CN211465450U - Double-spindle high-speed drilling and tapping equipment - Google Patents

Abstract

The utility model provides a double-spindle high-speed drilling and tapping device with simple structure and convenient operation, which comprises a numerical control system, the drilling and tapping equipment also comprises machine tool feet, an inverted T-shaped machine body, a main shaft, a left-right moving carriage, a front-back moving carriage and an up-down moving carriage, adopts a double-gantry four-tool magazine structure, in the machining process, the machine tool is provided with a left-right moving carriage capable of moving left and right relative to a workpiece, a front-back moving carriage moving back and forth relative to the workpiece is arranged on the left-right moving carriage, an up-down moving carriage moving up and down relative to the workpiece is arranged on the front-back moving carriage, a main shaft selects a nearby tool magazine for tool changing, and a four-tool magazine is designed, the cutter can be assembled with various different cutters, the cutters can be changed as required without disassembly, the time cost is saved, the mode of connecting the carriage with the machine tool in the middle of the left-right movement can realize the side feeding and discharging, and the feeding and discharging are more convenient.

Description

Double-spindle high-speed drilling and tapping equipment

Technical Field

The utility model relates to a high-speed brill is attacked the technique, especially relates to a two main shafts are bored at a high speed and are attacked equipment.

Background

With the vigorous development of the domestic industrial manufacturing industry in modern society, grinding tool processing in various industries starts to use processing equipment, and in the production of current manufacturers, a main shaft of the used tapping and drilling equipment is in a direct connection mode, a planar single-gantry mode and a single-tool magazine mode. Generally be used for drilling tapping, also can mill and bore hole processing, in daily use, the brill is attacked equipment and then is partial to light cutting, attacks little screw thread, and the rotational speed is high, but present brill is attacked equipment and is gone up unloading inconvenient, in the in-service use if the work piece is great, required lathe bed is then longer relatively, the required time of single tool magazine design tool changing is long, and the quantity of sword is limited, to some needs multiple sword to process, need carry out the tool changing through loading and unloading tool magazine, it is inconvenient and consume time height to process.

SUMMERY OF THE UTILITY MODEL

The problem that the existing drilling and tapping equipment is inconvenient to machine and consumes time is high is solved, and the drilling and tapping equipment which is convenient, efficient and accurate is provided.

The utility model provides a two high-speed brill of main shaft attack equipment, includes numerical control system and brill and attacks equipment, its characterized in that:

the drilling and tapping equipment also comprises machine tool feet (1), an inverted T-shaped machine body (2), a main shaft (3), a tool magazine (4), a left-right moving assembly (5), a front-back moving assembly (6) and an up-down moving assembly (7);

the lower end of the inverted T-shaped lathe bed is provided with two machine tool legs (1), the middle protruding part of the upper end of the inverted T-shaped lathe bed (2) is a connecting part, and the two non-protruding sides of the upper end of the inverted T-shaped lathe bed (2) are provided with a workbench;

the left-right moving assembly (5) is arranged on a connecting part of a protruding part in the middle of the upper end of the inverted T-shaped lathe bed (2);

the two groups of front and back moving components (6) are respectively connected with the two ends of the front surface of the left and right moving component (5);

the two groups of up-down moving components (7) are respectively arranged on the two front-back moving components (6);

the two groups of main shafts (3) are sleeved in the up-and-down moving planker (14);

the tool magazine (4) is provided with four groups and is respectively arranged at the left end and the right end of the workbench at the two sides of the upper end of the inverted T-shaped bed body (2).

The left-right moving assembly (5) comprises a left-right moving carriage (8), a left-right moving guide rail (9) and a left-right moving slider (10), the left-right moving guide rail (9) is arranged at a joint at a middle protruding part at the upper end of the inverted T-shaped lathe bed (2), the left-right moving slider (10) is arranged at the middle position of the bottom of the left-right moving carriage (8), the left-right moving guide rail (9) is connected with the left-right moving slider (10) in a matched mode, a linear machine stator and a rotor for controlling sliding amplitude are arranged between the left-right moving guide rail (9) and the left-right moving slider (10), the left-right moving carriage (8) is connected with the middle joint of the inverted T-shaped lathe bed (2) at the bottom side.

