CN203830732U - Glass mold high-rigidity numerical control cylindrical lathe - Google Patents

Abstract

The utility model provides a glass mold high-rigidity numerical control cylindrical lathe. The glass mold high-rigidity numerical control cylindrical lathe comprises a machine tool body, a main drive shaft, an auxiliary rotating shaft, an inclined cross-shaped sliding plate, a tool rest and a liftable bracket. The main drive shaft is arranged at the left end of the machine tool body. The auxiliary rotating shaft is arranged at the right end of the machine tool body. Both the main drive shaft and the auxiliary rotating shaft are located on the side close to an operator, the auxiliary rotating shaft can slide along a guide rail in the length direction of the machine tool body, and the main drive shaft and the auxiliary rotating shaft are provided with clamping chucks respectively. The inclined cross-shaped sliding plate is arranged on the axial portions behind the main drive shaft and the auxiliary rotating shaft on the machine tool body and is located on the side away from the operator. The tool rest is located on a transverse sliding plate of the inclined cross-shaped sliding plate. The liftable bracket is arranged between the main drive shaft and the auxiliary rotating shaft and can slide in the length direction of the machine tool body. Based on the 'double-clamping and one-lifting' technology, two semi-molds are not prone to separation after being clamped, and then the rotating speed is increased and cutting rigidity is improved; meanwhile, due to the fact that clamping faces are small, follow-up cutting is easy to conduct, and overall efficiency is improved.

Description

The high rigidity numerical control of a kind of glass mold cylindrical lathe

Technical field:

The utility model relates to a kind of lathe, relates in particular to the high rigidity numerical control of a kind of glass mold cylindrical lathe, and it belongs to Digit Control Machine Tool field.

Background technology:

Digital control processing lathe is a kind of high accuracy, high efficiency automation part process equipment.In to the process of two and half die processing, existing digital control processing lathe can not be combined into complete one by two and half dies reliably, and then can not cut whole cylindrical by clamped one time.Under at a high speed large chipping allowance and the vibrative condition of intermittent-cutting, be difficult to ensure uniformity, integrality and the accuracy of workpiece simultaneously.Therefore, the necessary deficiency of prior art being improved to solve prior art.

Utility model content:

For the deficiencies in the prior art, the utility model provides the high rigidity numerical control of a kind of glass mold cylindrical lathe, it can be combined into complete one reliably by two and half dies, two and half dies are not separated under high-speed cutting condition, do not drop and do not affect precision, and then cut complete cylindrical by clamped one time.

The utility model adopts following technical scheme: the high rigidity numerical control of a kind of glass mold cylindrical lathe, and it comprises,

Machine tool main body and be positioned at the guide rail of machine tool main body length direction;

Final drive shaft, described final drive shaft is arranged at the left end in machine tool main body;

Auxiliary turning cylinder, described auxiliary turning cylinder is arranged at the right-hand member in machine tool main body, and described final drive shaft and auxiliary turning cylinder are all positioned at the side near operator, and described auxiliary turning cylinder, along sliding on guide rail, is all equipped with expansion chuck on described final drive shaft and auxiliary turning cylinder;

Saint Andrew's cross slide plate, described Saint Andrew's cross slide plate is assemblied in the axial rear of final drive shaft and auxiliary turning cylinder in machine tool main body and is positioned at the side away from operator;

Knife rest, described knife rest is positioned on the cross slide of described Saint Andrew's cross slide plate;

Liftable bracket, described Liftable bracket is arranged at the centre position of final drive shaft and auxiliary turning cylinder, and Liftable bracket slides along the length direction of machine tool main body.

In described machine tool main body, be provided with removable slide plate, described auxiliary turning cylinder is fixedly installed on removable slide plate.

On described expansion chuck, be formed with holding tank.

Described Liftable bracket be shaped as V-type, and left and right moves up and down.

The high rigidity numerical control of described glass mold cylindrical lathe also includes the auxiliary turning cylinder stretch oil cylinder that is arranged at auxiliary turning cylinder right side.

The utlity model has following beneficial effect:

(1) the utility model makes workpiece can completely matched moulds, and does not separate under high speed, and cutting rigidity improves, and processing beat shortens, and precision improves;

(2) under high-speed cutting condition, as fabrication hole deviation≤0.05mm, under mould linearity≤300mm, linearity is not more than 0.02mm, has greatly improved the linearity requirement of original 0.2mm;

(3) the utility model can complete total length Excircle machining by clamped one time, in operation, reduce operation, thereby the output that makes whole product has improved 300% working (machining) efficiency, save the energy, simultaneously also because there is full protection guarantee, with magnetic chip removal recovery unit, thereby the pollution of dust and the pollution that waste water reclaims are reduced.

Brief description of the drawings:

Fig. 1 is the front view of the high rigidity numerical control of the utility model glass mold cylindrical lathe.

Fig. 2 is the left view of the high rigidity numerical control of the utility model glass mold cylindrical lathe.

Fig. 3 is the top view of the high rigidity numerical control of the utility model glass mold cylindrical lathe.

Wherein:

1-machine tool main body; 2-final drive shaft; The auxiliary turning cylinder of 3-; 4-Saint Andrew's cross slide plate; 5-knife rest; 6-expansion chuck; 7-workpiece; 8-Liftable bracket; The auxiliary turning cylinder stretch oil cylinder of 9-, the removable slide plate of 10-.

