DE3611568C2 - - Google Patents

Description

The invention relates to an adjustment gear according to the upper Concept of claim 1.

Such an adjustment gear is the subject of the main patents 35 19 055. The one camp effect is wobbling ent of the worm wheel against the pinion part ent against; the outer circumference of the bearing collar makes a comparison for the immediate rotary mounting of the drive pinion in the Housing opening a diameter enlarged swivel area, which means less wear and more reliable Function of this depository entails.

The invention has for its object in a Ver actuator of the type mentioned the Taumelbe to reduce the movement of the worm wheel.

The measures of the Kenn character of claim 1 proposed. The danger of Wobble of the worm wheel is measured by this measure  take still significantly reduced, so that the poss Lichity according to claim 4 results, the worm wheel full to constantly train from plastic. That with the main patent provided core part made of metal can now achieved increased mechanical stability of the arrangement omitted. Finally, the second camp improved in Comparison to the immediate storage of the pinion part in the corresponding warehouse opening also the function of this Pivot bearing.

With the main patent, the gearing of the bearing is removed cut from the partially twisted pinion toothing educated. To the additional cost of turning off avoid the measures of claim 2 are featured beat.

The overall increased mechanical stability of the arrangement tion allows the worm wheel according to claim 3 to spray the bearing section. Accordingly raise The result is a reduction in manufacturing costs.

The invention is illustrated below with the only Figure explained in a preferred embodiment.

The seat adjustment gear 10 shown in simplified form in the figure is part of a longitudinal adjustment of the seat. One of the two parts to be adjusted against each other, e.g. B. attached to the motor vehicle floor, dashed lines in the figure indicated rack 12 cooperates with a pinion part 14 , which in turn is rotatably connected to a worm wheel 16 . The pinion part 14 and with it the worm wheel 16 are rotatably mounted in a housing, more precisely, in one bearing opening 18 or 20 of two housing walls 22 or 24 on both sides of the worm wheel 16 . A motor-driven worm 28, indicated by broken lines, engages in the circumferential toothing 26 of the worm wheel 16 .

The pinion part 14 is divided into a pinion toothing section 30 , on which the rack 12 engages, a bearing section 32 , on which the worm wheel 16 is sprayed on, and a connecting shaft section 34 , onto which a tubular shaft 36 , indicated by dashed lines, can be plugged, which is the transmission 10 connects to a corresponding gear arranged on the other side of the seat. The two sections 30 and 32 are provided with a continuous, stepless external toothing 38 ; engages in the external toothing of section 30 , as already mentioned, the rack 12 ; the external toothing 38 of the section 32 is extrusion-coated to form the worm wheel 16 , so that there is an intimate, rotationally fixed connection between the pinion part 14 and the worm wheel 16 . The connecting shaft section 34 is compared to the sections from 30 and 32 reduced in diameter and provided with a knurling 40 for rotationally fixed connection with the attached connecting shaft 36th The pinion part 14 is formed in one piece and can be formed both by a rotating part and by a sintered or fine cast body.

The substantially circular-plate-shaped worm wheel 16 far on its two faces perpendicular to the axis 42 each have a cylindrical bearing collar 44 and 46 , with which the worm wheel 16 is rotatably mounted in the two bearing openings 18 and 20 . The worm wheel 16 together with the two bearing collars 44, 46 is sprayed onto the bearing section 32 of the pinion part 14 ; can be seen in Fig. 1, the resultant, in union union T-shaped cross section of the worm wheel 16 with the plane 42 containing the plane of intersection. The worm wheel 16 is continuously formed from plastic, so that the insert (core part) provided in the main patent 30 19 055 made of sheet metal and the pressing of the pinion into this insert can be omitted. The sprayed worm wheel 16 can run with high manufacturing accuracy. The bearing section 32 has the same toothing shape as the pinion toothing section 30 ; a partial twisting off of the pinion toothing, as with the main patent, is no longer necessary; there is also a highly resilient interlocking connection between the pinion part 14 and worm wheel 16 . Due to the high manufacturing accuracy, there is a low-wear and low-noise engagement between worm 28 and worm wheel 16 and between pinion part 14 and toothed rack 12th

To reduce the friction and bearing wear, a bearing sleeve 52, 54 can be used with the L-shaped cross section between the cylindrical outer circumference 48 or 50 of the collar 44 or 46 and the corresponding inner circumference of the bearing opening 18 or 20 . Depending on the choice of material, the bearing sleeve is connected to the worm wheel or to the corresponding housing wall in a rotationally fixed manner. The then formed from the outer circumference or inner circumference of the bearing sleeve bearing surface of both rotary bearings has a correspondingly enlarged diameter compared to the pinion part diameter. This ensures high run-out accuracy of the two rotary bearings with reduced friction and wear. Due to essentially the same diameter of the two bearing surfaces on both sides of the worm wheel 16 , the behavior of both bearing points is the same even under increased load, which in turn contributes to precise running and increased stability.

The adjustment mechanism 10 described above can be used in the context of a seat adjustment with appropriate Ge gear reduction for a seat inclination adjustment or for a headrest height adjustment. It is also conceivable to use other Verstellge drives, such as. B. Window regulator gearboxes, inside the vehicle.

Claims (4)

1. adjusting mechanism, in particular seat-adjusting, gelager th in a motor vehicle, comprising in a housing (22, 24), a molded worm wheel having worm wheel (16) and a pinion member (14), wherein the worm wheel (16) with a adjoining a serration section ( 30 ) of the pinion part ( 14 ), a bearing opening ( 18 ) through a set, serrated bearing section ( 32 ) of the pinion part ( 14 ) rigidly connected and with an axially unilaterally projecting bearing section ( 32 ) of the pinion part ( 14 ) surround the bearing collar ( 44 ), which is rotatably mounted in a bearing opening ( 18 ) of the housing ( 22, 24 ), according to the patent 35 19 055, characterized in that the worm wheel ( 16 ) with another, axially projecting in the other direction, the bearing section ( 32 ) of the pinion part ( 14 ) encompassing the bearing collar ( 46 ) which is rotatable in a further bearing opening of the housing ( 22, 24 ) is stored. 2. Adjusting gear according to claim 1, characterized in that the toothing ( 38 ) of the bearing section ( 32 ) is a continuous continuation of the toothing ( 38 ) of the pinion toothing section ( 30 ). 3. Adjustment gear according to claim 1 or 2, characterized in that the worm wheel ( 16 ) is sprayed onto the bearing section ( 32 ). 4. Adjustment gear according to claim 3, characterized in that the worm wheel ( 16 ) is made entirely of plastic.