CN219358035U - Numerical control milling machine for die manufacturing - Google Patents

Abstract

The utility model discloses a numerical control milling machine for die manufacturing, which relates to the technical field of numerical control milling machines and comprises a numerical control milling machine main body and a fixing unit; the main body of the numerical control milling machine is vertically arranged; the fixed unit contains mount pad, riser, bi-directional screw rod, motor, screw rod seat, slide bar, carriage release lever, grip block, workstation, reinforcement subassembly and spacing subassembly, the bottom upper surface middle part of mount pad is connected with the workstation through the bolt, reinforcement subassembly installs both ends about the inboard of mount pad, and spacing subassembly installs at the front end middle part of the inboard rear end of mount pad and workstation. The die workpiece is clamped and fixed by the fixing unit, the workpiece is limited by the limiting assembly and the clamping block, the milling cutter corresponds to the center of the workpiece, so that the positioning error of the milling machine to the workpiece is reduced, the consistency of the cutting amount is ensured, and the lifting hydraulic cylinder is arranged to adjust the height of the workbench, so that the workpiece is conveniently observed and taken.

Description

Numerical control milling machine for die manufacturing

Technical Field

The utility model relates to the technical field of numerical control milling machines, in particular to a numerical control milling machine for die manufacturing.

Background

The numerical control milling machine is automatic processing equipment developed on the basis of a general milling machine, the processing technology of the numerical control milling machine and the general milling machine is basically the same, the structures of the numerical control milling machine and the general milling machine are similar, and the numerical control milling machine is required to process the numerical control milling machine in advance in the mould manufacturing process;

in the prior art, a numerical control milling machine is not provided with a limiting component for a die, a die workpiece after clamping and fixing is not corresponding to the central line of a milling cutter, and the milling machine is easy to produce errors in positioning the workpiece, so that the cutting quantity is influenced;

the workbench can not adjust different heights according to the condition of the die workpiece, and is inconvenient to observe and take the workpiece, so we propose a numerical control milling machine for die manufacturing.

Disclosure of Invention

The utility model aims to overcome the existing defects, and provides a numerical control milling machine for die manufacturing, which is provided with a fixing unit for clamping and fixing a die workpiece, and the workpiece is limited by a limiting component and a clamping block, so that the milling cutter corresponds to the center of the workpiece, the positioning error of the milling machine on the workpiece is reduced, the consistency of the cutting amount is ensured, and the height of a workbench is adjusted by a lifting hydraulic cylinder, so that the workpiece is convenient to observe and take, and the problems in the background art can be effectively solved.

In order to achieve the above purpose, the present utility model provides the following technical solutions: a numerical control milling machine for die manufacturing comprises a numerical control milling machine main body and a fixing unit;

a numerical control milling machine main body: vertically placing;

a fixing unit: contain mount pad, riser, two-way screw rod, motor, screw rod seat, slide bar, carriage release, grip block, workstation, reinforcement subassembly and spacing subassembly, the mount pad is located the bottom top of numerically controlled fraise machine main part, and the bottom upper surface front end left and right sides fixedly connected with riser's lower extreme of mount pad, the inner rotation of riser is connected with the left and right sides both ends of two-way screw rod, and the riser right-hand member fixedly connected with motor on right side, and the output shaft of motor runs through riser and two-way screw rod's right-hand member fixed connection, the different screw thread sections of two-way screw rod respectively with screw rod seat threaded connection, and the rear end fixedly connected with carriage release front end of screw rod seat, the front end of the inside front end fixedly connected with slide bar of carriage release front end, the bottom upper surface middle part of mount pad passes through the bolt and is connected with the workstation, and the grip block is located the top of workstation, reinforcement subassembly installs the inboard both ends about the mount pad, and the front end at the inside of mount pad and the front end of installation and workstation.

Through mount pad supporting bench, support the bi-directional screw rod through the riser, support the grip block through the carriage release lever, place the mould work piece on the workstation, both ends are spacing around the mould work piece through spacing subassembly, make the milling cutter of numerically controlled fraise machine main part coincide with the horizontal axis of mould work piece, the starter motor makes bi-directional screw rod rotate, make screw rod seat along slide bar relative slip through the threaded connection of bi-directional screw rod and screw rod seat, screw rod seat drive carriage release lever and grip block relative slip, grip block contact and promote the both ends about the mould work piece and remove to the workstation middle part, fix spacing about the mould work piece through the grip block, thereby fix the mould work piece at the middle part of workstation through reinforcing assembly reinforcing, carry out milling to the mould work piece that fixes through the numerically controlled fraise machine main part.

