SU744158A1 - Apparatus for changing eccentricity of rotating shaft - Google Patents

Description

FIG. I schematically depicts the proposed device, a longitudinal section; ; w figs. 2 shows section A-A in FIG. one.

The device consists of a shaft / mounted in housing 2 on two bearings 3. On the middle part of the shaft / the eccentric neck is machined. The magnitude of its eccentricity relative to the seats for bearings 3, i.e., relative to the axis of rotation of the shaft L is e. A boring is made inside the shaft 1 coaxially with its eccentric neck. On the eccentric neck of the hall /. Two through (to the inside boring) screw grooves, offset one (by 180 ° relative to the other in the circumferential direction) are cut through. The shaft / is set along the moving fit, the plunger 4 and the control rod 5. The plunger 4 its internal | morning thread is connected to the protruding threaded part of the regulating ffflTO.xa 5. When installed, it will turn into a shaft bore / thread between them, raiK that the plunger has the ability rotate relative to the regulating rod it is less than D turn in both directions without breaking the threaded connection.

In the regulating rod 5, a key 6 is installed, securing it from turning in the bore of the shaft /, where there is a corresponding keyway, the length of which allows the regulating rod to move not less than D Proximity Screw; Nova SCREW LINE: at the shaft /. A ball bearing 7 is fixed at the end of the regulating rod 5. The mounting seat under it is made eccentric with the cylindrical surface of the regulating rod 5 entering the shaft bore /. Vel; the eccentricity is equal to e, i.e., the same as the shaft bore / relative to the axis of its dropping. The arrangement of the key grooves for the spindle 6 in the shaft / and the regs of the regulating rod 5 is chosen so that the eccentricities of the bearing seat on the regulating rod 5 relative to its cylindrical surface located in the bore of the shaft 1 and the bore in the shaft / relative to its axis of rotation are directed diametrically opposite. Since an overlap (om. Of Fig. 1), if the bore eccentricity in the shaft, / is located below from its rotation, the eccentricity of the seat under the bearing on the control rod 5 is located above the axis of its cylindrical surface, located in the bore of the shaft /. This achieves the fact that the axis of the bearing 7 is always located on the axis of rotation of the shaft 7. .. On the outer ring of the bearing 7 there is a holder 8 secured to which the rods 9 and 10 (see Fig. 2) are welded, directed radially and passing through the screw

the grooves cut in a glass of a special cover and the bearing. The rod 9 of the ball is “irregularly connected to the thrust 12, and“ and the rod 10 is fixed to the counterweight 13. On the eccentric shaft neck / mounted on the movable fit there is an eccentric sleeve M. The axis of its hole is offset relative to the axis of the nasal seat under the bearing 15 by the value e.

In the hole e (xcentric sleeve 14, there are two screw slots offset OL1IN with respect to the other in the circumferential direction by 180 °. The elevation angle of the helical screw of these slots is taken the same as

for screw grooves on the eccentric shaft neck / (in principle, it can be received and).

The direction of the screw lines of these grooves is opposite: if the screw grooves

If the head has a right direction, the grooves of the eccentric sleeve 14 should have a left, and vice versa.

The pin 16 passes through both through-threading grooves in the shaft / and the hole in the plunger 4, its ends fit into the blue grooves in the eccentric sleeve 14. The length of the screw-in grooves in the shaft / is adopted such that the pin 16 can move on / 4 the helix stroke etthich

the slots to turn with the D circle. For this, the distance between the extreme positon of the milling cutter (its diameter is equal to the aptifier's d-cam 16) when cutting the external grooves must be equal to / 4 ho. E | lntoe: .. x. The lines of these lines. The helical grooves in the eccentric sleeve 14, according to the process, all considerations are carried out along its entire length, and the length of this sleeve is taken at least D of the stroke of the helical pin (otherwise, the PS pin 16 is displaced by the required amount).

The second eccentric neck of the shaft is formed with the help of

The eccentric bushing / 7 is fastened thereto by the key 18 and the nut 19 and through the pulley 20, the inner ring of one of the bearings 3, the sleeve 21 and the washer 22 presses IK on the end of the eccentric neck on the shaft /.

The eccentric sleeve 17 has the same eccentricity value e, as in the eccentric shaft journal /, and its direction pa, is offset along the circumference relative to the Eccentricity of this neck. FIG. / only one eccentric bushing 17 is depicted, and the eccentricity lee is offset by 180 °. If there are two such sleeves, then the displacement is composed (it is 120 °, and at three - 90 °

