CN104014819A - Glass mold double-end-face numerical control lathe - Google Patents

Abstract

A glass mold double-end-face numerical control lathe comprises a lathe body and a double-end-face main shaft. The double-end-face main shaft is arranged in the middle of the lathe body in the length direction and is used for clamping a workpiece, and the double-end-face main shaft is arranged on the side, close to an operator, of the lathe body. Clamping heads used for clamping the workpiece are arranged on the two sides inside a double-end-face main shaft through hole, and the two end faces of the workpiece in a double-end-face main shaft cavity stretch out of the two sides of the double-end-face main shaft at the same time. A power motor used for driving the double-end-face main shaft is arranged at the position, on the lower portion of the double-end-face main shaft, in the lathe body. Two sets of cross sliding tables are arranged at the positions, facing the left side and the right side of the double-end-face main shaft, on the lathe body respectively. A left tool rest and a right tool rest which can change tools automatically are arranged on the cross sliding tables. An X-axis motor and a Z-axis motor driving the left tool rest and the right tool rest to machine the workpiece stretching out of the two ends of the double-end-face main shaft at the same time are arranged on the numerical control lathe. The cutting rigidity of the numerical control lathe is increased, mold clamping and production procedures are reduced, and work efficiency is improved.

Description

A kind of glass mold double end-face numerical control lathe

Technical field:

The present invention relates to a kind of glass mold double end-face numerical control lathe, particularly a kind of can both ends of the surface the glass mold double end-face numerical control lathe of processing work simultaneously, it is applied to glass mold and manufactures field.

Background technology:

Along with the fast development of numerically controlled lathe, the numerous and confused numerically controlled lathe product of releasing separately of each lathe producer, lathe in machining technology has become some efficient, high accurately machined main modes of production at present.But during with centre numerically controlled lathe processed glass mould, the general four paws that adopts is fixed two half modules, and in the middle of two half modules, also want a stationary fixture, making two half modules is a mould preparation, so cutting rotational speeds degree is very low, again because of mould long (general 170mm--400mm), endoporus adds boring cutter in man-hour very long (approximately 150mm--300mm), so chuck and cutter fixing point overall length be 350mm at least, reach 700mm, good numerically controlled lathe does not reach cutting precision yet more with this understanding, earthquake-resistant condition, therefore quality is repaiied system by follow-up craft completely, product percent of pass is low, interchangeability is poor, cutter loss is quite large, and the other end process change need to tune face processing.Working (machining) efficiency is very low.

Therefore, the necessary deficiency of prior art being improved to solve prior art.

Summary of the invention:

The invention provides a kind of glass mold double end-face numerical control lathe, it arranges by simple and effective structure, increases cutting rigidity, reduces the step of clamping mould and production, has improved operating efficiency.

The present invention adopts following technical scheme: a kind of glass mold double end-face numerical control lathe, and it comprises lathe main body; Be installed on the Double End main shaft for holding workpiece at the middle part of lathe main body length direction, described Double End main shaft is installed on the side of close operator in lathe main body, parallel to the ground; Both sides in described Double End spindle through-hole are provided with for the chuck of clamping work pieces and then two end faces making to be positioned at the workpiece in described Double End main shaft chamber stretch out from the both sides of described Double End main shaft simultaneously; At described lathe main body meta, in the position of Double End main shaft bottom, be provided with for driving the power motor of this Double End main shaft; On described lathe main body, the left and right sides of described Double End main shaft is respectively equipped with to a set of cross slid platform; The left and right knife rest of automatic tool changer is installed on described cross slid platform; Described glass mold double end-face numerical control lathe also includes X-axis motor and the Z axis motor that drives described left and right knife rest simultaneously to process stretching out the workpiece at Double End main shaft two ends.

Described X-axis motor includes two altogether, and it is installed on respectively the upper end of the cross slid platform of left and right sides.

Described Z axis motor includes two altogether, and it is all installed in lathe main body.

Described glass mold double end-face numerical control lathe is inclined 45 degree lathes.

The through-hole diameter of described Double End main shaft is not more than 200mm.

Described glass mold double end-face numerical control lathe also includes the floor push that unclamps and clamp for controlling described chuck.

Described glass mold double end-face numerical control lathe also comprises the magnetic chip cleaner that is positioned at described Double End main shaft lower end being arranged in numerically controlled lathe.

The present invention has following beneficial effect:

(1). the present invention compared with prior art, has reduced procedure of processing, reaches the disposable of Mould Machining and completes, and be only 1/3 of prior art numerically controlled lathe process time;

(2). in cutting rigidity, improved chipping allowance, in precision, the Double End depth of parallelism of processing parts, the axial relative prior art of axiality are all enhanced;

(3). because of Double End simultaneously power consumption of polymer processing reduce one times, from handling, what can not produce that workpiece drops faulty part from chuck may again;

(4). from chip removal, blowdown, adopted magnetic separation technique, reclaimed waste iron filing and dust completely, protected that environment and employee's is healthy.

Accompanying drawing explanation:

Fig. 1 is the main perspective schematic diagram of glass mold double end-face numerical control lathe of the present invention.

Fig. 2 is the side-looking angle schematic diagram of glass mold double end-face numerical control lathe of the present invention.

Fig. 3 is the depression angle schematic diagram of glass mold double end-face numerical control lathe of the present invention.

Wherein:

1-lathe main body; 2-Double End main shaft; 3-power motor; 4-cross slid platform; 5-left and right knife rest; 6-X spindle motor; 7-Z spindle motor.

The specific embodiment:

Below in conjunction with accompanying drawing, the invention will be further described.

