of roller bearings 15, 16 and 17 - a plurality of gearwheels determining the gradation of the individual transmission gears are mounted, three of which are shown in FIG. 1 and numbered 18, 19 and 20 . In the shown embodiment, the gear 18 is assigned to the fifth gear and the gear 19 to the reverse gear of the transmission in question. The auxiliary shaft 14 driven by the motor has, as is customary in the case of such gearboxes, toothings which are in constant engagement with the gear wheels mounted on the main shaft 13 . For example, a toothing 21 meshes the secondary shaft 14 with the gear 20th A toothing 22 of the auxiliary shaft 14 is in engagement with the gear 18 responsible for the fifth gear. Between the toothing 21 of the auxiliary shaft 14 and the gear 19 determining the reverse gear on the main shaft 13 is - for the purpose of reversing the direction of rotation - yet another gear interposed, which is however outside the plane of the drawing and is therefore not apparent from Fig. 1 .

To transmit the power flow from the motor-driven countershaft 14 to the main shaft 13 , a synchronizing device is used, which is designated as a whole by 23 . The synchronizing device 23 is arranged between the gears 18 and 19 forming a pair of gears. Such synchronization devices can of course also be assigned to the other gear pairs of the main shaft 13 , which are not shown in detail. The synchronizing device 23 initially has a shift sleeve carrier 24 which is arranged on the main shaft 13 in a rotationally fixed and axially immovable manner. On the Schaltmuf fträger 24 and surrounding this on the outer circumference sits a 25 with a shift sleeve. This is non-rotatably connected to the shift sleeve carrier 24 , but movable in the axial direction relative to the latter. To actuate the shift sleeve 25 , as is generally customary and therefore not shown in detail, a shift fork is used which is actuated by a shift linkage 26 . The synchronizing device 23 further includes two synchronizing rings 27, 28 , one of which ( 27 ) is assigned to the gear 18 and the other ( 28 ) to the gear 19 . By axially actuating the shift sleeve 25 in one direction or the other, one of the synchronizer rings 27, 28 can be brought into frictional frictional connection with the relevant gearwheel ( 18 or 19 ), thereby initiating the actual switching operation.

Between the two synchronizer rings 27, 28 on the one hand and the shift sleeve carrier 24 and the shift sleeve 25 on the other hand, a cavity 29 extends in which a brake element, generally designated 30, is arranged. As can be seen in FIG. 1, the cross section of the braking element 30 is conical with a radially divergent cone angle. The brake element 30 is generally ring-shaped, but divides into several equal, preferably three, circular segment-shaped wedge pieces 31, 32 , which should have the greatest possible inertia. The brake element 30 or the individual wedge pieces 31, 32 of the same are rotatably connected to the shift sleeve carrier 24 or to the shift sleeve 25 , but movable in the radial direction with respect to these parts. The wedge pieces 31, 32 are held in operative connection with the synchronizing rings 27, 28 by means of radially arranged compression springs 33 . Due to their rotary connection with the shift sleeve carrier 24 or the shift sleeve 25 , the wedge pieces 31, 32 are subjected to centrifugal forces which are dependent on the speed of the main shaft 13 . When the main shaft 13 is stationary, that is to say in the idle state of the transmission, the wedge pieces 31, 32 are not subjected to centrifugal force. In this state, the pressure springs 33 can fully unfold their effect on the wedge pieces 31, 32 , that is, the synchronizer rings 27, 28 are pressurized by the wedge pieces 31, 32 . The synchronizer rings 27, 28 pass this pressure on the gears 18, 19 assigned to them, whereby these are braked so far that it can not come to the known annoying idle rattle of the teeth wheels.

The springs 33 and / or the inertia of the wedge pieces 31, 32 of the brake element 30 are expediently to be designed such that the synchronizer rings 27, 28 are completely depressurized in normal driving operation (for example at speeds of more than 40 km / h). As a result, energy losses, increased switching forces and additional wear can be avoided.

In the embodiment according to FIG. 2, the Synchronisiervor direction - here designated 23 a total - is arranged between a pair of gears formed by gears 20 and 34 . Here, the gear 20 is assigned to the first gear and the gear 34 to the second gear.

The synchronizing device 23 a is similar to the synchronizing device 23 of FIG. 1, so that here the corresponding parts with the same reference numerals as in Fig. 1, only supplemented by the letter a , are designated. Corresponding applies also with respect to the device in the Synchronisiervor 23 a integrated device for braking the toothed wheels 20, 34th

The difference from the embodiment of FIG. 1 is essentially that the wedge piece 32 a of the braking element 30 a is not pressurized to the same extent by the spring 33 a in each position of the shift sleeve 25 a . Because the Fe of 33 a is not supported directly on the shift sleeve 25 a , but rather indirectly via a ball 35 . On the inner circumference of the shift sleeve 25 a is further formed from a cam 36 which, in the neutral middle position shown (idle position) of the shift sleeve 25 a, acts on the ball 35 and thus also the compression spring 33 a . Only in this neutral center position of the shift sleeve 25 a can the braking element 30 a or its wedge pieces 32 a fold its braking action on the synchronizing rings 27 a , 28 a or on the gears assigned to them. If, on the other hand, the shift sleeve 25 a is brought out of the neutral position when shifting, the cam 36 moves over the ball 35 , and ball 35 and spring 33 a are relieved. Accordingly, the synchronizer rings 27 a , 28 a are relieved of the pressure of the wedge pieces 32 a , and the insertion of the gear concerned be thereby facilitated.

