CN212286653U

CN212286653U - Straight rail type dual-spindle turning and milling equipment

Info

Publication number: CN212286653U
Application number: CN202020504172.3U
Authority: CN
Inventors: 陈圣杰; 姜少飞; 陈文军
Original assignee: Ningbo Pinshang Precision Machine Tool Co ltd
Current assignee: Ningbo Pinshang Precision Machine Tool Co ltd
Priority date: 2020-04-08
Filing date: 2020-04-08
Publication date: 2021-01-05
Anticipated expiration: 2030-04-08

Abstract

The utility model belongs to the lathe field provides a straight rail formula is to two main shaft turn-mills processing equipment of matter, include: a machine platform; the first main shaft is fixedly arranged on the machine table, and a feeding channel is arranged in the first main shaft; the first tool turret is movably arranged on the machine table, the end part of the first tool turret is rotatably provided with a tool bit connecting disc, and the tool bit connecting disc is positioned on the side of the first main shaft; the second main shaft is movably arranged on the machine table and has the same height as the first main shaft, and a material receiving channel is arranged in the second main shaft; the second tool turret is movably arranged on the machine table, and is connected with a power tool bit which is positioned on the side of the second main shaft; when the second spindle moves to be flush with the first spindle, the receiving channel is aligned with the feeding channel. Compared with the prior art, the utility model has the advantages of after first main shaft processing was accomplished, the second main shaft can follow up and receive the work piece that has processed, realizes the purpose of work piece both ends processing, need not to switch the work piece direction during processing, improves machining efficiency.

Description

Straight rail type dual-spindle turning and milling equipment

Technical Field

The utility model belongs to the lathe field, concretely relates to straight rail formula is to two main shafts turnning and milling processing equipment of matter.

Background

Turning and milling are advanced cutting and machining methods which utilize the combined motion of milling cutter rotation and workpiece rotation to realize cutting and machining of workpieces and enable the workpieces to meet use requirements in various aspects such as shape precision, position precision and machined surface integrity. Turning and milling combined machining is not a method for combining turning and milling into a machine tool, but utilizes turning and milling combined motion to finish machining of various surfaces, and is a new cutting theory and cutting technology generated under the condition that the current numerical control technology is greatly developed.

The existing turning and milling equipment can only process one end of a workpiece, and the direction of the workpiece needs to be changed when the other end of the workpiece is processed, so that the processing efficiency is low.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem to prior art's current situation, and provide a straight rail formula is to two main shaft turn-mills processing equipment of matter.

The utility model provides a technical scheme that above-mentioned technical problem adopted does: the utility model provides a straight rail formula is to matter two main shafts turnning and milling processing equipment, includes: a machine platform;

the first main shaft is fixedly arranged on the machine table, and a feeding channel is arranged in the first main shaft;

the first tool turret is movably arranged on the machine table, a tool bit connecting disc is rotatably arranged at the end part of the first tool turret, and the tool bit connecting disc is positioned on the side of the first main shaft;

the second main shaft is movably arranged on the machine table and has the same height as the first main shaft, and a material receiving channel is arranged in the second main shaft;

the second tool turret is movably arranged on the machine table, a power tool bit is connected to the second tool turret, and the power tool bit is positioned on the side of the second main shaft;

the material receiving channel is aligned with the feed channel when the second spindle moves to be flush with the first spindle.

In the above-mentioned straight rail type dual spindle turning and milling device, the first turret includes:

the tool turret moving assembly is movably connected with the machine table;

the cutter tower motor is arranged on the cutter tower moving assembly, and the cutter head connecting disc is connected with the cutter tower motor;

the tool turret moving assembly can drive the tool turret motor to move in three axial directions, and the tool turret motor can drive the tool bit connecting disc to rotate.

In foretell two main shaft turn-milling processing equipment of straight rail formula oppositism, all with having seted up a plurality of tool bit connecting hole on the tool bit connection pad, every all be connected with the tool bit connecting seat on the tool bit connecting hole.

In the above-mentioned straight rail type dual spindle turning and milling equipment, the turret moving assembly includes: the tool turret transverse moving plate is arranged on the machine table in a sliding mode;

the cutter tower vertical moving plate is arranged on the cutter tower transverse moving plate in a sliding mode, and a supporting plate is longitudinally arranged on the cutter tower vertical moving plate;

and the cutter tower longitudinal moving plate is arranged on the supporting plate in a sliding manner, and the cutter tower motor is connected with the cutter tower longitudinal moving plate.

