CN113857940A - Numerical control milling cutter grinding machine - Google Patents

Abstract

The invention provides a numerical control milling cutter grinding machine, and belongs to the technical field of machinery. The machining device solves the problem that different angles of different types of cutters need to be changed to operate when machining is carried out at present, and machining efficiency is extremely influenced. The numerical control milling cutter grinding machine comprises a machine body base, wherein a tool clamp for installing a milling cutter is arranged on the machine body base, the tool clamp is arranged on the machine body base through a connecting seat, a driving motor is arranged on the connecting seat, a rotating device is arranged at the lower end of the connecting seat, a turnover mechanism is arranged on the machine body base and is arranged on the right side of the connecting seat, a first carriage is arranged at the lower end of the turnover mechanism, a second carriage is arranged on the machine body base and is arranged between the carriages, and a processing device is fixedly arranged on the machine body base. The invention has the advantages of high processing efficiency, high processing precision and capability of processing various cutters.

Description

Numerical control milling cutter grinding machine

Technical Field

The invention belongs to the technical field of machinery, relates to a grinding machine, and particularly relates to a numerical control milling cutter grinding machine.

Background

Cutting tools are important machining tools in machining, most of the cutting tools are made of excellent hard alloy, metal ceramic and other materials, the manufacturing cost is high, and in the cutting machining, the cutting edges of the cutting tools are inevitably abraded, and even have serious accidents of corner breakage, fracture and the like in serious cases, so that the cutting tools cannot be used continuously. The worn cutter can be reground for reuse, so that the processing cost is effectively reduced. The existing milling cutter cannot be well adjusted to a required angle in the machining process, the machining precision is not high, and the milling cutter needs to be repeatedly replaced to adjust during machining, so that the machining efficiency is influenced.

The milling cutter is used as one of cutting tools, and is increasingly applied to machining, the cost of machining can be effectively reduced by regrinding the worn and broken-angle milling cutter, and in machining, different types of tools need to be operated by changing different angles, and the machining efficiency is extremely influenced.

Disclosure of Invention

The invention aims to solve the problems in the prior art and provides a numerical control milling cutter grinding machine with high machining efficiency and high machining precision.

The purpose of the invention can be realized by the following technical scheme: the numerical control milling cutter grinding machine comprises a machine body base and is characterized in that a tool clamp for mounting a milling cutter is arranged on the machine body base, the tool clamp is mounted on the machine body base through a connecting seat, a driving motor for controlling a product on the tool clamp to rotate is mounted on the connecting seat, a rotating device for enabling the connecting seat to rotate is arranged at the lower end of the connecting seat, a turnover mechanism for driving the connecting seat to turn over is arranged on the machine body base and opposite to the right side of the connecting seat, a first dragging plate for enabling the turnover mechanism to transversely move is arranged at the lower end of the turnover mechanism, a second dragging plate for enabling the turnover mechanism to longitudinally move is arranged on the machine body base and opposite to the dragging plate, a machining device for machining the milling cutter is fixedly mounted on the tool clamp, and the product is mounted on the tool clamp through the first dragging plate, the second dragging plate and a second dragging plate for driving the machining device to longitudinally move, The planker II and the turnover mechanism are driven to adjust a plurality of angles of the product, and accurate machining is carried out through the fixed machining device.

In the above-mentioned numerical control milling cutter grinds machine, rotary device include fixed block, connecting axle and rotating electrical machines, rotating electrical machines set up in the lower extreme of fixed block, the fixed block pass through connecting plate fixed connection on tilting mechanism, and drive the connecting plate through tilting mechanism's upset and overturn to make the product on the frock clamp overturn.

In the numerical control milling cutter grinding machine, a transverse guide rail for the first carriage to transversely move is fixedly installed at the upper end of the second carriage, and a longitudinal guide rail for the second carriage to longitudinally move is fixedly installed at the upper end of the machine body base.

In the numerical control milling cutter grinding machine, the turnover mechanism comprises a turnover seat, a turnover shaft and a turnover motor, the turnover seat is arranged on the first carriage and transversely and longitudinally moves under the action of the first carriage and the second carriage, the turnover motor is arranged on the right side of the first carriage, and the turnover shaft penetrates through the turnover seat and the fixed block.

In the numerical control milling cutter grinding machine, the machining device comprises a grinding wheel, a grinding wheel motor and a mounting seat, the mounting seat is mounted at the rear end of the tool fixture, and the grinding wheel is used for machining a product on the tool fixture through the driving of the grinding wheel motor.

In the numerical control milling cutter grinding machine, a first moving motor for driving the planker II to move longitudinally is arranged on the machine body base and opposite to the front end of the longitudinal guide rail, and a second moving motor for driving the planker II to move transversely is arranged on the machine body base and opposite to the right end of the transverse guide rail.

Compared with the prior art, the numerical control milling cutter grinding machine has the advantages that different types of cutters are installed on the tool fixture, multi-axis machining is conducted on products installed on the tool fixture through the transversely moving planker I, the longitudinally moving planker II, the turnover mechanism capable of turning over and the rotating device capable of rotating, the workers do not need to repeatedly replace the products on the tool fixture, and working efficiency is improved.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic top view of the present invention.

Fig. 3 is a schematic front view of the present invention.

In the figure, 1, a machine body base; 2. a tooling fixture; 3. a connecting seat; 4. a drive motor; 5. a rotating device; 6. a turnover mechanism; 7. a carriage I; 8. a planker II; 9. a processing device; 10. a fixed block; 11. a connecting shaft; 12. a rotating electric machine; 13. a transverse guide rail; 14. a longitudinal guide rail; 15. a turning seat; 16. a turning shaft; 17. turning over a motor; 18. a grinding wheel; 19. a grinding wheel motor; 20. a mounting seat; 21. moving a first motor; 22. and moving a second motor.