Further, the reinforcement component comprises a hydraulic cylinder, a compression block, a rubber pad and a slot, wherein the middle parts of the left end and the right end of the inner side of the mounting seat are fixedly connected with the hydraulic cylinder, the outer end of the compression block is fixedly connected with the inner end of a piston rod of the hydraulic cylinder, the rubber pad is fixedly connected with the inner end of the compression block, the slot is formed in the middle part of the clamping block, and the compression block corresponds to the slot.

After the left end and the right end of the die workpiece are clamped by the clamping blocks, the hydraulic cylinders are started to enable the clamping blocks to move relatively, the clamping blocks penetrate through the slots and are in contact with the die workpiece, the die workpiece is fixed through the clamping blocks, and the die workpiece is prevented from being deformed through pressing of the clamping blocks by the rubber pads.

Further, spacing subassembly contains spacing pneumatic cylinder, push pedal, spout, driving motor, slider, screw rod and limiting plate, the inboard rear end fixedly connected with spacing pneumatic cylinder of mount pad, and the rear end middle part of the piston rod front end fixedly connected with push pedal of spacing pneumatic cylinder, the push pedal is located the top of workstation, the spout has been seted up at the upper end front side middle part of workstation, and spout and slider sliding connection, the upper end fixedly connected with limiting plate of slider, and limiting plate corresponds with the push pedal, the front and back both ends of the front and back both ends rotation connection of spout have the screw rod, and the inside threaded connection in middle part of screw rod and slider, the front end middle part fixedly connected with driving motor of workstation, and driving motor's output shaft runs through workstation and the front end fixed connection of screw rod.

The limiting plate is supported by the sliding block, the driving motor is started to enable the screw to rotate according to the size of the die workpiece, the sliding block is enabled to move back and forth along the sliding groove through threaded connection of the screw and the sliding block, accordingly, the limiting plate is enabled to move back and forth to a designated position, the die workpiece is placed on the workbench, the limiting hydraulic cylinder is started to enable the push plate to move forward, the push plate pushes the die workpiece, and therefore the die workpiece is limited between the push plate and the limiting plate, and the milling cutter of the numerical control milling machine body coincides with the transverse central axis of the die workpiece.

Further, the fixing unit further comprises a roll shaft, and the inner sides of the push plate and the limiting plate are connected with the roll shaft in an equidistant rotation mode. The limiting effect of the push plate and the limiting plate is guaranteed through the roll shaft, and meanwhile, the left end and the right end of the clamping block pushing the die workpiece move towards the middle of the workbench.

Further, still include lift pneumatic cylinder, lifting slide and slide rail, the bottom upper end of numerically controlled fraise machine main part is seted up flutedly, and the bottom fixedly connected with lifting hydraulic cylinder of recess, the lower extreme middle part of the piston rod upper end fixedly connected with mount pad of lifting hydraulic cylinder, and the left and right sides both ends downside middle part fixedly connected with lifting slide of mount pad, the bottom upper end left and right sides middle part fixedly connected with slide rail of numerically controlled fraise machine main part, and lifting slide and slide rail sliding connection.

When the height of the workbench is required to be adjusted, the lifting hydraulic cylinder is started, and drives the lifting sliding block to move up and down along the sliding rail, so that the heights of the mounting seat and the workbench are adjusted, and the die workpiece is convenient to observe and take.

Further, the automatic fixing device further comprises a fixing plate and a fan, wherein the outer ends of the fixing plate are fixedly connected to the right rear side and the left front side of the inner side of the mounting seat respectively, the fan is fixedly connected to the inner side of the fixing plate, and the fan corresponds to the workbench. The fan is supported through the fixed plate, and the chips on the workbench are blown off through the fan, so that the cleanliness of the workbench is improved, and the influence on the workpiece of the turning and milling die is prevented.

