CN204053035U - Full-automatic double-face milling cast iron roll lathe - Google Patents

Abstract

The utility model provides a kind of full-automatic and ensure the depth of parallelism of both ends of the surface, artificial feeding, discharge is not needed to operate, increase substantially the full-automatic double-face milling cast iron roll lathe of production efficiency, its technical scheme is: this lathe is primarily of vibrating disk assembly, bedstead assembly, automatic stocking positioner, automatic compacting device, auto-feed Double Milling device, automatic discharge unit, outer cover assembly, cooling system, electrical apparatus control system composition.The beneficial effects of the utility model: practicality reasonable in design, automatic charging, locates automatically, automatic impaction, auto-feed milling, automatic discharging, and not only speed is fast, saving of work and time, and the good quality of product of processing, be particularly suitable for requirements of mass production.

Description

Full-automatic double-face milling cast iron roll lathe

Technical field

The utility model relates to machine tool technology field, especially full-automatic double-face milling cast iron roll lathe.

Background technology

At present, cast iron roll lathe work in-process, all there is process velocity slow, general all need tune processing, a few procedure just can complete, and it is large to process not only workload like this, and tune processing both ends of the surface be difficult to ensure parallel, time-consuming low precision, the workpiece quality processed is poor, has had a strong impact on production efficiency and the economic benefit of enterprise.

Summary of the invention

The purpose of this utility model is to provide a kind of full-automatic and ensure the depth of parallelism of both ends of the surface, artificial feeding, discharge is not needed to operate, increase substantially the full-automatic double-face milling cast iron roll lathe of production efficiency, its technical scheme is: this lathe is primarily of vibrating disk assembly, bedstead assembly, automatic stocking positioner, automatic compacting device, auto-feed Double Milling device, automatic discharge unit, outer cover assembly, cooling system, electrical apparatus control system composition.

Bedstead is formed by the A3 square tubes soldering of some 60 × 6, surrounding is by side door before and after bedstead and bedstead left and right sides door termination, be provided with two rows below bedstead and cut groove and a set of cooling system, bedstead panel is fixed on bedstead by the hexagon socket head cap screw of 4 M12 × 40, the front left side of bedstead is provided with feeding vibration disk, feeding vibration disk is by vibrating disk branching bolster supporting, vibrating disk bearing support is welded by the A3 angle bar of some 40 × 4, and be weldingly connected in the front left side of bedstead, before workpiece in feeding vibration disk delivers to pusher cylinder via vibrating disk feeding joint, automatic stocking positioner is provided with at the middle front part of bedstead panel, pusher bearing support is welded on the middle front part position of bedstead panel, pusher cylinder is arranged in the installing hole of pusher bearing support, the piston rod end of pusher cylinder is provided with scraping wings, positioning support bolster is fixed on the middle front part position of bedstead panel by the hexagon socket head cap screw of 2 M12 × 35, positioning cylinder is arranged in the installing hole of positioning support bolster, the piston rod end of positioning cylinder is provided with location side's bar, location square set is welded on positioning support bolster, control system command switch is arranged on pusher bearing support, bedstead panel is provided with automatic double-sided milling apparatus, article two, line slideway is fixed on bedstead panel by the hexagon socket head cap screw of several M8 × 30 respectively, planker is fixed on 4 slide blocks of two line slideways by the hexagon socket head cap screw of 16 M8 × 50, the two ends of ball screw are by bearing block support, be arranged on bedstead panel, the nut seat of ball screw is fixed on below planker by the hexagon socket head cap screw of 4 M8 × 50, one end of ball screw is connected by shaft coupling with the power output shaft of feed servo motor, entering to paint servomotor is arranged in the installing hole of servo motor seat, fixed by the hexagon socket head cap screw of 4 M8 × 30, servo motor seat is fixed on bedstead panel by the hexagon socket head cap screw of 4 M6 × 30, left milling unit head and right milling unit head are fixed on bedstead panel by the interior hexagonal breechblock of 4 M12 × 40 respectively, left milling-cutting cutter disc and right milling-cutting cutter disc are arranged on the rotary main shaft of left milling unit head and right milling unit head respectively, planker is provided with automatic compacting device, compressing v block is fixed on planker by the hexagon socket head cap screw of 4 M10 × 50, the base plate of compression cylinder seat is fixed on planker by the hexagon socket head cap screw of 4 M12 × 50, compressing pressurized cylinder is arranged in the installing hole of compression cylinder seat, compressed by the nut of 4 M12, compression cylinder head is arranged on the piston rod end compressing pressurized cylinder, piston rod stretches out, compression cylinder head coordinates with compression v block, by Work-sheet pressing, bedstead panel is provided with automatic discharge unit, the base plate of discharging cylinder block is fixed on bedstead panel (18) by the hexagon socket head cap screw of 4 M8 × 30, discharging cylinder (32) is arranged in the installing hole of discharging cylinder block side plate, discharging cylinder head is equipped with in the piston rod end of discharging cylinder, discharging cylinder is a cylinder dual-purpose, except the use of discharging, when pusher cylinder is shifted workpiece after in compression v block onto, discharging cylinder starts, piston rod stretches out, with discharging cylinder head, by workpiece top to bar place of location side, play positioning action, blowpit is fixed on bedstead panel by the hexagon socket head cap screw of 2 M8 × 30, on bedstead, outer cover is installed.