In the above-mentioned straight rail type dual spindle turning and milling processing equipment, the first spindle includes a first spindle seat, which is fixedly connected to the machine table, the first spindle seat is connected to a first spindle motor, the first spindle motor is connected to a first rotating shaft, and the feeding channel is provided in the first rotating shaft.

In the above-mentioned straight rail type dual spindle turn-milling machining apparatus, the second spindle includes: the main shaft moving assembly is movably connected with the machine table;

the second spindle seat is arranged on the spindle moving assembly, a second spindle motor is arranged on the second spindle seat, a second rotating shaft is connected to the second spindle motor, and the material receiving channel is arranged on the second rotating shaft.

In the above-mentioned straight rail type dual spindle turning and milling equipment, the spindle moving assembly includes: the spindle transverse moving plate is connected to the machine table in a sliding manner;

and the spindle vertical moving plate is connected with the spindle transverse moving plate in a sliding manner, and the second spindle seat is arranged on the spindle vertical moving plate.

In foretell two main shaft turnning and milling processing equipment of straight rail formula alignment, the second sword tower includes the connecting seat, its vertically set up in on the board, sliding connection has the longitudinal movement board on the connecting seat, the power tool bit with the longitudinal movement board is connected, be provided with fixed blade holder on the longitudinal movement board, fixed blade holder is located power tool bit below and with the second rotation axis height is the same.

In the above-mentioned straight rail type dual spindle turn-milling machining apparatus, the power tool bit includes: the tool bit seat is connected with the longitudinal moving plate;

the tool bit motor is inserted into the tool bit seat;

and the rotary tool post is inserted on the tool bit seat, and the end part of the rotary tool post is meshed and connected with the tool bit motor.

In foretell two main shaft turnning and milling processing equipment of straight rail formula dual, the main shaft erects to move and is connected with the support frame on the board, the activity is inserted on the support frame and is equipped with row material ejector pin, arrange the material ejector pin and run through second spindle motor and insert to receive in the material passageway, the support frame upper end is connected with row material cylinder, arrange the material cylinder with arrange the material ejector pin and be connected.

Compared with the prior art, the utility model has the advantages that after the first main shaft is processed in the straight rail type dual-main shaft turning and milling equipment, the second main shaft can follow and receive the processed workpiece, so that the purpose of processing the two ends of the workpiece is realized, the direction of the workpiece does not need to be switched during the processing period, and the processing efficiency is improved; the work piece after the processing is accomplished can be discharged by row material ejector pin, does not need the manual work to get the piece, improves operating personnel's security during processing.

Drawings

FIG. 1 is a perspective view of the present straight rail dual spindle turn-milling machine;

FIG. 2 is a perspective view of a second spindle;

FIG. 3 is a perspective view of the first spindle;

FIG. 4 is a perspective view of a second turret;

fig. 5 is a perspective view of a first turret.

In the figure, 1, a machine; 2. a feed channel; 3. a cutter head connecting disc; 4. a material receiving channel; 5. a turret motor; 6. a cutter head connecting hole; 7. a cutter head connecting seat; 8. a turret transverse moving plate; 9. a knife tower vertical moving plate; 10. a tool turret longitudinal moving plate; 11. a first spindle base; 12. a first spindle motor; 13. a first rotating shaft; 14. a second spindle base; 15. a second spindle motor; 16. a second rotation shaft; 17. a main shaft transverse moving plate; 18. a main shaft vertical moving plate; 19. a connecting seat; 20. longitudinally moving the plate; 21. fixing the tool apron; 22. A tool bit seat; 23. a cutter head motor; 24. rotating the tool post; 25. a support frame; 26. a discharging ejector rod; 27. A support plate; 28. a discharge cylinder; 29. a lead screw; 30. a servo motor.

Detailed Description

The following are specific embodiments of the present invention and the accompanying drawings are used to further describe the technical solution of the present invention, but the present invention is not limited to these embodiments.