Compared with the prior art, the utility model has the beneficial effects that: the numerical control milling machine for die manufacturing has the following advantages:

1. according to the size of the die workpiece, a driving motor is started to enable a screw to rotate, so that a sliding block drives a limiting plate to move back and forth to a specified position, the die workpiece is placed on a workbench, a limiting hydraulic cylinder is started to enable a push plate to move forward to push the die workpiece, and therefore the die workpiece is limited between the push plate and the limiting plate, and a milling cutter of a numerical control milling machine body is enabled to coincide with a transverse central axis of the die workpiece;

2. starting a motor to enable the bidirectional screw to rotate, enabling the screw seat to drive the movable rod and the clamping blocks to slide relatively, enabling the clamping blocks to contact and push the left end and the right end of the die workpiece to move towards the middle of the workbench, enabling the milling cutter of the numerical control milling machine main body to coincide with the longitudinal central axis of the die workpiece, starting a hydraulic cylinder to enable the pressing blocks to move relatively, and reinforcing fixing of the die workpiece through the pressing blocks;

3. the die workpiece is clamped and fixed by the fixing unit, the workpiece is limited by the limiting assembly and the clamping block, the milling cutter corresponds to the center of the workpiece, so that the positioning error of the milling machine to the workpiece is reduced, the consistency of the cutting amount is ensured, and the lifting hydraulic cylinder is arranged to adjust the height of the workbench, so that the workpiece is conveniently observed and taken.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a right side view of the present utility model;

fig. 3 is a schematic view of a partial enlarged structure at a in fig. 2 according to the present utility model.

In the figure: the numerical control milling machine comprises a numerical control milling machine body, a 2 fixing unit, a 21 mounting seat, a 22 vertical plate, a 23 bidirectional screw, a 24 motor, a 25 screw seat, a 26 slide bar, a 27 moving rod, a 28 clamping block, a 29 workbench, a 210 hydraulic cylinder, a 211 compacting block, a 212 rubber pad, a 213 slot, a 214 limiting hydraulic cylinder, a 215 push plate, a 216 slide groove, a 217 driving motor, a 218 slide block, a 219 screw, a 220 limiting plate, a 221 roll shaft, a 3 lifting hydraulic cylinder, a 4 lifting slide block, a 5 slide rail, a 6 fixing plate and a 7 fan.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-3, the present embodiment provides a technical solution: a numerical control milling machine for die manufacturing comprises a numerical control milling machine main body 1 and a fixing unit 2;

numerical control milling machine body 1: vertically placing;

fixing unit 2: the device comprises a mounting seat 21, a vertical plate 22, a bidirectional screw 23, a motor 24, a screw seat 25, a slide rod 26, a movable rod 27, a clamping block 28, a workbench 29, a reinforcing component and a limiting component, wherein the mounting seat 21 is positioned above the bottom of a numerically controlled milling machine body 1, the front ends of the left and right sides of the upper end surface of the mounting seat 21 are fixedly connected with the lower ends of the vertical plate 22, the inner ends of the vertical plate 22 are rotationally connected with the left and right ends of the bidirectional screw 23, the right end of the vertical plate 22 is fixedly connected with the motor 24, an output shaft of the motor 24 penetrates through the vertical plate 22 and the right end of the bidirectional screw 23, different threaded sections of the bidirectional screw 23 are respectively in threaded connection with the screw seat 25, the rear end of the screw seat 25 is fixedly connected with the front ends of the movable rod 27, the front ends of the inner ends of the vertical plate 22 are fixedly connected with the left and right ends of the slide rod 26, the inner front ends of the screw seat 25 are in sliding connection with the slide rod 26, the middle part of the upper end surface of the bottom of the mounting seat 21 is connected with the workbench 29 through bolts, the clamping block 28 is positioned above the upper end of the clamping block 28, and the inner side of the workbench 29 is arranged at the left and right ends of the front end of the workbench 29.

The reinforcement assembly comprises a hydraulic cylinder 210, a compression block 211, rubber pads 212 and slots 213, wherein the middle parts of the left end and the right end of the inner side of the mounting seat 21 are fixedly connected with the hydraulic cylinder 210, the inner end of a piston rod of the hydraulic cylinder 210 is fixedly connected with the outer end of the compression block 211, the inner end of the compression block 211 is fixedly connected with the rubber pads 212, the middle part of the clamping block 28 is provided with the slots 213, and the compression block 211 corresponds to the slots 213.

The hydraulic cylinder 210 is supported by the mounting seat 21, after the clamping blocks 28 clamp the left end and the right end of the die workpiece, the hydraulic cylinder 210 is started to enable the pressing blocks 211 to move relatively, the pressing blocks 211 penetrate through the slots 213 and are in contact with the die workpiece, the fixing of the die workpiece is reinforced by the pressing blocks 211, and the pressing blocks 211 are prevented from being pressed by the rubber pads 212 to deform the die workpiece.

