CN200942430Y - Numerical control lathe with double knife towers - Google Patents

Abstract

A double knife tower numerically controlled lathe. A left drawing door is located on the upper left front side of the lathe, a protective cover is located on the right of the left drawing door, a right drawing door is located on the upper right front of the lathe, a control board is located on the front of the right drawing door, A sliding track is supported underneath the protective cover, a chip removal machine is located underneath the outer front of a bed body, a battery case is located on the left back of the lathe, a 45 degree bed body is located at the lowest end, a main spindle box is located on most left front end of a machine tool, a chuck is located on the right front end of the machine tool, an upper sliding saddle is located above the bed body, an upper sliding plate is arranged on the upper sliding saddle, an upper knife tower is arranged on the upper sliding plate, a lower sliding saddle is located on the bed body incline under, a lower sliding plate is arranged on the lower sliding saddle, a lower knife tower is arranged on the lower sliding plate, a hydraulic station is arranged at the back of the machine tool. The double knife tower numerically controlled lathe increases the dynamic rigidity during the turning of the machine tool, and enhances the machine tool overall rigidity and the anti-knocking property.

Description

Double-pole tower numerically controlled lathe

Affiliated technical field

The utility model relates to a kind of numerically controlled lathe.Especially double-pole tower numerically controlled lathe.

Background technology

At present, it is that the upper slitter tower is for rearmounted horizontal that double-pole tower numerically controlled lathe generally adopts the dual horizontal structure, following cutter tower is preposition horizontal, generally adopt 60 ° or 75 ° of resin sands to cast oblique lathe bed, interior protection draws hood-shaped gesture mostly to be the telescopic cover that draws, and generally shows at the turning endoporus, internal thread, upper slitter tower and lathe integral rigidity deficiency during the endoporus cannelure, it is not smooth to add the iron filings eliminating that produces man-hour, piles up in last drop-down cover protection junction easily.

Summary of the invention

In order to overcome numerically controlled lathe rigidity deficiency, avoid shaking the phenomenon of cutter, the utility model provides a kind of double-pole tower numerically controlled lathe, the dynamic stiffiness when not only having increased lathe turning, protection adopts stainless steel integrated formula to overlap situation up and down in the lathe, and has increased the fluency that iron filings are discharged.

The technical scheme that its technical problem that solves the utility model adopts is: double-pole tower numerically controlled lathe, it is left front of the top that Zola's door is positioned at lathe, protective cover is on the right side of Zola's door, right sliding door above lathe right front, console is in the front of right side sliding door, guide supporting is below protective cover, wicket is on the lathe right side, chip cleaner below the bed body outside the front, electronic box is in the lathe left back, 45 ° of bed bodies are positioned at below, main spindle box is positioned at the most left front end of lathe, spindle motor and belt are in the main spindle box lower left, chuck is positioned at the main spindle box right front ends, last saddle is positioned at a body oblique upper, upper slide is installed on it, the upper slitter tower is arranged above the upper slide, by x1 axis drive motor above it, the z1 axis drive motor drives ball-screw and finishes the feeding cutting, following saddle is positioned at the oblique below of a body, lower skateboard is installed on it, Xia Daota is arranged above the lower skateboard, by the x2 axis drive motor, the z2 axis drive motor drives ball-screw and finishes the feeding cutting, the right has the protection of going up to draw cover, following protection draws cover, Hydraulic Station to be positioned at the rear of whole lathe.

Double-pole tower numerically controlled lathe, adopting the upper slitter tower is vertical 6 station cutter towers, following cutter tower is the version of horizontal 12 station cutter towers, the dynamic stiffiness when having increased lathe turning, the bed body is cast oblique lathe bed for whole 45 ° of burnt-in sands, has improved lathe integral rigidity and shock resistance.Protection adopts stainless steel integrated formula to overlap situation up and down in the lathe, has increased the fluency that iron filings are discharged.

The beneficial effects of the utility model are, double-pole tower numerically controlled lathe, and the dynamic stiffiness when having increased lathe turning, the bed body is cast oblique lathe bed for whole 45 ° of burnt-in sands, has improved lathe integral rigidity and shock resistance.Protection adopts stainless steel integrated formula to overlap situation up and down in the lathe, has increased the fluency that iron filings are discharged.

