SU1196199A1 - Pneumatic device for angular positioning of bushings in press-fitting - Google Patents

Abstract

1. PNEUMATIC DEVICE FOR ANGULAR ORIENTATION OF SLEEVE WHEN REPLACING, containing a hollow stepped stem mounted at the base of a larger step with the possibility of axial movement, spring-loaded relative to the latter and made with through tangential holes in a smaller step, and placed in the stem and knitted with a red pin, wired in a smaller step, and placed in the stem and knitted in the smaller step, and placed in the smaller pin, and in the bundle of the knob. air hollow rod, characterized in that, in order to expand technological capabilities by ensuring the orientation of the sleeves with a radial groove at the end, it provides but placed in the cavity of the stem coaxially with the latter and axially spring-loaded sleeve with a two-arm lever pivotally mounted on the sleeve with the ability to swing around an axis perpendicular to the axis of the rod, one end of the two-arm lever is in the form of a wedge facing its bevel in the opposite direction the base, and the stem is made with diametrically located radial holes in which the ends of the two shoulders are placed. (L with O5 with so

Description

2. The device according to claim 1, characterized in that the hollow rod is made with radial holes in the zone of a smaller stem step, a support shoulder at the end from the larger step and fixed in the cavity of the latter by means of a threaded shank made at the other end of the rod and placed in a threaded hole made at the end of a smaller stem step, as well as nuts, a hollow stem is made at a smaller step with a partition having a tapered bore, and the stem with a tapered hole on the side surface corresponding to the tapered bore This partition opening, wherein the sleeve is provided with two projections diametrically disposed on the end face, in which fixed axis for mounting a two-armed lever and the spring constant set for the sleeve is less than the stiffness of the spring rod.

3. The device according to PP. 1 and 2, characterized in that the radial holes of the hollow rod are made in the zone of transition of its lesser degree to the larger one and have the shape of a rectangle with a width equal to the height of a two-armed lever and a height equal to the width of a two-armed lever, a larger stem step, equal to the height of the two shoulders, and the ends of the latter, located in the radial holes of the stem, are cylindrical with a diameter equal to the width of the holes.

one

The invention relates to mechanical assembly work, in particular to devices for connecting parts with tension.

The purpose of the invention is the expansion of technological capabilities by ensuring the orientation of the sleeves with a radial groove at the end.

FIG. 1 shows the proposed device, a longitudinal section; in fig. 2 shows section A-A in FIG. one; in fig. 3 shows a section BB in FIG. one; in fig. 4 shows a section B-B in FIG. 2; in fig. 5 is a section of YYD in FIG. one; in fig. 6 is a view of D in FIG. one; in fig. 7 is a diagram of the effects of a press sleeve on a double-arm lever.

The pneumatic device of the angular orientation of the sleeves when pressed in comprises a base 1, on which a hollow stepped rod 2 is installed, fixed in the angular direction with a finger 3. In a smaller step of the rod, a cavity 4 is made connected to a source of compressed air with a hollow rod 5, in which the zone 4 of the cavity of the smaller step of the rod 2 is made of radial holes 6. The hollow rod 5 is fixed in the cavity of the rod 2 by means of a threaded shank 7 and nuts 8 in a threaded hole on the end of the cavity 4. In the latter there is a feather A village 9, in which a conical hole 10 is made, and on the side surface of the hollow rod 5, a conical hole 11, corresponding to a conical hole 10. The stem 2 is spring-loaded relative to the base 1 by a spring 12. On the side of the larger stem 2, the hollow rod 5 is made with a support shoulder 13. One of the assembled parts — the plate 14 is centered along the orifice by a larger step of the rod 2. The pressed sleeve 15 is centered by the smaller

a step of the rod 2, on the surface of which the through tangential holes 16 are made, which naravleny in one direction and are located at equal distance from one another. Radial diametrically located holes 17 are made in the place where the smaller stage of the hollow rod 2 passes into the larger one in the walls of the hollow rod 2, which have a rectangular shape equal to the height of the double-arm lever 19 installed in the cavity of the rod 2 on the sleeve 18 and the same height as the double-arm lever 19. The sleeve 18 is spring-loaded spring 20 relative to the stem 2, and in the protrusions on the end of the sleeve 18 diametrically mounted axis 21 for installing a two-armed lever 19. The stiffness of the spring 20 is less than the rigidity of the spring 12. The ends of the two-armed lever 19, Between the walls, the holes 17 in the rod 2 are cylindrical and have a diameter equal to the width of the hole 17. One end of the two shoulders lever 19 protruding from the hole 17 in the rod 2 has a wedge shape to interact with the groove of the bushing 15, and the depth of the bushing 5 and 17 in the larger stage of the rod 2 is equal to the height of the two shoulders of the lever 19.