Furthermore, the front-back moving assembly (6) comprises a front-back moving carriage (11), a front-back moving guide rail (12) and a front-back moving slider (13), the front-back moving guide rail (12) is arranged on the front surface of the front-back moving carriage (8), the front-back moving slider (13) is arranged on the inner side of the front-back moving carriage (11), the front-back moving guide rail (12) and the front-back moving slider (13) are connected in a matched mode, and a linear machine stator and a rotor for controlling sliding amplitude are arranged between the front-back moving guide rail (12).

Furthermore, the up-down moving assembly (7) comprises an up-down moving carriage (14), an up-down moving guide rail (15) and an up-down moving slider (16), the up-down moving carriage (14) is a hollow semi-cylinder, the up-down moving guide rail (15) is arranged on the outer side of the up-down moving carriage (11), the up-down moving slider (16) is arranged on the up-down moving carriage (14), the up-down moving guide rail (15) and the up-down moving slider (16) are connected in a matched mode, and a linear motor stator and a rotor for controlling sliding amplitude are arranged between the up-down moving guide rail.

Further, the tool magazine (4) is a half-sector servo tool magazine.

Furthermore, two non-protruding sides of the upper end of the inverted T-shaped lathe bed (2) are provided with a workbench, two coordinate systems are formed by combining two sets of main shafts (3), and the two coordinate systems are suitable for two sets of different codes or the same set of codes

And further, the numerical control system is connected with the drilling and tapping equipment and controls the equipment to move.

Compared with the prior art, the utility model adopts the design of the four tool magazines, and the numerical control system is adopted for control, the equipment automatically selects and replaces the tools, the four tool magazines are designed in the using process, the main shaft can be used for tool changing by adopting the principle of proximity in the processing process of the workpiece, and the main shaft selects the tool magazine to be used for tool changing;

the lathe bed 2 is made of marble, so that the stability of the whole machining center in use is ensured; the marble has the characteristics of difficult deformation, no rustiness, easy maintenance, acid and alkali resistance, high hardness, wear resistance, antimagnetic performance and the like, and further ensures the processing precision of processing equipment;

the four-tool magazine is designed, a plurality of different tools are assembled, different tools are prepared in advance according to needs under the condition of no need of stopping machine and dismounting, and tools are directly changed during processing, so that the time cost is greatly saved;

the utility model discloses the linear machine stator and active cell or the lead screw of the control slip range of establishing in guide rail and guide rail slider

The middle position of the bottom surface of the left-and-right moving planker is connected with the machine tool body, and compared with the traditional side connection, the feeding and discharging are more convenient, the feeding of the traditional side connection is from the middle of the machine tool, the feeding is inconvenient for longer workpieces, and certain deviation exists when the workpieces are fixed;

the automatic use of numerical control system in the use changes the movement track of feed volume and relative work piece, carries out high-efficient accurate brill to attacking with a work piece, avoids manual operation, the error appears, convenient operation, the precision is high.

Drawings

Fig. 1 is an oblique two-side view of the present invention;

FIG. 2 is an exploded view of the back-and-forth movement assembly of the present invention;

FIG. 3 is a structural diagram of the back-and-forth moving assembly of the present invention

FIG. 4 is a structural diagram of the left-right moving assembly of the present invention;

FIG. 5 is a structural view of the up-and-down moving assembly of the present invention;

