SU1632764A2 - Device for initial turning-in of studs - Google Patents

Abstract

The invention relates to the field of mechanical engineering, in particular to mechanized devices for making studs, and can be used in various fields of engineering. The purpose of the invention 75 is to improve the efficiency and protect the thread of the stud from damage. When the disk pack 5 is rotated by the action of centrifugal forces, the gripping cams 9 grip the pin 3 along an uncut surface, and the ends of the 16 push levers rest against its end. The rotation (screwing in) of the studs 3 will stop as soon as the frictional forces in the thread exceed the centrifugal forces acting on the levers 8 with the weights 10, and the exciting cams 9 begin to slip. The supply of working fluid (air) is stopped, and the package of disks 5 is stopped, the gripping cams 9 are pulled away by springs, and the ends of the 16 push levers 15 are loaded by springs 14. The stud 3 is released. 3 il sl s Och with hO VI a N y

Description

The invention relates to mechanical engineering, in particular to mechanized devices for making studs, can be used in various fields of engineering, and is an improvement of the invention according to the author. No. 846260.

The purpose of the invention is to increase the work efficiency by creating an axial force on the stud and protecting the stud thread from damage by providing a joint axial movement of the stud and gripping cams.

FIG. 1 shows a device for making studs, general view; figure 2 - section aa in figure 1; on fig.Z - section bb in figure 1.

The device for pressing studs comprises a housing 1 with a hopper 2 for studs 3. A nozzle 4 is fixed in the wall of the housing 1 for supplying a working fluid to the engine, made in the form of a disk pack 5 with spacers and mounted on a bearing 6. In the opposite wall of the housing 1, an outlet 7 is provided for discharging the working fluid. On the disks 5 are pivotally mounted levers 8, at one end of which the gripping cams 9 are fixed, and at the opposite ends of the weights 10. The levers 8 are spring-loaded to the disks 5 by springs 11. The gripping cams 9 are mounted on axes 12 that can be moved along them and are spring-loaded relative to the disks 5 by additional cylindrical springs 13. To create axial force on the stud 3 at the free ends of the axes 12 are hinged and spring-loaded to the axis 12 by the springs 14 the pressure levers 15, one end 16 of which rests on the free end the additional files 17 are fixed at the other end. The entire device for pressing the studs is mounted on the component 18 attached to the assembly with a threaded hole 19 for the stud 3.

The device for making studs works as follows.

The studs 3 from the hopper 2 are fed one by one into the body 1, mounted on the piece 18, and enter the hole 19. The working fluid (air) from the line (not shown) through the nozzle 4 rushes into the gaps between the disks 5 and exits the hole 7. Due to the large friction surface at low flow

The working fluid to the disk pack 5 is reported as a torque.

When the disk pack 5 rotates, the gripping cams 9 fixed on the levers 8. Due to centrifugal forces, the springs 11 are pulled and the pin 3 is caught along the uncut surface. Moving the capture cams 9 as the pin 3 depresses, additional cylindrical springs 13 rotate. It is transmitted to push levers 15, the ends of which 16 due to centrifugal forces converge and abut against the end face of the stud 3, creating an axial force on it. Rotating, the stud 3 is screwed into the threaded hole 19 until the friction forces in the thread exceed the centrifugal forces acting on the levers 8 with weights 10 and the engaging cams 9 start to slip on the stud 3. After the stud 3 stops, the feed stops the working fluid (air) in the nozzle 4 and the disk pack 5 stops. Then, the engaging cams 8 are pulled away by the springs 11, and the ends of the 16 push levers 15 by the springs 14. The stud 3 is released.

The stud fastening device moves to the next part.

Claims (1)

Claim device for making studs according to bus no. 846260, characterized in that, in order to increase work efficiency by creating an axial force on the stud and protecting the thread of the stud from damage by ensuring joint axial movement of the stud and gripping cams, it is hinged mounted on the free end of each axis of the gripping cam and clamping levers spring-loaded to it, one end of each of which is designed to rest on the free end of the stud attached to the free ends of the pressure levers with additional weights and additional coil springs each placed coaxially to the axis of the gripping cam, one end of which is pressed into the disk and the other into the gripping cam mounted so that it can move along its axis. 2 eleven YU eight FIG. five