While in the embodiment according to FIG. 1 radially from the outside in the wedge pieces 31, 32 bores 37 are used for receiving the compression springs 33 , there is a further special feature of the embodiment according to FIG. 2 is that the longer version and 37 a numbered radial bores not only accommodate the compression springs 33 a , but also for maintenance and radial guidance of the balls 35 are provided.

The special measures described in connection with the embodiment according to FIG. 2 (loading of the pressure springs 33 a by cams 36 via balls 35 ) are particularly advantageous when the brake device in question between the gears of the first and second gear is arranged. Because when driving in the first and second gear, the rotational speed of the main shaft 13 is generally so low that the centrifugal forces acting on the wedge pieces 32 a of the braking element 30 a alone could not completely overcome the contact pressure of the compression springs 33 a . When driving in third or fourth gear, however, the main shaft 13 rotates at a correspondingly high speed, so that in this case the synchronizer rings are relieved solely by the action of the centrifugal forces exerted on the wedge pieces of the braking element against the spring action.

All in all, it succeeds through the invention illustrated in the drawing for example, with little effort to slow down the gears mounted on the main shaft 13 (e.g. 18, 19, 20 and 34 ) so that the transmission noise when the engine is idling (the so-called idle rattling) as well as the so-called shut-off rattling is effectively reduced.

Claims (8)

1.Manual gearbox, in particular for motor vehicles, with a synchronizing device which consists of a shift sleeve fixed on the main shaft in the rotational and axial directions, a non-rotatably but axially movably arranged shift sleeve and selector sleeve-actuated synchronizer rings, and with a device for braking the Gear wheels mounted on the main shaft by centrifugal braking elements, such that their braking effect decreases with increasing centrifugal force, the centrifugal force acting on the braking elements being dependent on the speed of the main shaft, characterized in that the braking elements ( 30, 30 a) with the shift sleeve carrier ( 24, 24 a) or with the shift sleeve ( 25, 25 a) rotatably but radially movable Lich connected, and that the braking elements ( 30, 30 a) with increasing speed against one on the axis of the main shaft ( 13 ) directed spring force ( 33 ) a loosening of the frictional engagement between the gears ( 18, 19; 20, 34 ) and the synchronizer rings ( 27, 28; 27 a , 28 a) effect. 2. Manual transmission according to claim 1, characterized in that the braking element ( 30, 30 a) in a between the shift sleeve ( 25, 25 a) and Schaltmuf fträger ( 24, 24 a) extending radial space ( 29 ) arranged and radially from the outside is acted upon by compression springs ( 33, 33 a) which are supported backwards on the shift sleeve ( 25, 25 a) . 3. Manual transmission according to claim 1 or 2, characterized in that the braking element ( 30, 30 a) consists of circular segment-shaped wedge pieces ( 31, 32; 32 a) which are conically divergent in their cross-section from the inside to the outside, axially between the two sides Synchronizer rings ( 27, 28; 27 a , 28 a) are arranged such that the conical surfaces of the wedge pieces are in contact with the synchronizer rings. 4. Gearbox according to claim 2 or 3, characterized in that the compression springs (33, 33 a) engaged in radial bores (37, 37 a) of the braking element (30, 30 a). 5. Manual transmission according to claim 2, 3 or 4, characterized in that the compression springs ( 33 a) are each supported indirectly via a ball ( 35 ) on the shift sleeve ( 25 a) radially and that the ball ( 35 ) by one at the Shift sleeve ( 25 a) trained cam ( 36 ) can be actuated such that the compression spring ( 33 a) in neutral neutral position (idle position) of the shift sleeve ( 25 a) by cams ( 36 ) and ball ( 35 ) held under tension and in the switching position the shift sleeve ( 25 a) is relieved ( Fig. 2). 6. Manual transmission according to claim 4 and 5, characterized in that the ball ( 35 ) and associated compression spring ( 33 a) in one and the same radial bore ( 37 a) of the braking element ( 30 a) are arranged or guided radially. 7. Manual transmission according to one or more of the preceding claims, characterized in that the braking element ( 30, 30 a) consists of at least two, preferably three circular segment-shaped wedge pieces ( 31, 32; 32 a) with the greatest possible inertia. 8. Manual transmission according to one or more of the preceding claims, characterized in that the braking device ( 30 a , 32 a , 33 a , 35, 36 ) at least in the synchronizing device ( 23 a) is hen for the first and second gears ( Fig. 2).