Detailed Description

The utility model provides a system high-speed brill of two main shafts attacks equipment, its characterized in that including numerical control system and brill:

the drilling and tapping equipment further comprises a machine tool foot 1, an inverted T-shaped machine body 2, a main shaft 3, a tool magazine 4, a left-right moving assembly 5, a front-back moving assembly 6 and a vertical moving assembly 7;

the lower end of the inverted T-shaped lathe bed is provided with two machine tool legs 1, the convex part in the middle of the upper end of the inverted T-shaped lathe bed 2 is a connecting part, and the two non-convex sides of the upper end of the inverted T-shaped lathe bed 2 are provided with a workbench;

the left-right moving assembly 5 is arranged on a connecting part of a convex part in the middle of the upper end of the inverted T-shaped lathe bed 2;

the front and back moving components 6 are provided with two groups and are respectively connected with the two ends of the front surface of the left and right moving component 5;

the up-down moving components 7 are provided with two groups and are respectively arranged on the two back-forth moving components 6;

the left-right moving assembly 5 comprises a left-right moving carriage 8, a left-right moving guide rail 9 and a left-right moving slide block 10, the left-right moving guide rail 9 is arranged on a connecting part at a protruding part in the middle of the upper end of the inverted T-shaped bed body 2, the left-right moving slide block 10 is arranged at the middle position of the bottom of the left-right moving carriage 8, and the left-right moving guide rail 9 is connected;

the front-back moving assembly 6 comprises a front-back moving carriage 11, a front-back moving guide rail 12 and a front-back moving slider 13, wherein the front-back moving guide rail 12 is arranged on the front surface of the front-back moving carriage 8, the front-back moving slider 13 is arranged on the inner side of the front-back moving carriage 11, and the front-back moving guide rail 12 is connected with the front-back moving slider;

the up-down moving assembly 7 comprises an up-down moving carriage 14, an up-down moving guide rail 15 and an up-down moving slider 16, wherein the up-down moving guide rail 15 is arranged at the outer side of the up-down moving carriage 11, the up-down moving slider 16 is arranged on the up-down moving carriage 14, and the up-down moving guide rail 15 is in matched connection with the up-down moving slider;

two groups of main shafts 3 are sleeved in the up-and-down moving planker 14;

the tool magazine 4 is provided with four groups and is respectively arranged at the left end and the right end of the workbench at the two sides of the upper end of the inverted T-shaped lathe bed 2, and the adopted tool magazine 4 is a half-sector servo tool magazine;

the two non-protruding sides of the upper end of the inverted T-shaped lathe bed 2 are provided with a workbench, and two sets of main shafts 3 are combined to form two coordinate systems, wherein two sets of different codes are suitable for the embodiment;

in this embodiment, a linear motor stator 17 and a mover 18 for controlling the sliding width are provided between the left-right moving guide 9 and the left-right moving slider 10, between the front-back moving guide 12 and the front-back moving slider 13, and between the up-down moving guide 15 and the up-down moving slider 16.

And the numerical control system is connected with the drilling and tapping equipment and controls the equipment to move.

The drilling and tapping device is connected with the numerical control system, a numerical control system control device automatically selects and replaces a cutter, the feeding amount, the corresponding motion track relative to a workpiece and other work are automatically changed, and the adopted processing codes are as follows:

x-left principal axis transverse code

U-right main axis transverse code

Y-double-spindle vertical code

Z-left principal axis up-down code

W-Right Main shaft Up-Down code

M206-synchronously changing cutter codes of rear tool magazine

M306-synchronous tool code of tool magazine with front face

M3-left spindle operation

M103-Right spindle operation

M5-Dual spindle stop

S-speed of rotation

M8-left Coolant

M18-Right Coolant opening

M9-synchronous liquid coolant shut-off

J-left knife long compensation

Q-right knife long compensation taste

M151-synchronous code execution

M150-Sync code cancellation

G0-fast moving

G1-cutting feed

G3-circular arc cutting

R-arc code

F-cutting speed

M30-end of procedure

The processing action flow comprises the following steps:

1, workpiece:

aluminum length X width X height 200mmX50mmX20mm

2, cutting action: contour milling

3, cutting tool: t1-10mm flat milling cutter (roughing mill) T2-10mm flat milling cutter (finish mill)