The beneficial effects of the utility model: practicality reasonable in design, automatic charging, locates automatically, automatic impaction, auto-feed milling, automatic discharging, and not only speed is fast, saving of work and time, and the good quality of product of processing, be particularly suitable for requirements of mass production.

Feature of the present utility model:

1. a tractor serves several purposes: the row of this lathe cuts the double-decker that groove 21 is designs, be provided with powder slide plate and the web plate that leaks, powder slide plate is loaded onto when processing cast iron part, to dismantle when machined steel product powder slide plate, open cooling system, cooling water just can flow into the water tank below bedstead from water-filtering net plate.

2. diameter is adjustable: as long as adjustment compression cylinder 9 and the distance that compresses between v block 12, just can process the workpiece of 30 ~ 90mm diameter.

3. adjustable length: as long as adjust the extension elongation of the rotary main shaft cover of left milling unit head 23 and right milling unit head 29, and the orientation distance of adjustment positioning support bolster 5, just can process the workpiece in 95-180mm length range.

Accompanying drawing explanation

Fig. 1 is vibrating disk assembly of the present utility model, bedstead assembly, automatic stocking positioner, automatic compacting device structural representation;

Fig. 2 is automatic double-sided milling apparatus structural representation of the present utility model;

Fig. 3 is automatic discharge unit structural representation of the present utility model.

Detailed description of the invention

As shown in Fig. 1-Fig. 3, this lathe is primarily of vibrating disk assembly, bedstead assembly, automatic stocking positioner, automatic compacting device, auto-feed Double Milling device, automatic discharge unit, outer cover assembly, cooling system, electrical apparatus control system composition.

1. vibrating disk assembly: primarily of vibrating disk bearing support 1, feeding vibration disk 2, vibrating disk feeding joint 25 forms.

2. bedstead assembly: primarily of bedstead panel 18, bedstead 19, side door 20 before and after bedstead, bedstead left and right side door 30, row cuts groove 21 and forms.

3. automatic stocking positioner: primarily of pusher cylinder 3, scraping wings 36, pusher bearing support 24, positioning cylinder 4, positioning support bolster 5, the side's of location bar 6, location square set 7 forms.

4. automatic compacting device: primarily of compression pressurized cylinder 10, compression cylinder 9, compression cylinder seat 11, compresses v block 12 and forms.

5. auto-feed Double Milling device: primarily of feed servo motor 17, servo motor seat 16, ball screw 15, line slideway 14, planker 13, left milling unit head 23, left milling-cutting cutter disc 26, right milling-cutting cutter disc 27, right milling unit head 29 forms.

6. automatic discharge unit: primarily of discharging cylinder 32, discharging cylinder block 33, discharging cylinder head 34, blowpit 31 forms.

7. control system: primarily of command switch 35 and several proximity switches, auxiliary reclay and PLC composition.

Embodiment 1:

One basket of workpiece is poured into after in feeding vibration disk 2 by operative employee, start feeding vibration disk 2, under the centrifugal action of feeding vibration disk 2, the arrangement of workpiece orderly column travels forward, when unit one 8 touches command switch 35 above, command switch 35 sends instruction, vibrating disk 2 stop motion, positioning cylinder 4 stretches out simultaneously, pushes location side's bar 6 under the control of location square set 7, is linearly moved to the central point compressing v block 12.Now pusher cylinder 3 stretches out fast, by scraping wings 36, workpiece 8 is shifted onto in compression v block 12, then discharging cylinder 32 stretches out, by discharging cylinder head 34, workpiece 8 is pushed up location side's bar 6 place, pusher cylinder 3 returns, feeding vibration disk 2 restarts, and second workpiece 8 is delivered to feeding vibration disk stop motion again before and after scraping wings 36.Then the pressurized cylinder 10 of 2.5T is descending, being pressed on securely by workpiece 8 by compression cylinder 9 compresses in v block 12, positioning cylinder 4 and discharging cylinder 32 auto-returned simultaneously, at this moment feed servo motor 17 starts fast rotational automatically, by planker 13 under the effect of ball screw 15, compression cylinder seat 11, compress pressurized cylinder 10, compression v block 12 and workpiece 8 move fast backward, left milling unit head 23 simultaneously, right milling unit head 29 starts voluntarily, with left milling-cutting cutter disc 26, right milling-cutting cutter disc 27, rotate with the rotating speed of setting, when planker 13 is moved to milling stroke with workpiece 8, feed servo motor 17 rotates at a slow speed again, planker 13 with workpiece 8 at a slow speed displacement enter Milling Process stroke.When milling stroke terminates, left and right milling unit head shuts down, simultaneously feed servo motor 17 high speed reverse rotation, under the effect of ball screw 15 planker 13 with good workpiece 8 fast return of Milling Process to initial point.Now discharging cylinder 32 stretches out again fast, by discharging cylinder head 34, workpiece 8 is ejected in compression v block 12 fast, because positioning cylinder 4 does not stretch out, thus the side's of location bar 6 does not move after returning, workpiece 8 can not be tackled, therefore due to the gravitation of the earth, workpiece 8 under the weight effect of self along the gradient landing of blowpit 31 in the workpiece basket processed, whole procedure is complete.Command switch 35 sends instruction again simultaneously, and next working procedure starts again, as long as have material in feeding vibration disk 2, refers to that modern switch 35 just ceaselessly sends instruction, program Infinite Cyclic.After the workpiece 8 in feeding vibration disk 2 processes, refer to that modern switch 35 just sends without material instruction, whole lathe shuts down, buzzer just sends without material chimes of doom, now next basket of workpiece is poured in feeding vibration disk 2 by operative employee, starts feeding vibration disk 2, and lathe is started working circulation again.It is simple that this lathe has structure, adjustment, easy to use and reliable, cheap, saves the features such as labour, be particularly suitable for the requirement of producing in enormous quantities.