The limiting assembly comprises a limiting hydraulic cylinder 214, a push plate 215, a sliding chute 216, a driving motor 217, a sliding block 218, a screw 219 and a limiting plate 220, wherein the rear end of the inner side of the installation seat 21 is fixedly connected with the limiting hydraulic cylinder 214, the front end of a piston rod of the limiting hydraulic cylinder 214 is fixedly connected with the middle part of the rear end of the push plate 215, the push plate 215 is positioned above the workbench 29, the sliding chute 216 is arranged in the middle part of the front end of the upper end of the workbench 29 and is in sliding connection with the sliding block 218, the upper end of the sliding block 218 is fixedly connected with the limiting plate 220, the limiting plate 220 corresponds to the push plate 215, the front end and the rear end of the sliding chute 216 are rotationally connected with the front end and the rear end of the screw 219, the screw 219 is in threaded connection with the middle part of the sliding block 218, the middle part of the front end of the workbench 29 is fixedly connected with the driving motor 217, and an output shaft of the driving motor 217 penetrates through the workbench 29 and is fixedly connected with the front end of the screw 219.

The limiting plate 220 is supported by the sliding block 218, the driving motor 217 is started to rotate the screw 219 according to the size of the die workpiece, the sliding block 218 is enabled to move back and forth along the sliding groove 216 through the threaded connection of the screw 219 and the sliding block 218, the limiting plate 220 is enabled to move back and forth to a specified position, the die workpiece is placed on the workbench 29, the limiting hydraulic cylinder 214 is started to enable the push plate 215 to move forward, the push plate 215 pushes the die workpiece, the die workpiece is limited between the push plate 215 and the limiting plate 220, and the transverse central axes of the milling cutter of the numerically controlled milling machine body 1 and the die workpiece coincide.

The fixing unit 2 further includes a roller shaft 221, and the roller shaft 221 is rotatably connected to the inner sides of the push plate 215 and the limiting plate 220 at equal intervals. The roller shaft 221 ensures the limiting effect of the push plate 215 and the limiting plate 220, and simultaneously facilitates the clamping blocks 28 to push the left and right ends of the die workpiece to move towards the middle of the workbench 29.

The workbench 29 is supported by the mounting seat 21, the bidirectional screw 23 is supported by the vertical plate 22, the clamping blocks 28 are supported by the moving rod 27, the die workpiece is placed on the workbench 29, the front end and the rear end of the die workpiece are limited by the limiting component, the milling cutter of the numerical control milling machine main body 1 is overlapped with the transverse central axis of the die workpiece, the bidirectional screw 23 is driven by the starting motor 24 to rotate, the screw seat 25 relatively slides along the sliding rod 26 through the threaded connection of the bidirectional screw 23 and the screw seat 25, the moving rod 27 and the clamping blocks 28 are driven by the screw seat 25 to relatively slide, the left end and the right end of the die workpiece are contacted and pushed to move towards the middle of the workbench 29, the left end and the right end of the die workpiece are fixedly limited by the clamping blocks 28, the die workpiece is fixed in the middle of the workbench 29, the die workpiece is fixed by the reinforcing component, and the fixed die workpiece is milled by the numerical control milling machine main body 1.

Still include lift pneumatic cylinder 3, lift slider 4 and slide rail 5, the bottom upper end of numerically controlled fraise machine main part 1 is seted up flutedly, and the bottom fixedly connected with lift pneumatic cylinder 3 of recess, the lower extreme middle part of the piston rod upper end fixedly connected with mount pad 21 of lift pneumatic cylinder 3, and the left and right sides both ends downside middle part fixedly connected with lift slider 4 of mount pad 21, the bottom upper end left and right sides middle part fixedly connected with slide rail 5's of numerically controlled fraise machine main part 1 lower extreme, and lift slider 4 and slide rail 5 sliding connection.

When the height of the workbench 29 needs to be adjusted, the lifting hydraulic cylinder 3 is started, and the lifting hydraulic cylinder 3 pushes the mounting seat 21 to drive the lifting sliding block 4 to move up and down along the sliding rail 5, so that the heights of the mounting seat 21 and the workbench 29 are adjusted, and the die workpiece is convenient to observe and take.