Detailed description of the invention:

Please refer to shown in Fig. 1 to Fig. 3, the high rigidity numerical control of the utility model glass mold cylindrical lathe comprises machine tool main body 1, the angle of inclination that is provided with Saint Andrew's cross slide plate in Saint Andrew's cross slide plate 4(the utility model in machine tool main body 1 is 30 °), this Saint Andrew's cross slide plate 4 is assemblied in the side away from operator in machine tool main body.On the cross slide of this cross sliding board 4, be equipped with knife rest 5.Can facilitate tool setting and handling safety by the opposite that knife rest 5 is arranged to operator.A side near operator in the machine tool main body 1 of the high rigidity numerical control of the utility model glass mold cylindrical lathe is provided with two power transmission shafts, be respectively the final drive shaft 2 that is positioned at left end and the auxiliary turning cylinder 3 that is positioned at right-hand member, wherein auxiliary turning cylinder 3 is fixed on removable slide plate 10 and then makes auxiliary turning cylinder 3 can move left and right and then reach along machine tool main body 1 length direction the effect of pre-clamping of workpieces 7.The high rigidity numerical control of the utility model glass mold cylindrical lathe also includes the auxiliary turning cylinder stretch oil cylinder 9 that is installed in auxiliary turning cylinder 3 right sides.

On final drive shaft 2 and auxiliary turning cylinder 3, be all equipped with expansion chuck 6 and pressure control unit (not shown).Because making final drive shaft 2 and the auxiliary turning cylinder 3 of the high rigidity numerical control of the utility model glass mold cylindrical lathe, the existence of expansion chuck 6 all possesses clamping function.Generally, when clamping work pieces 7, need first by the holding tank of workpiece 7 jacking expansion chucks 6, then clamping work pieces 7.When running into the face that is held of workpiece 7 when more shallow, the utility model is provided with one and is used for the Liftable bracket 8 of placing, using when workpiece loading and unloading 7 in the lower end in the centre position of final drive shaft 2 and auxiliary turning cylinder 3, the shape that is shaped as V-type or other and is convenient to clamping workpiece 7 of Liftable bracket 8.Effect that this Liftable bracket 8 has lifting and horizontally slips, and then so that effectively move to by adding clamping of workpieces 7 position that approaches final drive shaft 2.With rear dismountable.

Please refer to shown in Fig. 1 to Fig. 3, in the high rigidity numerical control of the utility model glass mold cylindrical lathe, two and half dies be positioned in Liftable bracket 8 simultaneously and matched moulds after, the right-hand member by workpiece 7 of the auxiliary turning cylinder 3 by mobile right-hand member heads in the holding tank of expansion chuck 6 of auxiliary turning cylinder 3, then auxiliary turning cylinder 3 and Liftable bracket 8 move and then the left end of workpiece 7 are headed in the holding tank of final drive shaft 2 to the left, final drive shaft 2 and auxiliary turning cylinder 3 after clamping work pieces 7 are withdrawn Liftable bracket 8 simultaneously, the utility model is not easily separated after can making two half modules clamp by double fastener one top technology, and then improve rotating speed and cut rigidity.Because clamping face is little, be easy to follow-up cutting simultaneously, improved whole efficiency.

The utility model makes two half module can completely matched moulds, and do not separate under high speed, cutting rigidity improves, processing beat shortens, precision improves, the high rigidity numerical control of the utility model glass mold cylindrical lathe can complete total length Excircle machining by clamped one time simultaneously, in operation, reduce operation, thereby the output that makes whole product has improved 300% working (machining) efficiency, save the energy, simultaneously also because have full protection guarantee and magnetic chip removal recovery unit, thereby the pollution of dust and the pollution that waste water reclaims are reduced.

The above is only preferred embodiment of the present utility model; should be understood that; for those skilled in the art, under the prerequisite that does not depart from the utility model principle, can also make some improvement, these improve and also should be considered as protection domain of the present utility model.

Claims (5)

1. the high rigidity numerical control of a glass mold cylindrical lathe, is characterized in that: comprises,

Machine tool main body (1) and be positioned at the guide rail of machine tool main body (1) length direction;

Final drive shaft (2), described final drive shaft (2) is arranged at the left end in machine tool main body (1);

Auxiliary turning cylinder (3), described auxiliary turning cylinder (3) is arranged at the right-hand member in machine tool main body (1), described final drive shaft (2) and auxiliary turning cylinder (3) are all positioned at the side near operator, described auxiliary turning cylinder (3), along sliding on guide rail, is all equipped with expansion chuck (6) on described final drive shaft (2) and auxiliary turning cylinder (3);

Saint Andrew's cross slide plate (4), described Saint Andrew's cross slide plate (4) is assemblied in the upper final drive shaft (2) of machine tool main body (1) and the axial rear of auxiliary turning cylinder (3) and is positioned at the side away from operator;

Knife rest (5), described knife rest (5) is positioned on the cross slide of described Saint Andrew's cross slide plate (4);

Liftable bracket (8), described Liftable bracket (8) is arranged at the centre position of final drive shaft (2) and auxiliary turning cylinder (3), and Liftable bracket (8) slides along the length direction of machine tool main body (1).

2. the high rigidity numerical control of a kind of glass mold as claimed in claim 1 cylindrical lathe, is characterized in that: in described machine tool main body (1), be provided with removable slide plate (10), described auxiliary turning cylinder (3) is fixedly installed on removable slide plate (10).

3. the high rigidity numerical control of a kind of glass mold as claimed in claim 1 cylindrical lathe, is characterized in that: described expansion chuck is formed with holding tank on (6).

4. the high rigidity numerical control of a kind of glass mold cylindrical lathe as described in any one in claims 1 to 3, is characterized in that: described Liftable bracket (8) be shaped as V-type, and left and right moves up and down.

5. the high rigidity numerical control of a kind of glass mold cylindrical lathe as described in any one in claims 1 to 3, is characterized in that: the high rigidity numerical control of described glass mold cylindrical lathe also includes the auxiliary turning cylinder stretch oil cylinder (9) that is arranged at auxiliary turning cylinder (3) right side.