As shown in fig. 1 to 5, the straight rail type dual spindle turn-milling device includes: a machine table 1; the first main shaft is fixedly arranged on the machine table 1, and a feeding channel 2 is arranged in the first main shaft; the first tool turret is movably arranged on the machine table 1, the end part of the first tool turret is rotatably provided with a tool bit connecting disc 3, and the tool bit connecting disc 3 is positioned on the side of the first main shaft; the second main shaft is movably arranged on the machine table 1, and a material receiving channel 4 is arranged in the second main shaft; the second tool turret is movably arranged on the rack, and is connected with a power tool bit which is positioned on the side of the second main shaft; when the second spindle is moved to be level with the first spindle, the collecting channel 4 is aligned with the feed channel 2.

The first main shaft is arranged on the machine table 1, a feeding channel 2 is arranged in the first main shaft, a workpiece to be machined can be fed in through the feeding channel 2, the first main shaft can drive the workpiece to rotate when rotating, the first tool turret is movably arranged on the machine table 1, the tool bit connecting disc 3 is used for connecting a turning tool or a milling cutter, when machining is carried out, the first tool turret drives the tool bit connecting disc 3 to move towards the feeding channel 2, the workpiece in the first main shaft can be machined, after the workpiece is machined in the first main shaft, the first tool turret withdraws, meanwhile, the second main shaft moves towards the first main shaft, the material receiving channel 4 can be flush with the feeding channel 2, one end of the workpiece which is machined can be inserted into the material receiving channel 4, then, the second main shaft moves towards the second tool turret, and a power tool bit is connected to the second tool turret, so that the other end of the workpiece can be machined, therefore, the purpose of processing the two ends of the workpiece without switching the direction of the workpiece is achieved, the full automation degree is high, and the processing efficiency can be greatly improved.

The equipment is also suitable for a processing mode of cutting off raw materials, in the process of processing the rod-shaped raw materials, the raw materials are inserted into the feeding channel 2, the first cutter tower processes one end, extending out of the feeding channel 2, of the raw materials, after the processing is finished, the second main shaft extends into the feeding channel and receives the end part of the rod-shaped workpiece which is processed, at the moment, a cutter of the first cutter tower cuts off the rod-shaped workpiece, then the second main shaft moves to the second cutter tower to process the other end of the rod-shaped workpiece, meanwhile, the first cutter tower can continue to process the workpiece in the feeding channel 2, and the first cutter tower and the second cutter tower work at the same time, so that the working efficiency is further improved.

The first turret includes: the tool turret moving assembly is movably connected with the machine table 1; the cutter tower motor 5 is arranged on the cutter tower moving assembly, and the cutter head connecting disc 3 is connected with the cutter tower motor 5; the turret moving assembly can drive the turret motor 5 to move in three axial directions, and the turret motor 5 can drive the cutter head connecting disc 3 to rotate.

The turret moving assembly can drive the turret motor 5 to move in three axial directions, the turret motor 5 is connected with the tool bit connecting disc 3, the tool bit connecting disc 3 can be further achieved to be close to or far away from the purpose that the first main shaft direction moves, the turret motor 5 can drive the tool bit connecting disc 3 to rotate during working, the tool changing purpose is further achieved, and turning and milling are facilitated.

The cutter head connecting disc 3 is provided with a plurality of cutter head connecting holes 6, and each cutter head connecting hole 6 is connected with a cutter head connecting seat 719.

The dismantled and assembled connection of tool bit connecting seat 719 in tool bit connecting hole 6, different lathe tools or milling cutter can be connected to tool bit connecting seat 719, and tool turret motor 5 drives tool bit connecting seat 719 and can realize the tool changing purpose, realizes diversified processing, also can connect the power tool bit to realize the milling process purpose on tool bit connecting seat 719, connects different tool bits according to different production demands.

The turret movement assembly includes: the knife tower transverse moving plate 8 is arranged on the machine table 1 in a sliding manner; the cutter tower vertical moving plate 9 is arranged on the cutter tower transverse moving plate 8 in a sliding mode, and a supporting plate 27 is longitudinally arranged on the cutter tower vertical moving plate 9; and the cutter tower longitudinal moving plate 10 is arranged on the supporting plate 27 in a sliding mode, and the cutter tower motor 5 is connected with the cutter tower longitudinal moving plate 10.

