RU1784479C - Rotary machine for rolling cylindrical blanks - Google Patents

Abstract

Usage: forging equipment, rotary machines. SUMMARY OF THE INVENTION: A rotary machine comprises a drive shaft with drums axially disposed thereon. One of the drums carries loading mechanisms, the other - spindles with clamping mechanisms. Between the drums placed deforming roller tool. The drum with spindles is made with radial guides and provided with sliders with pushers. The sliders are spring loaded relative to the drum and are mounted in its guides. 2 silt

Description

The invention relates to forge-and-press equipment, namely rotary machines for hot rolling of cylindrical billets, and provides an increase in productivity of equipment for hot rolling of products such as cylinders, hydraulic filter housings, hollow shafts, axles, and the like.

Known multi-spindle machines for rotor rolling cylindrical workpieces with friction tools, containing a bed, a drive shaft mounted on it, two axially mounted drums on the drive shaft, on one of which are loading mechanisms, and on the other - spindles corresponding to them, as well as connecting them respectively, at each position, drive axles with forcibly rotating circular tools, which, in contact with workpieces rotating around their axis and moving around the circumference, deform ruyut them into a predetermined shape.

Machines of this type have high performance and versatility.

However, since they implement the process of rolling in with the friction tool, during which friction contact of the workpiece with the working surface of the tool is carried out, they cannot roll the profile on the surface of the workpiece, in addition, the purity of the deformable surface of the workpiece is not high Ng 40. “80 tool life is insufficient - it amounts to 3 ... 5 thousand hours of run-in blanks before regrinding the tool.

A known rotary machine for hot rolling of cylindrical billets, comprising a drive-mounted shaft with a drive, a copying sleeve, two axially mounted babaran axles, on one of which load mechanisms are placed, on the other are spindles corresponding to them, and also located between them instrumental block, made in the form, eccentric

with

VI co

4 N vj O

tricting relative to the circumference of the spindle arrangement. casing, axially mounted to which a gear wheel is rigidly connected to it, and symmetrically placed deformation rollers are mounted on the housing with free rotation, the axes of which are located concentrically to the axis of the eccentric disk, and the working surfaces are 1-inch apart from each other

form. & -% I

The disadvantage of this & design is the impossibility of increasing the angle of the working area in which the workpiece contacts the tool by more than an amount, which limits the speed of the processing drum. An increase in the angle of the working zone will allow, while preserving the running-in and rolling-in times, to increase the rotation frequency of the technological drum and, consequently, the productivity of the machine.

The aim of the invention is to increase productivity by increasing the tool travel zone (workpiece deformation zone).

This is achieved by the fact that in a rotary machine for hot running and rolling pipes with rollers, containing a drive shaft mounted on the frame, a copy sleeve rigidly connected to the frame, and installed on a drum drive shaft, on one of which are placed loading mechanisms, and on the other, technological - the corresponding spindles. In addition, on the technological drum, respectively, each spindle and their axis perpendicularly mounted are mounted with the possibility of radial movement of the spring-loaded sliders, which are appreciated by pushers and deforming roller tools, and the pushers interact with the cam mounted on the copy sleeve concentric with the drive axle shaft. . ,

The presence of movable sliders with deforming rollers mounted on the technological drum, corresponding to each spindle, displaced as a result of 1 contact with 1 to y / ha, perpendicular to the axis of the workpiece, allows, given the angle of the cam, to increase the working area angle by more than l :, and thus, at the same time: during the running-in or rolling-in process, the frequency of rotation of the technological drum will increase by 30 ... 50%. and consequently, increase the cyclic productivity of the rotor machine by the same amount. At the same time, you keep the main advantage of the prototype machine - running in with a roller deforming tool. - ..; /; -, - / V- .; . ; ; ,.

In the proposed design, the sliders are spring-loaded and mounted on the technological drum, respectively, for each spindle, with the possibility of radial movement perpendicular to the axis of the deformable workpieces, the pushers of all sliders being displaced as a result of contact with one cam, which is mounted on the copy sleeve, rigidly connected to the bed . The combination of all these features, not found in the known technical solutions, allows us to achieve the task.