The installation of the two shoulders lever 19 is carried out as follows. Two shoulders lever 19 is threaded into the hole 17 in the rod 2 and rotated 90 °. For

 This areas of the lever 19, located between the walls of the hole 17 of the rod 2, is cylindrical. After that, the installation of the hollow rod 5 with the sleeve 18 and the springs 12 and 20 is carried out, then the axes 21 of rotation are mounted

two shoulders lever 19. Nuts 8 are tightened up to the stop of the thrust collar 13 into the base 1.

. The device works as follows. When installing the orientable sleeve 15 (Fig. 1) on the rod 2, the sleeve, under the influence of angular air jets flowing from the openings 16 (Fig. 3), begins to rotate in the angular direction. In the general case, the orientable sleeve 15 is mounted at the initial moment on the shoulders lever 19 (FIG. 1) in an arbitrary position. When the sleeve rotates, the radial groove during a certain period falls on the wedge surface of the two shoulders lever 19, after which the latter rotates and its wedge surface falls into the groove of the sleeve 15, thereby fixing it in the specified angular position (Fig. 6). In this case, the end of the lever with the wedge surface is installed above the flat end of the lever. In the initial period of movement of the pressing-down punch 22 downward, the sleeve 15, acting on both ends of the double-arm lever 19, moves the double-arm lever 19 and the spring-loaded sleeve 18 downward, compressing the spring 20. After touching the lower end of the flat end of the double-arm lever 19 with the lower edge of the radial holes 17 of rod 2 (point of contact)

A- A

21

FIG. g

in fig. 7) the further downward movement of the sleeve 15 leads to the creation of the moment Mg which turns the lever 19, the value of which depends on the distance e from the point

contact E to the point of contact of the flat end of the two shoulders lever 19 with the edge of the inner diameter of the sleeve 15, as well as the reaction of Q to the sleeve 15 of the compressible spring 20. Under the influence of the moment M of the end of the two shoulders lever 19 s

the wedge shape is withdrawn from the groove of the oriented sleeve 15, preventing it from accelerated wear. Since the depth of the radial hole 17 of the rod 2 h | on the centering section of the plate 14 is equal to the height h of the two shoulders lever 19 (Fig. 1), then with further movement of the sleeve 15 down, the lower end of the sleeve 15 begins to act on the collar of the rod 2, compressing the spring 12. The punch 22 moves the sleeve 15 down to the moment of pressing it into the hole of the plate 14. After moving the punch 22 to the extreme upper position of the spring 12 and 20, the device elements return to their original position, the assembled unit is removed, the next plate and sleeve are installed, and

the process is repeated.

6 - B

1e

fig-3

Fy

Claims (3)

1. PNEUMATIC SET SWITCH FOR ANGULAR ORIENTATION OF BUSHES WHEN PRESSING, containing a hollow stepped rod installed in the base with a larger stage with the possibility of axial movement, spring-loaded relative to the latter and made with through tangential holes in the lower stage, and placed in the rod and connected to the source of compressed air, a hollow rod, characterized in that, in order to expand technological capabilities by ensuring the orientation of the bushings with a radial groove at the end, it is equipped with a pc coaxial to the last and axially spring-loaded sleeve with a two-arm lever pivotally mounted on the sleeve with the possibility of swinging around an axis perpendicular to the axis of the rod, one end of the two-arm lever is made in the form of a wedge facing its bevels to the side opposite to the base, and the rod is made with diametrically opposite radial holes, which are placed _with the ends of the double-arm lever. S SO O СО СО> 2. The device according to π. 1, characterized in that the hollow rod is made with radial holes in the area of the lower stage of the rod, a support collar at the end from the side of the larger stage and fixed in the cavity of the latter by means of a threaded shank made on the other end of the rod and placed in the threaded holes made on the end of the smaller the step of the stem, as well as the nuts, the hollow stem is made in the lower step with a partition having a conical hole, and the rod with a conical girdle on the side surface corresponding to the conical hole of the per towns, the sleeve being provided with two projections diametrically disposed on the end face, to a fixed axis toryh for installing a two-armed lever and the spring constant set for the sleeve is less than the stiffness of the spring rod. 3. The device according to paragraphs. 1 and 2, characterized in that the radial holes of the hollow rod are made in the transition zone of its smaller step to the larger and have the shape of a rectangle with a width equal to the height of the two shoulders of the lever and a height equal to the width of the two shoulders of the lever, while the portion of the radial holes located in the larger the step of the rod is equal to the height of the two shoulders of the lever, and the ends of the latter located in the radial holes of the rod are cylindrical with a diameter equal to the width of the holes.