CN102189288A

CN102189288A - Numerical control double-station mould engraving and milling machine

Info

Publication number: CN102189288A
Application number: CN2011100827650A
Authority: CN
Inventors: 郭云飞
Original assignee: DOUBLE HEAD CNC Co Ltd
Current assignee: DOUBLE HEAD CNC Co Ltd
Priority date: 2011-04-02
Filing date: 2011-04-02
Publication date: 2011-09-21

Abstract

The invention relates to a machine tool, in particular to a numerical control double-station mould engraving and milling machine. A foundation, a left vertical shaft and a right vertical shaft are arranged on a frame body of the machine in a matched way; a beam is arranged above the left vertical shaft and the right vertical shaft in a matched way; the beam is connected with a left X-axle sliding table and a right X-axle sliding table through a left X-axle linear sliding block guide rail pair and a right X-axle linear sliding block guide rail pair in a matched way and the beam is in transmission fit with the left X-axle sliding table and the right X-axle sliding table through a left X-axle ball screw pair and a right X-axle ball screw pair; the foundation is connected with a left Y-axle sliding table and a right Y-axle sliding table through a left Y-axle linear sliding block guide rail pair and a right Y-axle linear sliding block guide rail pair in a matched way and the foundation is in transmission fit with the left Y-axle sliding table and the right Y-axle sliding table through a left Y-axle ball screw pair and a right Y-axle ball screw pair; and the left X-axle sliding table and the right X-axle sliding table are connected with a left Z-axle sliding table and a right Z-axle sliding table through a left Z-axle linear sliding block guide rail pair and a right Z-axle linear sliding block guide rail pair in a matched way and the left X-axle sliding table and the right X-axle sliding table are in transmission fit with the left Z-axle sliding table and the right Z-axle sliding table through a left Z-axle ball screw pair and a right Z-axle ball screw pair. The efficiency of the numerical control double-station mould engraving and milling machine is two times that of the conventional machine tool.

Description

Numerical control double mould carving mills machine

Technical field

The present invention relates to a kind of lathe, be specially a kind of numerical control double mould carving and mill machine.

Background technology

Moulds such as footwear mould, blade mold, bottle mould, general metallic element generally have the identical requirements of technical indicator such as size, tolerance, surface roughness in the process of producing, in the process of producing in enormous quantities, as adopt traditional manufacturing process, need be on a machine tool piecemeal processing, the part of processing is subjected to quantity, the operational personnel quantitative limitation of lathe in unit interval, the skilled operation degree that adds operating personnel is very different, requires in the production cycle that productivity ratio must be very restricted in the more limited time.And requirement is matched in twos in the processing process of some part or mould, and the very difficult assurance of traditional manufacturing process requires.

Summary of the invention

At problems of the prior art, the technical scheme that the object of the present invention is to provide a kind of numerical control double mould carving to mill machine can be processed the working (machining) efficiency height simultaneously to left-right symmetry, identical mould or part.

Described numerical control double mould carving mills machine, comprise the lathe support body, it is characterized in that being equipped with base, left column and right column on the described lathe support body, left column and right column top are equipped with crossbeam, crossbeam is connected by left X-axis linear slider guideway, right X-axis linear slider guideway and left X-axis slide unit and right X-axis slide unit respectively, and cooperates by left X-axis ball wire bar pair, right X-axis ball screw auxiliary driving respectively; Described base is connected by left Y-axis linear slider guideway, right Y-axis linear slider guideway and left Y-axis workbench, right Y-axis workbench, and cooperates by left Y-axis ball wire bar pair, right Y-axis ball screw auxiliary driving respectively; Described left X-axis slide unit and right X-axis slide unit are connected by left Z axle linear slider guideway, right Z axle linear slider guideway and left Z axle slide unit and right Z axle slide unit respectively, and cooperate by left Z shaft ball screw pair, right Z shaft ball screw auxiliary driving respectively.

Described numerical control double mould carving mills machine, it is characterized in that described left X-axis slide unit and right X-axis slide unit cooperate transmission by left X-axis linear slider guideway, right X-axis linear slider guideway, left X-axis ball wire bar pair, right X-axis ball wire bar pair with crossbeam respectively, left X-axis slide unit and right X-axis slide unit are done the side-to-side movement that is associated or side's transfixion, the opposing party's self-movement on crossbeam.

