DE497368C - Wedge gear for the axial adjustment of shafts or the like. - Google Patents

Description

Wedge gear for the axial adjustment of shafts o. The like. The invention forms a gear to achieve a straight forward and backward movement of shafts, Lifting spindles or the like, which can be driven by hand or by a motor. the Axial movement of the shaft, lifting spindle or the like. Is made by two rows of superimposed Wedges obtained, of which always: one of a row between two of the opposite row takes place with the interposition of roles. The movement against each other of these ranks of wedge bodies generate a stroke that is transmitted to the shaft or the like.

The drawing illustrates the transmission according to the invention in an exemplary manner Execution. Fig. I is a vertical section along line i-i of Fig. 3 and Fig. 2 a Side view and a partial section along line 2-2 of Fig. 3. Fig. 3 represents a plan view and a partial section along line 3-3 of Fig. i and Fig. q. a section along line 4-q. Fig. i. Fig. 5 shows a detail partially in elevation and partly in section along line 5-5 of Fig. 3.

The housing io is closed at the ends by means of pressure plates i i, which are provided with radial slots 12 (Fig. i and 3). Vertical rods 13 extend through the slots 12 and through arcuate slots 14 in panels 15. To reduce the friction of the rods 13 in the slots, wear them on the in the slots 12 reaching part rollers 16 and on the part reaching into the slots 14 Part rollers 17. Between the rollers 16; 17 is a spacing sleeve 18 provided.

A ten wheel 19 or 29 (Figs. I, 2 and 3) is seated on each plate 15 and engages in gear wheels 2o and 28 , which are seated on continuous shafts 21, which are mounted in the cover plates ii. A shaft piece 22 (Fig. 5), which is mounted in the upper cover plate ii, carries a gear 23 which is in the toothing 2q. the top plate i5 engages (Fig. 3 and 5). The shaft piece 22 is driven by means of a ratchet gear, which is through. a Hebe125 can be operated. The switching pawl 27 engages in the ratchet wheel 26 seated on the shaft piece 22. By actuating the lever 25, the upper plate 5 is rotated, the arcuate slots 14 of the plate cause the rods 13 to move towards or from one another. The drive of the upper plate 15 is transmitted to the lower one by means of the wheels i 9, 2o, the shafts zi and the wheels 28 and 29.

A reciprocating shaft 31 or spindle carries on the top At the end of a plate 32 and at the lower end a guide block 33, which has guide lugs 34 is provided (Fig. 2 and q.), Which io in guide grooves 35 of the housing body to grab. Between the guide block 33 and the upper cover plate i i are wedge bodies 36 are provided, each of which has inclined lifting surfaces 37. The wedge bodies 36 have at the ends stops 38. In the wedge bodies 36 store rollers 39, which with the rods 13 are in contact and thus reducing the friction of the wedge bodies. A roller 4o is arranged between each two successive wedge bodies 36, the outer distal ends 41 of which engage in the guide grooves 35 (Figs. i and 4). All wedge bodies_36 above the guide block 33 are on the upper and lower Provided the side with a lifting surface, except for the top and bottom wedge bodies, d te only have a lifting surface on one side, namely the inner side. With the outer side, the wedge bodies are supported against rollers 42 and 43.

When the rods 13 move against each other, the rollers 40 reach the inner, rising part of the lifting surfaces 37 and press the shaft 31 downwards by means of the wedge bodies 36; so there :! the plate 32 is approaching the cover plate 30. The reverse movement is achieved when the rods 13 move away from each other.

Between the guide block 33 and the lower cover plate i i are Wedge body 44 of inz essence the same shape as the wedge body 36 arranged, only the inclination of the lifting surfaces 45 of this wedge body is directed in the opposite direction as that of the lifting surfaces 37. When the rods 13 are moved against each other .. arrive the rollers 4o on the sloping part of the 'lifting surfaces 45. Through this training = the wedge body is' the shaft 31 in both directions of movement directly from the wedge bodies moved in one direction from the wedge bodies 36 and in the other direction of the wedge bodies 44. The two outermost wedge bodies 44 of the lower group have a flat outside with which they act against rollers 46 and 47.

The device enables the implementation of the oscillating back and forth Movement of the lever 25 in a straight forward or backward movement of the shaft or Spindle 31, which z. B. can be used for hoisting winches or other purposes. With your; Piston 31 can also be connected to a crank and its movement in another Way to be exploited.

Claims (4)

PATENT CLAIMS: i. Gear to achieve a straight forward or return movement of shafts, lifting spindles or the like., characterized in that two Rows of superimposed wedge bodies, one of which is always one of the rows engages between two of the opposite row with the interposition of roles by moving generate a stroke against each other, which shifts the part to be moved in a straight line. 2. Transmission according to claim i, characterized in that each row of wedge bodies (36 or 44) is arranged displaceably on a common support rod (13) and the support rods are given a movement transverse to the shaft (31) to be driven. 3. Transmission according to claim i, characterized in that! two groups of two each. Rows of wedge bodies (36 and 44) are provided one behind the other, their lifting surfaces (37 and 45) run in the opposite direction so that one is between the two Groups switched approach (33) of the part to be moved back and forth (31) in each Direction is positively driven. 4. Transmission according to claims i and 2, characterized in that the movement of the support rods (13) of the lifting bodies (36 or 44) transversely to the shaft to be driven (31) by means of rotatable cam disks (15) takes place, through whose slots (14) engage the radially guided support rods (13).