4, tool setting: XUY center the workpiece, ZW to the top plane of the workpiece

Principle of three processes

4 same workpieces are arranged on a machine table, and are subjected to contour milling synchronous processing by utilizing double shafts

Four processing procedures

％

M150 (canceling synchronous code)

G40G 80 (cancellation of knife compensation)

G0G 91G 28Z 0(Z axis zero-return)

G0G 91G 28W 0(W axis zero point)

(synchronous processing of the two rear work)

T1M 206 (synchronous changing rear 2 tool magazine No. 1)

M3M 103S 18000 (synchronous spindle running)

M8M 18 (synchronous cooling liquid)

G0G 90G 54X-5. Y115.1U-5 (X-left lateral movement, U-right lateral movement, Y-synchronous vertical movement)

G43.2 Z20.J1 W20.Q11 (J1-left tool No. 1 taste, Q11-right tool No. 1 taste)

M151 (synchronous code execution, the left side is taken as a template XUZWY five-axis synchronous operation in the following)

Z2.

G1 Z-10.F2000.

Y110.1

G3 X0.Y105.1 R5.

G1 X30.1

Y-105.1

X-30.1

Y105.1

X0.

G3 X5.Y110.1 R5.

G1 Y115.1

G0 Z20.

M5 (double spindle stop)

M9 (synchronous cooling liquid switch)

M150 (canceling synchronous code)

T2M 206 (synchronous changing back 2 tool magazine No. 2 tools)

M3 M103 S20000

M8 M18

G0 G90 G54 X-5.Y115.U-5.

G43.2 Z20.J2 W20.Q12 (J2-left tool No. 2 taste, Q12-right tool No. 2 taste)

M151

Z2.

G1 Z-10.F2000.

Y110.

G3 X0.Y105.R5.

G1 X30.

Y-105.

X-30.

Y105.

X0.

G3 X5.Y110.R5.

G1 Y115.

G0 Z20.

M5

M9

M150

(synchronous processing of the first two workpieces)

T1M 306 (synchronous changing 2 front tools of tool magazine No. 1)

M3 M103 S18000

M8 M18

G0 G90 G54 X-5.Y115.1 U-5.

G43.2 Z20.J1 W20.Q11

M151

Z2.

G1 Z-10.F2000.

Y110.1

G3 X0.Y105.1 R5.

G1 X30.1

Y-105.1

X-30.1

Y105.1

X0.

G3 X5.Y110.1 R5.

G1 Y115.1

G0 Z20.

M5

M9

M150

T2M 306 (synchronous changing 2 front tools of tool magazine 2)

M3 M103 S20000

M8 M18

G0 G90 G54 X-5.Y115.U-5.

G43.2 Z20.J2 W20.Q12

M151

Z2.

G1 Z-10.F2000.

Y110.

G3 X0.Y105.R5.

G1 X30.

Y-105.

X-30.

Y105.

X0.

G3 X5.Y110.R5.

G1 Y115.

G0 Z20.

M5

M9

M150

M30 (end of program)

％

Receiving X-left spindle transverse code, and receiving the program that the front-back movement assembly 6 of the left spindle moves back and forth relatively

Receiving a U-right spindle transverse code, wherein the program is that the forward-backward movement component 6 of the right spindle moves forward and backward relatively

Receiving Y-double-spindle vertical codes, wherein the program is to move the left-right component 5 relatively left and right

Receive Z-left spindle up-down code, receive this procedure it is the up-down movement assembly 7 of the left spindle to move up and down relatively

Receiving W-up and down codes of the right main shaft, and receiving the program that the up-down moving component 7 of the right main shaft moves up and down relatively

And (5) after the procedure is finished, taking out the workpiece to finish machining.

The above embodiments are only preferred embodiments of the present invention, and the scope of the present invention is not limited thereto; except for the specific embodiments, all equivalent changes in the shape, structure and principle of the present invention should be covered by the protection scope of the present invention.