Claims (1)

etc. On the eccentric bushing 17, an eccentric bushing 23 having the same eccentricity e is mounted on the friend’s mobile landing. In the axial direction, it is fixed with a washer 22 along with the bearing 24 mounted on it. The eccentric bushing 14 and 23 are in contact with each other flange | M. And: on the flange of the sleeve 14 zak.renlen oklets 25, which enters the radial groove on the flange of the sleeve 23, and vice versa, the same finger attached to the flange of the sleeve 23, enters the radial groove on the flange of the sleeve 14. Device Predna; 31na142no for mezzlelen bushings 15 and 23 relative to the axis of rotation of the shaft. Eccentrically located bearings serve to drive various mechanisms depending on the application of the proposed device. For example, in pulsed variators they serve to drive rockers in swinging motion, in plunger pumps C (with adjustable performance to drive reciprocating plungers. The proposed device works as follows: Shaft 7 is driven by rotation of pulley 20 and axle pin 16, which passes through its screw grooves, carries the eccentric bushing 14 with the bearing 15. The eccentric bushing 14 through the radial groove located on its flange and the Lalec 25, which engage with a similar finger and radial hole in the flange of the eccentric bushing 23, leads for .co (the last one together with a binder 24. In the Fig. 1 shows the position of the mechanism, the axis of the eccentric cervix on the shaft (located below its axis), rotates and the external surface axis of the eccentric sleeve 14 (on which the bearing 15 is mounted) is located above the axis of its bore. Since the eccentric shaft journal .1 and the eccentric sleeve 14 have the same eccentricity value e, in this position the axis of the outer surface of the eccentric sleeve 14 is on the axis of rotation of the shaft and the eccentricity of the bearing 15 is zero. The second eccentric sleeve 23 with the bearing 24 is also in this position. The bearings 15 and 24 are displaced from the axis of rotation of the shaft /, i.e. they are transferred to an eccentric position, produced by rotating the sleeve 14 on the eccentric shaft neck / (from the position shown in Fig. 2). In this case, the axis of its outer surface is displaced from the axis of rotation of the shaft 1 and the eccentricity of the spindle 15 increases. Together with the sleeve 14, the sleeve 23 also rotates at the same angle, which is coupled to it by means of radial grooves located in their flanges and the fingers 25 included in them. Since the eccentric sleeves 14 and 23 have the same eccentricities and rotate to the same angle, respectively, on the eccentric shaft cheek / and eccentric sleeve 17, which also have the same eccentricities but are equally biased in the circumferential direction (in this particular case 1 With two supports 15 and 24 by 180 °), itelno axis of rotation of the shaft 1 at all times equal to the eccentricity of the bearing 15 n ravnosmeschen relative thereto in the circumferential direction. The maximum value equal to 2E, the eccentricities of the bearings 15 and 24 is achieved by rotating the eccentric bushing 180 °. When the eccentric sleeves 14 and 23 are rotated, the distance between the axles 1 and the fingers 25 fixed on their flanges 25 changes. Performing a radial groove on each flange under the corresponding finger 25 allows the latter to move freely in the radial direction and at the same time provides a constant rigid coupling between eccentric sleeves 14 and 23 in circumferential direction. The rotation of the eccentric sleeve 14 from the position of the zero eccentricity (see Fig. 2) is carried out by moving the rod 12 downwards, which rotates the rod 9 and moves it to the right from the leftmost position positioned by it and zero eccentricity. Moving the pin 16 into the screw grooves of the shaft / consists of two movements: rotational around the axis of the shaft and translational along the axis. When the pin 16 is rotated, its protruding ends, which are included in the screw grooves of the eccentric sleeve 14, turn it along with them to the same angle. During the forward movement of the pin 16, its ends slide along the screw grooves in the eccentric sleeve 14 and rotate it by an additional angle. Since the helixes of these grooves have the opposite direction to the helical grooves in the shaft 1, both turns of the eccentric sleeve 14 (together with the pin 16 and relative to this shift) are folded. If the screw grooves in the eccentric sleeve 14 have the same helix stroke value as in the screw shaft shaft 1, then the angle of rotation of this sleeve is equal to twice the angle of rotation of the pin 16. By turning the eccentric sleeve 14 by 1-80 °, the pin 16 should turn half of this angle, i.e., by 90 °, which corresponds to the axial movement of the regulating rod 5 by / 4 the magnitude of the stroke of the screw grooves in the shaft 1. The invention The device for changing the eccentricity of the rotating shaft, containing a cord with a shaft installed in it, havingOn the shaft, in place of its axial bore, an intermediate eccentric and a working eccentric with a flange, as well as having a mechanism for installing eccentrics, required position, characterized by the fact that in order to install several shaft eccentricities, while reducing overall dimensions and improving the condition of operation, they are provided with less than one additional working eccentric located at the required angle relative to the previous one and connected With the help of fingers fixed on the flap of the previous working eccentric and entering the radial groove of the subsequent eccentric, and the mechanism for setting the eccentrics into the desired position is made in the form of a plunger screwed onto the screw protrusion of the adjustable rod with the possibility of rotation relative to the shaft. no less than / 4 turns in both directions, while the pre-warning eccentric is rigidly connected to the shaft, and connected to the slide by means of a sliding SPEAKER and has two through diametrically arranged BINT treads, in which A pin passes through the middle part of which the IB hole of the plunger is located, and its ends fit into the grooves in the working eccentric and are also screwed with the direction of the turns opposite to the direction of the turns of the screw groove of the additional eccentric, and the eccentrics set to the required position when turning the plunger rod, the outer end of which has a protrusion in the form of a crank with an eccentricity equal to the eccentricities of eccentrics and located in a rolling bearing installed inside a hundred ana rigidly associated with the control levers extending within the bore of the stationary cover attached to the housing. The source of information taken into account during the experiment: 1. USSR Copyright Certificate No. 336437, “L. F 16 C 3/28. 1967.  / / / 5% fcsi: s 7 / IT. 2S .one f