The turret sideslip board 8 can be in the lateral sliding on board 1, and the turret erects and moves board 9 and connect on turret sideslip board 8, and then can drive the turret erects when turret sideslip board 8 removes and move board 9 and slide, and turret erects and moves board 9 and can slide on turret sideslip board 8, and the turret indulges and moves board 10 and can erects and move vertical sliding on board 9 at the turret, and turret motor 5 indulges with the turret and moves board 10 and be connected, and then realizes the purpose of turret motor 5 at three axial rebound.

The turret transverse moving plate 8, the turret longitudinal moving plate 10 and the turret vertical moving plate 9 are all driven by screws 29, the turret transverse moving plate 8, the turret longitudinal moving plate 10 and the turret vertical moving plate 9 are in threaded connection with the corresponding screws 29, the screws 29 can be driven to rotate by servo motors 30, the servo motors 30 can drive the screws 29 to rotate, relative movement of the turret transverse moving plate 8, the turret longitudinal moving plate 10 and the turret vertical moving plate 9 is achieved, and moving distance is accurate.

The first spindle comprises a first spindle seat 11 which is fixedly connected with the machine table 1, a first spindle motor 12 is connected to the first spindle seat 11, a first rotating shaft 13 is connected to the first spindle motor 12, and the feeding channel 2 is provided with the first inner first rotating shaft 13.

The first spindle seat 11 is disposed on the machine table 1 and is fixedly connected to the machine table 1, and the first spindle motor 12 can drive the first rotating shaft 13 to rotate so as to drive the workpiece in the feeding channel 2 to rotate, thereby achieving the purpose of turning the workpiece.

Because the first spindle seat 11 is fixedly connected with the machine table 1, the torque which can be borne by the first spindle seat is large, and therefore a complex and laborious machining process can be carried out on the workpiece in the first spindle in the first tool turret.

According to different production requirements or different workpieces, different clamping jaws can be connected to the first rotating shaft 13 to clamp the workpieces in the feeding channel 2, so that the first rotating shaft 13 is prevented from sliding relative to the workpieces when rotating.

The second main shaft includes: the main shaft moving assembly is movably connected with the machine table 1; and the second spindle seat 14 is arranged on the spindle moving assembly, a second spindle motor 15 is arranged on the second spindle seat 14, a second rotating shaft 16 is connected to the second spindle motor 15, and the material receiving channel 4 is formed in the second rotating shaft 16.

The second spindle seat 14 is connected to the spindle moving assembly, and the spindle moving assembly drives the second spindle seat 14 to move so as to move the second rotating shaft 16 to a position flush with the first rotating shaft 13, because the material receiving channel 4 is arranged on the second rotating shaft 16, when the second rotating shaft 16 is flush with the first rotating shaft 13, the material receiving channel 4 can be aligned with the material feeding channel 2, and further, the purpose of converting the processing end of the workpiece is achieved.

The spindle moving assembly includes: a spindle traverse plate 17 which is connected to the machine table 1 in a sliding manner; and a spindle vertical moving plate 18 which is slidably connected with the spindle transverse moving plate 17, wherein the second spindle seat 14 is arranged on the spindle vertical moving plate 18.

The spindle transverse moving plate 17 can transversely slide on the machine table 1, and then can drive the spindle to vertically move the plate 18, the spindle vertically moves the plate 18 and is connected with the second spindle seat 14, the spindle vertically moves the plate 18 and can drive the second spindle seat 14 to vertically move when vertically sliding on the spindle transverse moving plate 17, and then the purpose of driving the second rotating shaft 16 to move in two directions is achieved, and then the second rotating shaft 16 can be aligned with the first rotating shaft 13.

The second turret includes a connecting seat 19, which is longitudinally disposed on the machine platform 1 and located on the side of the second rotating shaft 16, a longitudinal moving plate 20 is slidably connected to the connecting seat 19, the power tool bit is connected to the longitudinal moving plate 20, a fixed tool seat 21 is disposed on the longitudinal moving plate 20, and the fixed tool seat 21 is located below the power tool bit.

The longitudinal moving plate 20 can drive the power tool bit to move up and down, the spindle transverse moving plate 17 can drive the second rotating shaft 16 to move transversely, the second rotating shaft 16 can move to the position below the power tool bit, and then the longitudinal moving plate 20 drives the power tool bit to move downwards, so that a workpiece on the second rotating shaft 16 can be machined.