Claims (7)

1. The utility model provides a two high-speed brill of main shaft attack equipment, includes numerical control system and brill and attacks equipment, its characterized in that:

the drilling and tapping equipment also comprises machine tool feet (1), an inverted T-shaped machine body (2), a main shaft (3), a tool magazine (4), a left-right moving assembly (5), a front-back moving assembly (6) and an up-down moving assembly (7);

the lower end of the inverted T-shaped lathe bed is provided with two machine tool legs (1), the middle protruding part of the upper end of the inverted T-shaped lathe bed (2) is a connecting part, and the two non-protruding sides of the upper end of the inverted T-shaped lathe bed (2) are provided with a workbench;

the left-right moving assembly (5) is arranged on a connecting part of a protruding part in the middle of the upper end of the inverted T-shaped lathe bed (2);

the two groups of front and back moving components (6) are respectively connected with the two ends of the front surface of the left and right moving component (5);

the two groups of up-down moving components (7) are respectively arranged on the two front-back moving components (6);

the two groups of main shafts (3) are sleeved in the up-and-down moving planker (14);

the tool magazine (4) is provided with four groups and is respectively arranged at the left end and the right end of the workbench at the two sides of the upper end of the inverted T-shaped bed body (2).

2. The double-spindle high-speed drilling and tapping device as claimed in claim 1, wherein: the left-right moving assembly (5) comprises a left-right moving carriage (8), a left-right moving guide rail (9) and a left-right moving slider (10), the left-right moving guide rail (9) is arranged at a joint at a middle protruding part at the upper end of the inverted T-shaped lathe bed (2), the left-right moving slider (10) is arranged at the middle position of the bottom of the left-right moving carriage (8), the left-right moving guide rail (9) is connected with the left-right moving slider (10) in a matched manner, a linear machine stator and a rotor for controlling sliding amplitude are arranged between the left-right moving guide rail (9) and the left-right moving slider (10), the left-right moving carriage (8) is connected at the middle of the bottom side with the inverted T-shaped lathe bed (2.

3. The double-spindle high-speed drilling and tapping device as claimed in claim 1, wherein: the front-back moving assembly (6) comprises a front-back moving carriage (11), a front-back moving guide rail (12) and a front-back moving slider (13), the front-back moving guide rail (12) is arranged on the front surface of the front-back moving carriage (8), the front-back moving slider (13) is arranged on the inner side of the front-back moving carriage (11), the front-back moving guide rail (12) and the front-back moving slider (13) are connected in a matched mode, and a linear machine stator and a rotor for controlling sliding amplitude are arranged between the front-back moving guide rail.

4. The double-spindle high-speed drilling and tapping device as claimed in claim 1, wherein: the up-down moving assembly (7) comprises an up-down moving carriage (14), an up-down moving guide rail (15) and an up-down moving slider (16), the up-down moving carriage (14) is a hollow semi-cylinder, the up-down moving guide rail (15) is arranged on the outer side of the up-down moving carriage (11), the up-down moving slider (16) is arranged on the up-down moving carriage (14), the up-down moving guide rail (15) and the up-down moving slider (16) are connected in a matched mode, and a linear motor stator and a rotor which are used for controlling sliding amplitude are arranged between the up.

5. The double-spindle high-speed drilling and tapping device as claimed in claim 1, wherein: the tool magazine (4) is a half-sector servo tool magazine.

6. The double-spindle high-speed drilling and tapping device as claimed in claim 1, wherein: the two non-protruding sides of the upper end of the inverted T-shaped lathe bed (2) are provided with a workbench, two coordinate systems are formed by combining two sets of main shafts (3), and the two coordinate systems are suitable for two sets of different codes or the same set of codes.

7. The double-spindle high-speed drilling and tapping device as claimed in claim 1, wherein: and the numerical control system is connected with the drilling and tapping equipment and controls the equipment to move.

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