Claims (1)

1. full-automatic double-face milling cast iron roll lathe, it is characterized in that: bedstead (19) is formed by the A3 square tubes soldering of some 60 × 6, surrounding is closed by side door before and after bedstead (20) and bedstead left and right side door (30), be provided with two rows below bedstead and cut groove (21) and a set of cooling system (28), bedstead panel (18) is fixed on bedstead (19) by the hexagon socket head cap screw of 4 M12 × 40, the front left side of bedstead (19) is provided with feeding vibration disk (2), feeding vibration disk (2) is supported by vibrating disk bearing support (1), vibrating disk bearing support (1) is welded by the A3 angle bar of some 40 × 4, and be weldingly connected in the front left side of bedstead (19), it is front that workpiece in feeding vibration disk (2) delivers to pusher cylinder (3) via vibrating disk feeding joint (25), automatic stocking positioner is provided with at the middle front part of bedstead panel (18), pusher bearing support (24) is welded on the middle front part position of bedstead panel (18), pusher cylinder (3) is arranged in the installing hole of pusher bearing support (24), the piston rod end of pusher cylinder (3) is provided with scraping wings (36), positioning support bolster (5) is fixed on the middle front part position of bedstead panel (18) by the hexagon socket head cap screw of 2 M12 × 35, positioning cylinder (4) is arranged in the installing hole of positioning support bolster (5), the piston rod end of positioning cylinder (4) is provided with location side's bar (6), location square set (7) is welded on positioning support bolster (5), control system command switch (35) is arranged on pusher bearing support (24), bedstead panel (18) is provided with automatic double-sided milling apparatus, article two, line slideway (14) is fixed on bedstead panel (18) by the hexagon socket head cap screw of several M8 × 30 respectively, planker (13) is fixed on 4 slide blocks of two line slideways (14) by the hexagon socket head cap screw of 16 M8 × 50, the two ends of ball screw (15) are by bearing block support, be arranged on bedstead panel (18), the nut seat of ball screw (15) is fixed on below planker (13) by the hexagon socket head cap screw of 4 M8 × 50, one end of ball screw (15) is connected by shaft coupling with the power output shaft of feed servo motor (17), entering to paint servomotor (17) is arranged in the installing hole of servo motor seat (16), fixed by the hexagon socket head cap screw of 4 M8 × 30, servo motor seat (16) is fixed on bedstead panel (18) by the hexagon socket head cap screw of 4 M6 × 30, left milling unit head (23) and right milling unit head (29) are fixed on bedstead panel (18) by the interior hexagonal breechblock of 4 M12 × 40 respectively, left milling-cutting cutter disc (26) and right milling-cutting cutter disc (27) are arranged on the rotary main shaft of left milling unit head (23) and right milling unit head (29) respectively, planker (13) is provided with automatic compacting device, compressing v block (12) is fixed on planker (13) by the hexagon socket head cap screw of 4 M10 × 50, the base plate of compression cylinder seat (11) is fixed on planker (13) by the hexagon socket head cap screw of 4 M12 × 50, compressing pressurized cylinder (10) is arranged in the installing hole of compression cylinder seat (11), compressed by the nut of 4 M12, compression cylinder head (9) is arranged on the piston rod end compressing pressurized cylinder (10), piston rod stretches out, compression cylinder head (9) coordinates with compression v block (12), workpiece (8) is compressed, bedstead panel (18) is provided with automatic discharge unit, the base plate of discharging cylinder block (33) is fixed on bedstead panel (18) by the hexagon socket head cap screw of 4 M8 × 30, discharging cylinder (32) is arranged in the installing hole of discharging cylinder block (33) side plate, discharging cylinder head (34) is equipped with in the piston rod end of discharging cylinder (32), discharging cylinder (32) is a cylinder dual-purpose, except the use of discharging, when pusher cylinder (3) is shifted workpiece (8) after in compression v block (12) onto, discharging cylinder (32) starts, piston rod stretches out, with discharging cylinder head (34), by workpiece (8) top to location side's bar (6) place, play positioning action, blowpit (31) is fixed on bedstead panel (18) by the hexagon socket head cap screw of 2 M8 × 30, outer cover (22) is installed on bedstead (19).