SU887061A1 - Turret lathe - Google Patents

Description

The invention relates to the field of machine tool industry.

Known automatic turret with a device for stopping the spindle containing the brake disc and friction 5 clutch [1].

A disadvantage of the known turret lathe is its relatively small technological capabilities.

The purpose of the invention is the expansion of the technological capabilities of a turret lathe by providing processing of the part to its lengths from the bar in various angular positions of the stopped spindle and ensuring processing of the part 15 with the rotating spindle.

For this, the brake disk of the device for stopping the spindle is equipped with a periodic rotation mechanism with a drive made in the form of a replaceable cam.

In order to increase the indexing accuracy of ²⁰ different angular positions of the brake disk, the machine is equipped with a dividing disk with a lock, controlled by an additional removable cam and mounted on the brake disk. ²⁵

In FIG. 1 shows the headstock of a turret lathe with associated units; in FIG. 2 - section A — A of FIG. 1; in FIG. 3 is a view B in FIG. 1. 30

In the housing 1 of the headstock in the bearings 2, a spindle 3 is installed. In the housing 1, on the cup 4 and bearings 5, the pulley 6 of the V-belt transmission 7 of the main drive of the machine from the electric motor 8 rotates through the gearbox 9. On the stand 10 of the housing 1 concentrically to the spindle 3 in front of the rod feeding unit 11, a brake disk 12 is mounted that rotates around the axis of the spindle 3. On the spindle 3 on the sliding key 13, a movable conical friction clutch 14 is installed, which in the right position articulates the spindle 3 with the pulley 6 of the main drive and in the left - with the brake disk 12. The clutch 14 moves along the spindle 3 from the cam 15 located on the camshaft 16 of the machine, through the lever 17 and the rollers 18, counteracting the spring 19. The brake disk 12 is rotated around the axis of the spindle 3 t fist 20 of the camshaft 16 through the lever 21, the toothed sector 22, the gear 23, counteracting the spring 24. On the brake disk 12 there is a dividing disk 25, fixed on the troughs 26 using a swinging latch 27, controlled by the cam 28 of the camshaft 16 against the action of the spring 29 . On the calipers 30 of the machine and in the re887061 sockets

Drilling and milling heads for machining a fixed part on a bar in various positions of the stopped spindle 3 can be mounted on the volley drum 31, including, for example, a drilling head 32, a carrier drill 33 for drilling side holes in a part driven by an individual electric motor 34, a milling head 35 with a milling cutter 36 for face milling driven by a shaft 37 of a quick-drilling fixture on a turret 38, a milling head 39 driven by its engine on a longitudinally transverse soup Orte with cutter 40 for the treatment of the side window.

The machine works as follows.

At the beginning of the processing cycle of the next part, the clutch 14, under the action of the spring 19, is connected to the pulley 6, so that the spindle 3 is connected to the main drive from the electric motor 8, which allows turning. At the end of the entire processing, or partial to a piece of the part from the bar, at the command of the camshaft 16, the electromagnetic clutches of the 9-speed box are opened, turning off the main drive. Then the fist 15 through the lever 17 and the rollers 18 puts the clutch 14 in the extreme left position, disconnecting the spindle 3 from the pulley 6 and stopping the spindle 3 when coupling the clutch 14 with the brake disc 12; the interference in this joint is ensured by the non-rigid lever 17. The dividing disk 25 is fixed by the latch 27 at this time. After the spindle 3 has stopped in the first position of the calipers 30 and 38, the fixed part is drilled and milled by the heads 32 and 35, as well as the cutter 40 of the head 39 is cut into the side blank wall. After completing these operations, the fist 28 allows the spring 29 to withdraw the latch 27 from the hollow of the disk 25, after which the fist 20 through the lever 21, sector 22 and gear 23 rotates the brake disk 12 together with the clutch 14, spindle 3 and the rod at an angle corresponding to the position of the following drilling and milling processing. This rotation is accompanied by a circular milling of the side window in the part by the milling cutter 40 and turning of the rollers 18 while maintaining an interference between the clutch 14 and the disk 12. Upon reaching the next angular position of the spindle necessary for machining the part, the lever roller 21 enters the constant radius section on the cam 20, rotation of the disk 12 is stopped, and the fist 28 indexes the next angular position of the stopped spindle 3 using the latch 27 in the cavity of the dividing disk 25 corresponding to this position, within the play in the pair, the toothed sector 22 — gear 23 when creating an interference fit in the cavity due to the non-rigidity of the retainer 27 provided with the roller, is drilled in the second angular position of the stopped spindle, after which the process of turning the disk 12 and machining the part is repeated as many times as necessary the retainer 27 into the initial cavity of the disk 25. In this case, the side window in the part is machined by the milling cutter 46 due to the combination of two oppositely directed angular rotations of the spindle with a bar from the fist 2 0 and the spring 24 and two longitudinal opposite directional axial movements of the longitudinally-transverse caliper with the head 39, after which the caliper displays the cutter 40 from the part. The transitions of drilling and milling processing end there, the fist 15 allows the spring 19 through the lever 17 to return the clutch 14 to the extreme right position, disconnecting the spindle 3 with the brake disc 12 and connecting it to the main drive through the pulley 6. Then the camshaft 16 gives the command to turn on clutch box 9 speeds, spindle 3 receives rotation from the electric motor 8 through the box 9 speeds, gear 7 and pulley 6, after which the remaining transitions of turning and cutting the part from the bar.