Description of drawings

Below in conjunction with drawings and Examples the utility model is further specified.

Fig. 1 is the stereogram of double-pole tower numerically controlled lathe.

Fig. 2 is the machine tool structure stereogram that double-pole tower numerically controlled lathe removes outer protective cover.

Fig. 3 is the machine tool structure stereogram of outer protective cover in double-pole tower numerically controlled lathe removes.

1. Zola's doors among the figure, 2. protective cover, 3. right side sliding door, 4. console, 5. guide supporting, 6. chip cleaner, 7. wicket, 8. electronic box, a 9. body, 10.z1 axis drive motor, 11. spindle motor, 12. belts, 13. main spindle boxes, 14. chucks, 15. following cutter tower, the 16.x2 axis drive motor, cover, 18. upper slitter towers are drawn in 17. times protection, 19. cover is drawn in last protection, 20.x1 axis drive motor, 21. lower skateboards, 22. times saddles, 23.z2 axis drive motor, 24. Hydraulic Stations, 25. upper slides, saddle on 26..

The specific embodiment

At Fig. 1,2, in 3, double-pole tower numerically controlled lathe, it is left front of the top that Zola's door (1) is positioned at lathe, protective cover (2) is on the right side of Zola's door, right sliding door (3) above lathe right front, console (4) is in the front of right side sliding door, guide supporting (5) is below protective cover, wicket (7) is on the lathe right side, chip cleaner (6) below the bed body outside the front, electronic box (8) is in the lathe left back, 45 ° of bed bodies (9) are positioned at below, main spindle box (13) is positioned at the most left front end of lathe, spindle motor (11) and belt (12) are in the main spindle box lower left, chuck (14) is positioned at the main spindle box right front ends, last saddle (26) is positioned at a body oblique upper, upper slide (25) is installed on it, upper slitter tower (vertical 6 stations) (18) is arranged above the upper slide, by x1 axis drive motor (20) above it, z1 axis drive motor (10) drives ball-screw and finishes the feeding cutting, following saddle (22) is positioned at the oblique below of a body, lower skateboard (21) is installed on it, Xia Daota (horizontal 12 stations) (15) is arranged above the lower skateboard, by x2 axis drive motor (16), z2 axis drive motor (23) drives ball-screw and finishes the feeding cutting, the right has the protection of going up to draw cover (19), cover (17) is drawn in following protection, and Hydraulic Station (24) is positioned at the rear of whole lathe.

Claims (3)

1, a kind of double-pole tower numerically controlled lathe, by Zola's door, protective cover, right sliding door, console, guide supporting, chip cleaner, wicket, electronic box, the bed body, the z1 axis drive motor, spindle motor, belt, main spindle box, chuck, following cutter tower, the x2 axis drive motor, cover is drawn in following protection, the upper slitter tower, cover is drawn in last protection, the x1 axis drive motor, lower skateboard, following saddle, the z2 axis drive motor, Hydraulic Station, upper slide, last saddle is formed, it is characterized in that: it is left front of the top that Zola's door (1) is positioned at lathe, protective cover (2) is on the right side of Zola's door, right sliding door (3) above lathe right front, console (4) is in the front of right side sliding door, guide supporting (5) is below protective cover, chip cleaner (6) below the bed body outside the front, electronic box (8) is in the lathe left back, 45 ° of bed bodies (9) are positioned at below, main spindle box (13) is positioned at the most left front end of lathe, chuck (14) is positioned at the main spindle box right front ends, last saddle (26) is positioned at a body oblique upper, upper slide (25) is installed on it, upper slitter tower (18) is arranged above the upper slide, following saddle (22) is positioned at the oblique below of a body, lower skateboard (21) is installed on it, Xia Daota (15) is arranged above the lower skateboard, and Hydraulic Station (24) is positioned at the rear of whole lathe.

2, according to the described double-pole tower of claim 1 numerically controlled lathe, it is characterized in that: top, bed body the right has the protection of going up to draw cover (19).

3, according to the described double-pole tower of claim 1 numerically controlled lathe, it is characterized in that: below, bed body the right has protection down to draw cover (17).

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