In FIG. 1 shows a rotary machine for rolling cylindrical workpieces; in FIG. 2 is a cross section of a rotary machine.

The rotary machine for hot rolling and rolling pipes with rollers consists of a bed

1 mounted drive shaft

2, on which the technological drums 3 and loading 4 are rigidly connected with it, and the sleeve 5 is rigidly connected to the frame.

Spindles 6 are mounted on the processing drum 3 and, respectively, spring-loaded sliders 7 equipped with deforming roller tools 8 and additional pushers 9, reciprocating from the cam 10 mounted on the copy sleeve 5, are located on each spindle. On the loading drum 4, it is axial to each spindle loading pushers 11 installed. Receiving reverse return movement from the copy sleeve 5.

The spindles b are equipped with clamping chucks 12, which are controlled by a cam 13, and receive rotation through pairs of gears 14 and 15 from the gear motor 16. The drive shaft is driven by the gear motor 17.

The proposed rotor machine operates as follows. The gear motor 17 drives the shaft 2 with the drums 3 and 4 rigidly fixed thereon, the gear motor 16 drives the spindles 6 through pairs of gears 15 and 14. The preforms preheated to a temperature of 1100 ° C are loaded into Henp cells eplJBHb of the rotating loading drum 4. The blanks are then defined by the loading pushers 11, which reciprocate from the copy sleeve 5, into the clamping chucks 12. In the loading zone, the spring-loaded stop 18 of the clamping chuck

12 bumps into cam 13, chuck 12 expands, and the workpiece is driven into it. Then, the spring-loaded stop 18 of the cartridge 12 slides off the cam 13, and the workpiece is clamped. The blanks in the chucks move in a circular path. After clamping the workpiece, the pusher 9 of the spring-loaded slide 7, making contact with the cam 10 located on the copy sleeve 5 rigidly connected to the bed, moves the slide 7 with the deforming roller tool 8 located on it.

The deforming roller tool 8 shapes the workpiece to a predetermined profile during the rotation of the technological drum 3 by the working angle p 2 - (pp, are the angles of rotation of the technological drum corresponding to the loading zones of the workpiece into the spindle and remove it from there. After the deformation is completed, the spring slider pusher 9 7 moves off the cam 10, returning the slider 7 with the deforming roller tool 8 located on it to its original position. The spring-loaded stop 18 of the cartridge 12 runs into the cam 13, the cartridge expands, and Cooking is pushed onto the discharging tray.

The use of a rotary machine for hot rolling and rolling profiles with rollers, equipped with a deforming roller tool mounted on sliders, installed respectively on each spindle and technological drum with the possibility of radial (relative to the workpiece) movement, provides an increase in the cycle productivity of the machine by Z0 .. .fifty%. For example, the working area of the prototype machine, the speed of the technological

drum fr 0.05. Cycle performance at six operating positions (d 6) is determined by the dependence

PC Fri g 0.05- b 0.3 (therefore, PC 18 products per minute).

The new design of the machine allows

3 to increase the angle of the working area to p - -PL,

preserving the time of deformation of the workpiece, limited by the condition for ensuring the stability of the process, it is possible to increase the rotational speed of the technological drum to Fri 0.075, then at g b Fri Fri g 0.0756 0.45, therefore, Fri 27 products per minute, which corresponds to an increase in productivity by 50 % .-.

Claims (1)

SUMMARY OF THE INVENTION Rotary machine for rolling cylindrical workpieces; comprising a drive shaft mounted in the frame, on which the drums are axially arranged, on one of which are loading mechanisms interacting with the photocopier, and on flpyfOM - corresponding spindles with clamping chucks, as well as a deforming tool with rollers, characterized in that, in order to increase productivity, the drum with spindles is made with radial guides and equipped with sliders with pushers installed in the guides of the drum, spring-loaded relative to it and bearing role axes s, a follower drum sleeve loading mechanism is provided with a cam mounted to cooperate with the pushers slide. with w U //////////////////////, , b