The fixing plate 6 and the fan 7 are further included, the outer ends of the fixing plate 6 are fixedly connected to the right rear side and the left front side of the inner side of the mounting seat 21 respectively, the fan 7 is fixedly connected to the inner side of the fixing plate 6, and the fan 7 corresponds to the workbench 29. The fan 7 is supported by the fixing plate 6, and chips on the workbench 29 are blown off by the fan 7, so that the cleanliness of the workbench 29 is improved, and the influence on the turning and milling of the die workpiece is prevented.

The working principle of the numerical control milling machine for manufacturing the die provided by the utility model is as follows: according to the size of the die workpiece, the driving motor 217 is started to rotate the screw 219, the slide block 218 moves back and forth along the slide groove 216 through the threaded connection of the screw 219 and the slide block 218, the limiting plate 220 moves back and forth to a specified position, the die workpiece is placed on the workbench 29, the limiting hydraulic cylinder 214 is started to move the push plate 215 forward, the push plate 215 pushes the die workpiece, the die workpiece is limited between the push plate 215 and the limiting plate 220, the milling cutter of the numerically controlled milling machine body 1 coincides with the transverse central axis of the die workpiece, the motor 24 is started to rotate the bidirectional screw 23, the screw seat 25 slides relatively along the slide rod 26 through the threaded connection of the bidirectional screw 23 and the screw seat 25, the screw seat 25 drives the moving rod 27 and the clamping block 28 to slide relatively, the clamping block 28 contacts and pushes the left end and the right end of the die workpiece to move towards the middle of the workbench 29, the left end and the right end of the die workpiece are fixed and limited through the clamping blocks 28, so that the die workpiece is fixed in the middle of the workbench 29, the clamping blocks 28 are convenient to push the left end and the right end of the die workpiece to move towards the middle of the workbench 29 while the limiting effect of the push plate 215 and the limiting plate 220 is ensured through the roller shaft 221, the hydraulic cylinder 210 is started to enable the clamping blocks 211 to move relatively, the clamping blocks 211 penetrate through the slots 213 and contact with the die workpiece, the clamping blocks 211 are used for reinforcing the fixation of the die workpiece, the rubber pad 212 is used for preventing the clamping blocks 211 from pressing to deform the die workpiece, the fixed die workpiece is milled through the numerically controlled milling machine body 1, the chips on the workbench 29 are blown off through the fan 7, the neatness of the workbench 29 is improved, the die workpiece is prevented from being influenced, and when the height of the workbench 29 needs to be adjusted, the lifting hydraulic cylinder 3 is started, the lifting hydraulic cylinder 3 pushes the mounting seat 21 to drive the lifting sliding block 4 to move up and down along the sliding rail 5, so that the heights of the mounting seat 21 and the workbench 29 are adjusted, and the die workpiece can be conveniently observed and taken.

It should be noted that, in the above embodiment, the core chip of the external control switch set is selected from a PLC single chip microcomputer, the motor 24, the hydraulic cylinder 210, the limiting hydraulic cylinder 214, the driving motor 217, the lifting hydraulic cylinder 3 and the fan 7 can be freely configured according to practical application scenarios, the recommended motor 24 is selected from a forward and reverse rotation motor, the recommended hydraulic cylinder 210 is selected from a piston rod type hydraulic cylinder, the recommended limiting hydraulic cylinder 214 is selected from a piston rod type hydraulic cylinder, the recommended driving motor 217 is selected from a forward and reverse rotation motor, the recommended lifting hydraulic cylinder 3 is selected from a piston rod type hydraulic cylinder, the recommended fan 7 is selected from an axial flow fan, and the external control switch set controls the operation of the motor 24, the hydraulic cylinder 210, the limiting hydraulic cylinder 214, the driving motor 217, the lifting hydraulic cylinder 3 and the fan 7 by methods commonly used in the prior art.

The foregoing description is only illustrative of the present utility model and is not intended to limit the scope of the utility model, and all equivalent structures or equivalent processes or direct or indirect application in other related technical fields are included in the scope of the present utility model.