Described numerical control double mould carving mills machine, it is characterized in that described left Y-axis workbench, right Y-axis workbench cooperate transmission by left Y-axis linear slider guideway, right Y-axis linear slider guideway, left Y-axis ball wire bar pair, right Y-axis ball wire bar pair with base respectively, left Y-axis workbench, right Y-axis workbench seesaw simultaneously on base or side's transfixion, the opposing party's self-movement.

Described numerical control double mould carving mills machine, it is characterized in that described left Z axle slide unit and right Z axle slide unit respectively by left Z axle linear slider guideway, right Z axle linear slider guideway, left Z axle slide unit and, right Z axle slide unit cooperates transmission with left X-axis slide unit and right X-axis slide unit, left Z axle slide unit and right Z axle slide unit move up and down simultaneously on left X-axis slide unit and right X-axis slide unit respectively or side's transfixion, the opposing party's self-movement.

Described numerical control double mould carving mills machine, it is characterized in that being provided with respectively on described left column and the right column left tool setting device and right tool setting device.

Described numerical control double mould carving mills machine, it is characterized in that described left Y-axis workbench, right Y-axis workbench are set to the T type groove structure respectively, and special fixture or pressing plate are installed above it.

Above-mentioned numerical control double mould carving mills machine, and structure is ingenious, easy and simple to handle, equipment volume is little; Compare with traditional Digit Control Machine Tool, process time, operation number, occupation of land space save 50%, and efficient doubles, but uses 2 parts of this lathe time processing, and clamping times, number of changing knife significantly reduce, and machining accuracy and symmetry improve greatly.

Description of drawings

Fig. 1 is a structural representation of the present invention;

Fig. 2 is the A-A cross-sectional view of Fig. 1;

Fig. 3 is the plan structure schematic diagram of Fig. 1.

The specific embodiment

The present invention will be further described below in conjunction with Figure of description:

Numerical control double mould carving mills machine, comprise lathe support body 1, be equipped with base 2 on the described lathe support body 1, left column 15 and right column 5, left column 15 and right column 5 tops are equipped with crossbeam 7, crossbeam 7 is respectively by left X-axis linear slider guideway, right X-axis linear slider guideway and left X-axis slide unit 11 and right X-axis slide unit 10 are connected, and respectively by left X-axis ball

wire bar pair

14,6 transmissions of right X-axis ball wire bar pair cooperate, and left X-axis slide unit 11 and right X-axis slide unit 10 can be made the side-to-side movement or the side's transfixion that are associated on crossbeam 7, the opposing party's self-movement; Described base 2 is connected by left Y-axis linear slider guideway, right Y-axis linear slider guideway and left Y-axis workbench 17, right Y-axis workbench 3, and cooperate by left Y-axis ball wire bar pair 18, right Y-axis ball wire bar pair 19 transmissions respectively, left Y-axis workbench 17, right Y-axis workbench 3 can be gone up at base 2 and seesaw simultaneously or side's transfixion, the opposing party's self-movement; Described left X-axis slide unit 11 and right X-axis slide unit 10 are connected by left Z axle linear slider guideway, right Z axle linear slider guideway and left Z axle slide unit 13 and right Z axle slide unit 8 respectively, and cooperate by secondary 9 transmissions of left Z shaft ball screw pair 12, right Z shaft ball screw respectively, left Z axle slide unit 13 and right Z axle slide unit 8 can move up and down simultaneously on left X-axis slide unit 11 and right X-axis slide unit 10 respectively or side's transfixion, the opposing party's self-movement.

Left tool setting device 16 and right tool setting device 4 are set respectively on described left column 15 and the right column 5, and described left Y-axis workbench 17, right Y-axis workbench 3 are set to the T type groove structure respectively, special fixture or pressing plate etc. are installed above it are realized processing.

Moving component of the present invention comprises X-axis parts, Y-axis parts and Z spindle unit, and the X-axis parts are arranged on the crossbeam, and the Y-axis parts are arranged on the base, and the Z spindle unit is arranged on the X-axis parts, can and realize the process requirements of any locus.