Please refer to shown in Fig. 1 to Fig. 3, glass mold double end-face numerical control lathe of the present invention comprises lathe main body 1, is arranged at the Double End main shaft 2 for holding workpiece at the middle part of lathe main body 1 length direction, the side of close operator in lathe main body 1 installed and is positioned at by this Double End main shaft 2 perpendicular to lathe main body 1, parallel to the ground.Both sides in these Double End main shaft 2 holes are all furnished with the chuck for clamping work pieces, and two end faces that make to be positioned at the workpiece in these Double End main shaft 2 chambeies stretch out from the both sides of Double End main shaft 2 simultaneously; The position that is positioned at Double End main shaft 2 bottoms in lathe main body 1 is provided with for driving the power motor 3 of this Double End main shaft 2, by this power motor 3, drives the workpiece in Double End main shaft 2 chambeies to rotate together with this Double End main shaft 2.At this, above lathe main body 1, the left and right sides of this Double End main shaft 2 is respectively equipped with to a set of cross slid platform 4, the left and right knife rest 5 of automatic tool changer is installed on this cross slid platform 4, and this left and right knife rest 5 can be processed stretching out the workpiece at these Double End main shaft 2 two ends under the driving of X-axis motor 6 and Z axis motor 7 simultaneously.Wherein X-axis motor 6 includes two altogether, and it is installed on respectively the upper end of the cross slid platform 4 of left and right sides.Z axis motor 7 also includes two, and it is installed on the motor base in lathe main body 1, and left and right sides respectively has one.

Glass mold double end-face numerical control lathe of the present invention has adopted inclined 45 degree structures, and the knife rest at two ends can carry out endoporus, cylindrical, end face to this part and cut simultaneously, thereby reached the problem to be solved in the present invention.The diameter of the Double End main shaft 2 of glass mold double end-face numerical control lathe of the present invention is preferably and is not more than 200mm simultaneously, the floor push of the chuck for clamping work pieces of Double End main shaft 2 employing is simultaneously controlled and is unclamped and clamp, wherein floor push is freely placed, mainly be placed on operator's side easy to use, from electrical control cubicles, draw.Glass mold double end-face numerical control lathe of the present invention also comprises the magnetic chip cleaner close operator one side and that be positioned at Double End main shaft 2 lower ends being arranged in numerically controlled lathe simultaneously.

Glass mold double end-face numerical control lathe of the present invention has fully demonstrated its performance and the problem that should solve, after protective door is opened, workpiece is put into Double End main shaft 2 chambeies that are positioned at lathe main body length direction centre position, now workpiece is located and is controlled the chuck clamping work pieces in Double End main shaft 2 chambeies with floor push, workpiece is fixed in Double End main shaft 2 chambeies, Double End main shaft 2 rotates under the power motor 3 that is positioned at its lower end is controlled, and produce the stepless rotating speed of 0-1500 rev/min, left and right knife rest 5 in the face of Double End main shaft 2 left and right sides moves to rapidly two end faces of this Double End main shaft under the control of digital control system according to program thereupon, cut simultaneously, and tool changing completes appointment requirement continuously, scrap has also taken in litter-bin by magnetic chip cleaner.

The above is only the preferred embodiment of the present invention, it should be pointed out that for those skilled in the art, can also make some improvement under the premise without departing from the principles of the invention, and these improvement also should be considered as protection scope of the present invention.

Claims (7)

1. a glass mold double end-face numerical control lathe, is characterized in that: comprise lathe main body (1); Be installed on the Double End main shaft (2) for holding workpiece at the middle part of lathe main body (1) length direction, described Double End main shaft (2) is installed on the upper side near operator of lathe main body (1), parallel to the ground; Both sides in described Double End main shaft (2) through hole are provided with for the chuck of clamping work pieces and then two end faces making to be positioned at the workpiece in described Double End main shaft (2) chamber stretch out from the both sides of described Double End main shaft (2) simultaneously; The position that is positioned at Double End main shaft (2) bottom in described lathe main body (1) is provided with for driving the power motor (3) of this Double End main shaft (2); On described lathe main body (1), the left and right sides of described Double End main shaft (2) is respectively equipped with to a set of cross slid platform (4); The left and right knife rest (5) of automatic tool changer is installed on described cross slid platform (4); Described glass mold double end-face numerical control lathe also includes X-axis motor (6) and the Z axis motor (7) that drives described left and right knife rest (5) simultaneously to process stretching out the workpiece at Double End main shaft (2) two ends.

2. glass mold double end-face numerical control lathe as claimed in claim 1, is characterized in that: described X-axis motor (6) includes two altogether, and it is installed on respectively the upper end of the cross slid platform (4) of left and right sides.

3. glass mold double end-face numerical control lathe as claimed in claim 1, it is characterized in that: described Z axis motor (7) includes two altogether, and it is all installed in lathe main body (1).

4. glass mold double end-face numerical control lathe as claimed in claim 1, is characterized in that: described glass mold double end-face numerical control lathe is inclined 45 degree lathes.

5. glass mold double end-face numerical control lathe as claimed in claim 1, is characterized in that: the through-hole diameter of described Double End main shaft (2) is not more than 200mm.

6. glass mold double end-face numerical control lathe as claimed in claim 1, is characterized in that: described glass mold double end-face numerical control lathe also includes the floor push that unclamps and clamp for controlling described chuck.

7. glass mold double end-face numerical control lathe as claimed in claim 1, is characterized in that: described glass mold double end-face numerical control lathe also comprises the magnetic chip cleaner that is positioned at described Double End main shaft (2) lower end being arranged in numerically controlled lathe.