The longitudinal moving plate 20 is provided with a fixed tool apron 21, the fixed tool apron 21 is flush with the second rotating shaft 16, the fixed tool apron 21 is used for connecting a turning tool, the spindle moving assembly drives the second spindle to move, a workpiece on the second rotating shaft 16 can be abutted to a tool bit of the fixed tool apron 21, then the second spindle motor 15 drives the second rotating shaft 16 to rotate, and the purpose of turning the other end of the workpiece is achieved.

According to actual production requirements, different clamping jaws can be connected to the second rotating shaft 16 to clamp the workpiece, so that the workpiece is prevented from rotating relative to the second rotating shaft 16.

The longitudinal moving plate 20, the spindle traverse plate 17 and the spindle vertical moving plate 18 are all driven by a lead screw 29, and the lead screw 29 is driven by a servo motor 30 to rotate, which is not described in detail.

The power tool bit includes: a tool tip seat 22 connected to the longitudinal moving plate 20; a tool bit motor 23 inserted into the tool bit holder 22; and the rotary tool post 24 is inserted on the tool bit seat 22, and the end part of the rotary tool post is meshed with the tool bit motor 23.

The tool bit motor 23 can drive the rotary tool post 24 to rotate, and then the purpose of milling is achieved.

The main shaft vertical moving plate 18 is connected with a support frame 25, a discharging ejector rod 26 is movably inserted into the support frame 25, the discharging ejector rod 26 penetrates through the second main shaft motor 15 and is inserted into the material receiving channel 4, the upper end of the support frame 25 is connected with a discharging air cylinder 28, and the discharging air cylinder 28 is connected with the discharging ejector rod 26.

After the work piece processing was accomplished, clap the material cylinder and drive row material ejector pin 26 and remove, because arrange material ejector pin 26 and be located to insert to receiving in the material passageway 4, so can be ejecting with the work piece in receiving the material passageway 4 when arranging material ejector pin 26 and removing, realize the purpose of the ejection of compact, further improve degree of automation, and improve the security during production.

The work can also be discharged from the second rotary shaft 16 by introducing or introducing air into the discharge ram 26.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications, additions and substitutions for the specific embodiments described herein will be apparent to those skilled in the art without departing from the scope and spirit of the invention as defined in the accompanying claims.

Claims

1. The utility model provides a two main shaft turn-milling processing equipment of straight rail formula opposites matter which characterized in that includes:

a machine platform;

2. The straight rail dual spindle turn-milling machine tool of claim 1, wherein the first turret comprises:

the tool turret moving assembly is movably connected with the machine table;

3. The straight rail type dual-spindle turning and milling machining device as claimed in claim 1, wherein a plurality of tool bit connecting holes are formed in the tool bit connecting disc, and each tool bit connecting hole is connected with a tool bit connecting base.

4. The apparatus of claim 2, wherein the turret movement assembly comprises: the tool turret transverse moving plate is arranged on the machine table in a sliding mode;

5. The straight rail type dual-spindle turning and milling device as claimed in claim 1, wherein the first spindle comprises a first spindle seat fixedly connected to the machine platform, a first spindle motor is connected to the first spindle seat, a first rotating shaft is connected to the first spindle motor, and the feeding channel is opened in the first rotating shaft.

6. The apparatus of claim 1, wherein the second spindle comprises: the main shaft moving assembly is movably connected with the machine table;

7. The apparatus of claim 6, wherein the spindle moving assembly comprises: the spindle transverse moving plate is connected to the machine table in a sliding manner;

8. The apparatus according to claim 6, wherein the second turret includes a connecting seat longitudinally disposed on the machine platform, a longitudinally moving plate is slidably connected to the connecting seat, the power tool bit is connected to the longitudinally moving plate, and a fixed tool seat is disposed on the longitudinally moving plate, and is located below the power tool bit and at the same height as the second rotating shaft.

9. The apparatus of claim 8, wherein the power tool bit comprises: the tool bit seat is connected with the longitudinal moving plate;

the tool bit motor is inserted into the tool bit seat;

10. The straight rail type dual-spindle turning and milling machining device according to claim 7, wherein a support frame is connected to the spindle vertical moving plate, a discharging ejector rod is movably inserted into the support frame, the discharging ejector rod penetrates through the second spindle motor and is inserted into the material receiving channel, a discharging air cylinder is connected to the upper end of the support frame, and the discharging air cylinder is connected with the discharging ejector rod.