SU1030099A1 - Machine for tangential turning - Google Patents

Abstract

MACHINE FOR TANGENSHADA jHCffX3 TURNING, containing a spindle unit with working spindles, add-ons with tools, rotary drives for the unit and working spindles, from which it is provided with an increase in production and spindles, with the addition of complementary tools and tools that are equipped with an increase in production, the machine is equipped with additional software, and it is equipped with additional tools. Bpaniemra spindle house, m & hn couplings and rigidly connected to the spikelet 1m block mehdasm control additional prnvbbm, with one overrun clutch installed between the iindeyny1m block and its drive 1pc control gear, a single clutch is installed between the ipandyyn1m block and its drive 1xpodplicerpod and the overrunning clutch is installed between its ipandyn1m block and its drive 1xpodplicerpod and the overrunning clutch is installed between its ipandyn1m block and its drive, 1xpod flow, and the overrunning clutch installed between its ipodayn1m block and its drive 1xpodplicerpod and the overrunning clutch installed between its ipodayn1m block and its drive at the spindle block an additional drive. ate:: D with

Description

FIELD: machine tool industry. , / Known machine for tangential turning, with a complete spindle unit; with working spindles, a toolholder with a tool and drives of circular feeds of the spindle unit and working spindles, and a small movement of the support 1.. A disadvantage of the known machine is the low machinability due to the constant angular velocity of the spindle unit. The purpose of the invention is to increase the productivity by increasing the idle speed of the spindle unit. This goal is achieved by the fact that the machine for tangential turning, holding the spindle unit with working spindles, the support with the tool, with water of circular feeds of the spindle unit and working spindles, is equipped with an additional drive for rotating the spindle unit, two overrunning clutches and rigidly connected with Yoshindalny additional control unit; drive, with one overrunning clutch | Established between the spindle unit and the drive of its circular feeds, and the second clutch - between the spindle unit and the auxiliary drive. The drawing shows a block diagram of the machine. The machine contains a spindle unit 1 with uniformly located “L1 working spins divi 2, nesupgami machined aago. 3. Working spindles through the tuning body 4 (speed box, replacement wheel guitar) are kinematically connected to the engine 5. Spindle unit 1 through an overrunning clutch 6 is connected with the drive of its circular feeds, performed in the form of a motor 7 and a circular feed setting body 8, the spindle unit is kinematically through the I overrunning clutch 9 also connected to the additional 10o drive and through the cork 11 feeds and the 12 screw-nut transmission. associated with a caliper 13 bearing resed. A disk 14 is rigidly connected to the spindle unit 1, on which cams 15 are mounted along two circles. The number of cams in each row is equal to the number of working spindles. The cams of the same row are shifted relative to the cams by an angle equal to the angle, to ko; The torch is cutting. The cams, 15 through the switch block 16, control the operation of the actuator 10, turning it off during cutting and turning it on when the cutter exits the cutting head. The machine works as follows. The working spindles 2 with the workpieces 3 receive a rotation with cutting speed from the engine 5. The working spindle frequencies are tuned by the body 4. The spindle unit 1 is rotated alternately from the 7 and 1Q engines. At the same time, through the box 11 innings, the caliper 13 receives translational motion. the engine 7 is turned off and the spindle unit receives a slow rotation with a circular feed speed adjusted by the body 8. When the solution leaves the cutting zone, the engine U is turned on, providing the spindle rotation of the block with the speed to / approach to the cutter of the desired workpiece. motor 1O is turned off and the next workpiece is processed by ocj. The engine 10 is turned on and off by a block of 16 switches, the contacts of which interact with the cams 15 of the disk 14 rotating with that. same speed as the spindle unit 1. Overrunning clutches 6 and 9 exclude the possibility of transferring movements from one drive to another. . The presence in the proposed machine of two drives of the spindle unit and mechanism. drive control increases machine productivity. This is due to the fact that the time spent on the turns of the spindle block between the cutting zones is reduced to a minimum, since they are performed at a speed exceeding the speed of the circular feed of the spindle block during cutting.

Claims (1)

(M) MACHINE FOR TANGENTIAL TURNING, comprising a spindle unit with working spindles, a support and on the one hand, in order to increase productivity, the machine is equipped with an additional spindle block rotation drive, two overrunning clutches and an additional drive control mechanism rigidly connected to the spindle block, with one overrunning clutch installed between the spindle block and the drive of its circular feeds, and the second coupling is between the spindle unit by an additional drive.