Claims (6)

1. A numerically controlled fraise machine for mould manufacturing, its characterized in that: comprises a numerical control milling machine main body (1) and a fixing unit (2);

numerical control milling machine main body (1): vertically placing;

fixing unit (2): the device comprises a mounting seat (21), a vertical plate (22), a bidirectional screw (23), a motor (24), a screw seat (25), a slide rod (26), a moving rod (27), a clamping block (28), a workbench (29), a reinforcing component and a limiting component, wherein the mounting seat (21) is positioned above the bottom of a numerical control milling machine main body (1), the front ends of the upper surfaces of the bottom ends of the mounting seat (21) are fixedly connected with the lower ends of the vertical plate (22), the left ends and the right ends of the bidirectional screw (23) are rotationally connected with the inner ends of the vertical plate (22), the right ends of the right vertical plate (22) are fixedly connected with the motor (24), an output shaft of the motor (24) penetrates through the vertical plate (22) and is fixedly connected with the right end of the bidirectional screw (23), different threaded sections of the bidirectional screw (23) are respectively in threaded connection with the screw seat (25), the rear ends of the screw seat (25) are fixedly connected with the front ends of the moving rod (27), the front ends of the inner ends of the vertical plate (22) are fixedly connected with the left ends and the right ends of the slide rod (26), the front ends of the inner ends of the vertical plate (22) are fixedly connected with the front ends of the slide rod (28) through the middle parts of the workbench (29), and the clamping blocks (28) are positioned above the workbench (29), the reinforcing components are arranged at the left end and the right end of the inner side of the mounting seat (21), and the limiting components are arranged at the rear end of the inner side of the mounting seat (21) and the middle part of the front end of the workbench (29).

2. A numerically controlled milling machine for mould manufacture as claimed in claim 1, wherein: the reinforcing component comprises a hydraulic cylinder (210), a compression block (211), a rubber pad (212) and a slot (213), wherein the middle parts of the left end and the right end of the inner side of the mounting seat (21) are fixedly connected with the hydraulic cylinder (210), the outer end of the compression block (211) is fixedly connected with the inner end of a piston rod of the hydraulic cylinder (210), the rubber pad (212) is fixedly connected with the inner end of the compression block (211), the slot (213) is formed in the middle of the clamping block (28), and the compression block (211) corresponds to the slot (213).

3. A numerically controlled milling machine for mould manufacture as claimed in claim 1, wherein: limiting component contains spacing pneumatic cylinder (214), push pedal (215), spout (216), driving motor (217), slider (218), screw rod (219) and limiting plate (220), the inboard rear end fixedly connected with of mount pad (21) is spacing pneumatic cylinder (214), and the rear end middle part of the piston rod front end fixedly connected with push pedal (215) of spacing pneumatic cylinder (214), push pedal (215) are located the top of workstation (29), spout (216) have been seted up at the upper end front side middle part of workstation (29), and spout (216) and slider (218) sliding connection, the upper end fixedly connected with limiting plate (220) of slider (218), and limiting plate (220) correspond with push pedal (215), the front and back both ends of screw rod (219) are connected with in rotation at the front and back both ends of spout (216), and screw rod (219) and the inside threaded connection in middle part of slider (218), the front end middle part fixedly connected with driving motor (217) of workstation (29), and driving motor's output shaft runs through front end fixedly connected with screw rod (219) of workstation (29).

4. A numerically controlled milling machine for mould manufacture as claimed in claim 3, wherein: the fixing unit (2) further comprises a roll shaft (221), and the roll shaft (221) is connected to the inner sides of the push plate (215) and the limiting plate (220) in an equidistant rotation mode.

5. A numerically controlled milling machine for mould manufacture as claimed in claim 1, wherein: still include lift pneumatic cylinder (3), lift slider (4) and slide rail (5), the bottom upper end of numerically controlled fraise machine main part (1) is seted up flutedly, and the bottom fixedly connected with lift pneumatic cylinder (3) of recess, the lower extreme middle part of the piston rod upper end fixedly connected with mount pad (21) of lift pneumatic cylinder (3), and the left and right sides both ends downside middle part fixedly connected with lift slider (4) of mount pad (21), the lower extreme of bottom upper end left and right sides middle part fixedly connected with slide rail (5) of numerically controlled fraise machine main part (1), and lift slider (4) and slide rail (5) sliding connection.

6. A numerically controlled milling machine for mould manufacture as claimed in claim 1, wherein: the automatic fixing device is characterized by further comprising a fixing plate (6) and a fan (7), wherein the outer ends of the fixing plate (6) are fixedly connected to the right rear side and the left front side of the inner side of the mounting seat (21), the fan (7) is fixedly connected to the inner side of the fixing plate (6), and the fan (7) corresponds to the workbench (29).