Using the proposed machine allows you to significantly expand its technological capabilities in terms of performing repeated drilling through certain angles of drilling and milling on the workpiece, as well as circular milling, which, in turn, makes it possible to reduce or eliminate additional drilling and milling operations on the machine using optional devices or multi-spindle machines. Achieved increased productivity, reduced reinstallation of parts on machines, interoperational transportation. The use of manual labor is reduced, equipment and production facilities are freed.

Claims (2)

The rotary drum 31 can be equipped with drilling and milling heads for machining a stationary part on a bar in various positions of the stopped slinger 3, including, for example, a drill head 32, a single drill bit 33 for drilling the side openings in the part driven by an individual electric motor 34, a router ) 1a a head 35 with a milling cutter 36 for a face milling driven by a shaft 37 of a quick-boring drilling area on a turret slide 38, a milling head 39 driven by its engine on a nodal-nonrechny sou Inorte with a milling cutter 40 for processing the side window. The machine works as follows. At the beginning of the processing cycle of the next part, the coupling 14 under act 19 is connected to the pulley 6, whereby the spindle 3 is connected to the main drive from the electric motor 8, which eliminates the possibility of turning. At the end of all processing, either from the bar to the length of the part from the bar, on command from the camshaft 16, the electromagnetic clutches of the speed box 9 are disconnected, turning off the main actuator. Then the fist 15 moves the clutch 14 to the leftmost position through the lever 17 and the roller 18, disconnecting the spindle 3 from the pulley 6 and stopping the spindle 3 with the eloplenin of the clutch 14 with the brake disk 12; The tension in this joint is caused by the lack of rigidity of the lever 17. The separating disk 25 is fixed at this time by latch 27. After the spindle 3 stops in the first position of the 30 and 38 ports, the fixed part is drilled and milled, and the milling cutter 40 of the head 39 is machined in the side wall of the workpiece. After the end of these inertia, cam 28 allows spring 29 to remove lock 27 from the bottom 25 viadins, followed by cam 20 through lever 21, sector 22 and gear 23 rotates brake disc 12 together with clutch 14, spindle 3 and rod by an angle corresponding to the floor ; the next drilling and milling machining. This rotation is accompanied by circular milling of the side window in the part with a mill 40 and turning the rollers 18 while maintaining tension between the coupling 14 and the disk 12. Upon reaching the next spindle angular position required for machining the part, the lever roller 21 goes to a section of constant radius on the cam 20 , the rotation of the disk 12 is stopped, and the fist 28 indexes the queue corner field of the stopped slug 3 with the help of the latch 27 along the depression of the dividing disk 25 corresponding to this position, within the limits of .h. yufta in a pair of toothed sector 22 - gear 23 when creating tension in the cavity due to the non-rigidity of the shoulder of the retainer provided with rollers. repeat the required number of times to set the latch 27 into the initial cavity of the disk 25. At the same time, the side window in the part is processed by the milling cutter 40 due to the combination of two oppositely opposite spindle angles with a spindle Ulaka 20 and Iruzhipa 24 and two longitudinal opposing direction-oriented axial movements of the non-roll-on-rival souiort with a head 39, and what suiport displays the bit 40 from the part. Pa this.m transitions of drilling and milling processing end, the fist 15 and outside allow 19 through the lever 17, return the clutch 14 to the extreme moral position, disconnect shnipdel 3 with the brake disk 12 and articulate it with the main drive through the pulley 6. Then the distributor shaft 16 gives To turn on the coupling of the box 9 speeds, the spindle 3 receives rotation from the electric motor 8 through the speed box 9, speed 7 and the pulley 6, after which the remaining transitions of turning and part cutting from the bar are performed. The use of the proposed automaton makes it possible to significantly expand its technical capabilities in terms of performing recurring through certain angles of drilling and milling on the workpiece, as well as circular milling, which in turn makes it possible to reduce or eliminate drill cutting and milling machined on an automatic machine associated with the use of additional devices or multiple machine tools. There is an increase in productivity, a reduction in non-installation of parts on machine tools, and inter-operational transporting. The use of manual labor is reduced, equipment and production sites are released. Claim 1. Automatic turning turret with a device for stopping the NSINDEL, containing a brake disc and a friction clutch, characterized in that, in order to expand technological capabilities by ensuring the processing of the part before its cut from the bar in different positions of the stopped spindle Providing the machining of the part when turning the spindle, the brake disc of the device for stopping the spindle is equipped with a periodic change mechanism with a Drive made in the form of an interchangeable cam. 2. An automatic machine according to claim 1, in particular, in order to increase the accuracy of indexing various angular polos: -kenny brake disc, the automatic machine is equipped with a separating disc with a retainer fitted from an additional interchangeable cam mounted on the brake disc. Sources of information taken into account in the examination 1. The patent of Velbkobrntanny No. 1122739, cl. VZT, onublnk. 1968.  ft / ml .YuT ( ..h .. ;;. yy. thirty // / 3   i vJ lii: J, i Jj 7 w .irif f M7% hL, g /   Sg. / Ijisj // ff ze 35 Jff 39 Buff 5 FigZ