Compared with prior art, the present invention has following advantages:

1. mill machined part with original numerical control double-station mould engraving or mould is compared, in design phase of mould or part with generate the CAM program phase, only need design and a manufacture order model and NC program, time saving 50%, efficient doubles;

2. when upper machined, the time of processing 2 parts or mould is equal to the lost time of original traditional numerical control machine tool processing single-piece, and therefore, the time saves 50%, and efficient doubles;

3. because traditional numerical control machine tool generally all is piecemeal processing mold or part, need several times clamping, repeatedly tool changing, tool setting, therefore machining accuracy (symmetry) is not high relatively; And the disposable processing of the present invention is a pair of, and the number of times of clamping, the number of times of tool setting greatly reduce, and machining accuracy (symmetry) improves greatly;

This numerical control double-station mould engraving mill the machine floor space only be equivalent to traditional machining tool simultaneously process unit's mould or part floor space 1/2.

Claims

1. numerical control double mould carving mills machine, comprise lathe support body (1), it is characterized in that being equipped with on the described lathe support body (1) base (2), left column (15) and right column (5), left column (15) and right column (5) top are equipped with crossbeam (7), crossbeam (7) is connected by left X-axis linear slider guideway, right X-axis linear slider guideway and left X-axis slide unit (11) and right X-axis slide unit (10) respectively, and cooperates by left X-axis ball wire bar pair (14), right X-axis ball wire bar pair (6) transmission respectively; Described base (2) is connected by left Y-axis linear slider guideway, right Y-axis linear slider guideway and left Y-axis workbench (17), right Y-axis workbench (3), and cooperates by left Y-axis ball wire bar pair (18), right Y-axis ball wire bar pair (19) transmission respectively; Described left X-axis slide unit (11) and right X-axis slide unit (10) are connected by left Z axle linear slider guideway, right Z axle linear slider guideway and left Z axle slide unit (13) and right Z axle slide unit (8) respectively, and cooperate by left Z shaft ball screw pair (12), right Z shaft ball screw pair (9) transmission respectively.

2. numerical control double mould carving according to claim 1 mills machine, it is characterized in that described left X-axis slide unit (11) and right X-axis slide unit (10) cooperate transmission by left X-axis linear slider guideway, right X-axis linear slider guideway, left X-axis ball wire bar pair (14), right X-axis ball wire bar pair (6) with crossbeam (7) respectively, the side-to-side movement that work is associated on crossbeam (7) of left X-axis slide unit (11) and right X-axis slide unit (10) or side's transfixion, the opposing party's self-movement.

3. numerical control double mould carving according to claim 1 mills machine, it is characterized in that described left Y-axis workbench (17), right Y-axis workbench (3) cooperate transmission by left Y-axis linear slider guideway, right Y-axis linear slider guideway, left Y-axis ball wire bar pair (18), right Y-axis ball wire bar pair (19) with base (2) respectively, left Y-axis workbench (17), right Y-axis workbench (3) seesaw simultaneously on base (2) or side's transfixion, the opposing party's self-movement.

4. numerical control double mould carving according to claim 1 mills machine, it is characterized in that described left Z axle slide unit (13) and right Z axle slide unit (8) respectively by left Z axle linear slider guideway, right Z axle linear slider guideway, left Z axle slide unit (13) and, right Z axle slide unit (8) cooperates transmission with left X-axis slide unit (11) and right X-axis slide unit (10), left Z axle slide unit (13) and right Z axle slide unit (8) move up and down simultaneously on left X-axis slide unit (11) and right X-axis slide unit (10) respectively or side's transfixion, the opposing party's self-movement.

5. numerical control double mould carving according to claim 1 mills machine, it is characterized in that being provided with respectively on described left column (15) and the right column (5) left tool setting device (16) and right tool setting device (4).

6. mill machine according to claim 1 or 3 described numerical control double mould carvings, it is characterized in that described left Y-axis workbench (17), right Y-axis workbench (3) are set to the T type groove structure respectively, special fixture or pressing plate are installed above it.