CS266642B1 - Shifting mechanism for gearboxes - Google Patents

Abstract

The solution concerns the field of gearboxes with shiftable gears and solves the problem combining the locking device stone and gear bar locking device a removing the shift bar machining in connection with locking recesses and shifters protrusions. The essence of the solution lies in that the securing stone is arranged against the locking depression and the locking member engages into the through hole in the belay wall of the stone, wherein in the locking member a latching element engaging with it is resiliently mounted always in one of the locking recesses. The solution is usable in all fields, where geared gearboxes are used gearboxes, especially gearboxes for motor vehicles.

Description

The invention relates to a gearshift mechanism for gearboxes, the rotatable and sliding shift rod engaging via teeth and grooves optionally with one of the shift elements and the other shift elements engaging a safety stone mounted on the shift rod and provided with a circumferential recess into which the locking member engages. the rod is provided with locking recesses into which the locking element alternately engages.

In known gear shift mechanisms, the locking of the safety stone against shifting is performed by a locking member which engages in the circumferential recess of the safety stone. Locking recesses are arranged separately elsewhere in the shift rod, into which the locking element alternately engages. This locks the gears engaged and neutral. The disadvantage of this arrangement is the need to make two openings in the gearbox housing for the locking member of the safety stone and for the locking element of the shift rod.

Another disadvantage is that the locking recess must be formed on the shift rod by machining it. The same applies to the shift lugs of the rod.

The object of the invention is to combine a device for blocking a securing stone and a device for locking a shift rod and to eliminate the machining of the shift rod in connection with the locking recesses and the shift projections.

This object is achieved in a gearshift mechanism for gearboxes in which the rotary and sliding shift rod engages via teeth and grooves optionally with one of the shift elements and the other shift elements engage in a safety stone mounted on the shift rod and provided with a circumferential recess into which the locking member engages. wherein the shift rod is provided with locking recesses into which the locking element alternately engages, according to the invention in that the locking stone is arranged against the locking recesses and the locking member engages in a through hole in the wall of the locking stone, the locking member being resiliently mounted into one of the locking recesses. The locking recesses can be formed on a shifting stone which is detachably mounted on the shifting rod and which further comprises two shifting projections, between which one of the shifting elements in each case extends with its tooth. The shifting stone is provided with at least one longitudinal protrusion, which is slidably mounted in the longitudinal groove of the securing stone.

In addition to the advantages deriving directly from the object of the invention, the shift mechanism according to the invention forms a compact, simple and reliable device. The advantage is also the possibility to make the shift stone as a sintered part or a precise casting without the need for further processing.

An example of a shift mechanism according to the invention is shown in the drawing, where Fig. 1 shows the shift mechanism in cross section, Fig. 2 in a view perpendicular to the axis of the shift rod with a partial section.

The shift mechanism comprises a rotatable and a sliding shift rod JL, which is housed in a gearbox housing 23. A shift stone 2 is mounted on the shift rod 1 and is detachably connected to it by a transversely arranged pin 10. A first shift element 4 and a second shift element 5 are slidably mounted on the shift rod 5. These shift elements 4 and 5 are formed in the form of forks which move clutches not shown for 1st, 2nd, 3rd and 4th gear. The third gear element 6 for the 5th gear and the reverse gear is connected to a rod 16, which is slidably but non-rotatably mounted in the gearbox housing 23. In this case, a fork 17 arranged on the rod 16 is provided for shifting the 5th gear, and a mechanism not specified in more detail, cooperating with the third shifting element fi, is provided for shifting the reverse gear.

The shift stone 2 is provided with a first shift projection 21 and a second shift projection 22. The groove 15 between these projections 21, 22 extends according to the rotation of the shift rod 1, in each case one of the teeth 42, 5, 6 'of the shift elements 5, 6. 2 is further provided with longitudinal projections 11 which are slidable in the longitudinal grooves 24 of the securing stone 3, which is mounted on the gear stone 2. The securing stone 3 has the shape of a housing with a longitudinal interruption 17, in which

CS 266 642 B1 3 there are shift projections 21, 22 of the shift stone 2. The breaker stone 3 is further provided with a breaker groove 18, which is perpendicular to the longitudinal interruption 19 and into which the two of the teeth 4 ', 5' always extend. 6 'of the shifting elements 4, 5, 6, which are not located in the groove 15 between the shifting projections 21, 22 of the shifting stone 2.

A through hole 20 is further formed in the wall of the securing stone 6, which has a shape elongated in the circumferential direction of the securing stone 6 and through which a locking member 6 fixedly housed in the gearbox housing 23 passes. In the locking member £, a locking element £ is placed, pressed by a spring £ into one of the locking recesses 12, 13, 14 on the shift stone 2. The first locking recess 12 is intended to lock the basic position (neutral), the second locking recess 13 is intended to lock the transmission steps engaged by the shift of the shift rod £ to the right from the basic position (in the sense of Fig. 2) and a third locking recess 14 for locking the gear stages engaged by the shift of the shift rod £ to the left from the basic position.

The shift rod £ is in the basic position (neutral) when the locking element £ extends into the first locking recess 12 on the shift stone 2. This position of the shift rod £ allows it to rotate in both directions. When it is rotated, the shift stone 2 and the safety stone £ are also rotated. The actual shifting of the gears is carried out by moving the shift rod £ to the left or to the right (in the sense of FIG. 2) after its previous rotation. For example, when the shift rod 6 is moved to the right, the locking element 8 engages in the second locking recess 13 and the shift stone 2 moves, for example, the first shift element 4 via its tooth 4 'located in the groove 15 between the shift projections 21, 22 of the shift stone 2 (according to the previous rotation of the shift rod £). The teeth 5 ', 6' of the remaining gear elements £, £ are located in the safety groove 18 of the safety stone £, thus securing them against displacement.

The shifting of the other gears takes place in a similar way, ie first by the corresponding rotation of the shift rod £ and then by its displacement in the selected direction. The movement of the shift rod £ is controlled by a shift lever (not shown).

The shifting mechanism according to the invention enables reliable shifting of the gears, their securing after engagement, while the securing stone £ secures the engaged, resp. unshifted shift elements against displacement and allows in any rotated position of the shift rod £ to move only one of the shift elements £, £, £.

Claims (3)

OBJECT OF THE INVENTION 1. A gearshift mechanism for gearboxes, the rotatable and sliding shift rod of which engages via teeth and grooves optionally with one of the shift elements and the other shift elements engage in a securing stone mounted on the shift rod and provided with a circumferential recess into which the locking member engages. is provided with locking recesses into which the locking element alternately engages, characterized in that the securing stone (3) is arranged against the locking recesses (12, 13, 14) and the locking member (7) extends into the through hole (20) in the wall of the securing stone (3), wherein a locking element (8) is resiliently mounted in the locking member (7), in each case extending into one of the locking recesses (12, 13, 14). 2. A shift mechanism according to claim 1, characterized in that the locking recesses (12, 13, 14) are formed on a shift stone (2) which is detachably mounted on the shift rod (1) and which further comprises two shift projections (21, 21). 22), between which one of the shifting elements (4, 5, 6) in each case extends with its tooth (4, 5 ', 6'). 3. A shift mechanism according to claim 2, characterized in that the shift stone (2) is provided with at least one longitudinal projection (11) which is slidably mounted in the longitudinal groove (24) of the securing stone (3).