Detailed Description

The following are specific embodiments of the present invention and are further described with reference to the drawings, but the present invention is not limited to these embodiments.

As shown in fig. 1, 2 and 3, the numerical control milling cutter grinding machine comprises a machine body base 1, wherein a tool clamp 2 for installing a milling cutter is arranged on the machine body base 1, the tool clamp 2 is arranged on the machine body base 1 through a connecting seat 3, a driving motor 4 for controlling a product on the tool clamp 2 to rotate is arranged on the connecting seat 3, a rotating device 5 for rotating the connecting seat 3 is arranged at the lower end of the connecting seat 3, a turnover mechanism 6 for driving the connecting seat 3 to turn over is arranged on the machine body base 1 and opposite to the right side of the connecting seat 3, the turnover mechanism 6 turns over the tool clamp 2, so that the product clamped in the tool clamp 2 is turned over, a carriage I7 for the turnover mechanism 6 to transversely move is arranged at the lower end of the turnover mechanism 6, a carriage II 8 for the turnover mechanism 6 to longitudinally move is arranged on the machine body base 1 and opposite to the carriage, the milling cutter machining device is characterized in that a machining device 9 for machining a milling cutter is fixedly mounted on the machine body base 1, a product is mounted on the tool clamp 2, the first carriage 7, the second carriage 8 and the turnover mechanism 6 are used for adjusting a plurality of angles of the product, and the machining device 9 is fixed for precise machining.

Preferably, in the process of processing a product, a plurality of sets of systems exist, and stable and accurate processing of different cutters is achieved through different system programs, so that the invention has the advantages of adding a plurality of types of cutters and improving the processing efficiency.

In a further elaboration, the rotating device 5 comprises a fixing block 10, a connecting shaft 11 and a rotating motor 12, the rotating motor 12 is arranged at the lower end of the fixing block 10, the fixing block 10 is fixedly connected to the turnover mechanism 6 through a connecting plate, and the turnover mechanism 6 is used for driving the connecting plate to turn over, so that a product on the tool clamp 2 is turned over.

Put it in detail further, put the product on frock clamp 2, and start rotating electrical machines 12 and make it rotate, and process the product through processingequipment 9 of fixed mounting on fuselage base 1, when needs are to its angle regulation, start upset motor 17, overturn it to required angle, when overturning, start moving motor one 21 and moving motor two 22 and make whole frock clamp 2 carry out horizontal or fore-and-aft removal, holistic operation process adopts machining, and need not to lift the product off and change the angle, grind the machine and improved machining precision and machining efficiency than original milling cutter.

In more detail, a transverse guide rail 13 for the carriage I7 to move transversely is fixedly mounted at the upper end of the carriage II 8, and a longitudinal guide rail 14 for the carriage II 8 to move longitudinally is fixedly mounted at the upper end of the machine body base 1.

In more detail, the turnover mechanism 6 comprises a turnover seat 15, a turnover shaft 16 and a turnover motor 17, wherein the turnover seat 15 is arranged on the carriage I7 and transversely and longitudinally moves under the action of the carriage I7 and the carriage II 8, the turnover motor 17 is arranged on the right side of the carriage I7, and the turnover shaft 16 is arranged between the turnover seat 15 and the fixed block 10 in a penetrating manner.

In further detail, the machining device 9 is composed of a grinding wheel 18, a grinding wheel motor 19 and a mounting seat 20, the mounting seat 20 is mounted at the rear end of the tooling fixture 2, and the grinding wheel 18 is driven by the grinding wheel motor 19 to machine a product on the tooling fixture 2.

In a further detail, in the driving mechanism during the operation process, a first moving motor 21 for driving the carriage two 8 to move longitudinally is arranged on the machine body base 1 and relative to the front end of the longitudinal guide rail 14, and a second moving motor 22 for driving the carriage one 7 to move transversely is arranged on the machine body base 1 and relative to the right end of the transverse guide rail 13.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the spirit or ambit of the invention as defined in the appended claims.

Claims (6)

1. The numerical control milling cutter grinding machine comprises a machine body base (1) and is characterized in that a tool clamp (2) for mounting a milling cutter is arranged on the machine body base (1), the tool clamp (2) is mounted on the machine body base (1) through a connecting seat (3), a driving motor (4) for controlling a product on the tool clamp (2) to rotate is mounted on the connecting seat (3), a rotating device (5) for rotating the connecting seat (3) is arranged at the lower end of the connecting seat (3), a turnover mechanism (6) for driving the connecting seat (3) to turn over is arranged on the machine body base (1) and opposite to the right side of the connecting seat (3), a planker I (7) for enabling the turnover mechanism (6) to transversely move is arranged at the lower end of the turnover mechanism (6), a planker II (8) for enabling the turnover mechanism (6) to longitudinally move is arranged on the machine body base (1) and opposite to the planker, the milling cutter machining device is characterized in that a machining device (9) for machining a milling cutter is fixedly mounted on the machine body base (1), a product is mounted on the tool clamp (2), a plurality of angles of the product are adjusted through the first carriage (7), the second carriage (8) and the turnover mechanism (6), and accurate machining is conducted through the fixed machining device (9).

2. The numerical control milling cutter grinding machine according to claim 1, wherein the rotating device (5) comprises a fixed block (10), a connecting shaft (11) and a rotating motor (12), the rotating motor (12) is arranged at the lower end of the fixed block (10), the fixed block (10) is fixedly connected to the turnover mechanism (6) through a connecting plate, and the turnover mechanism (6) is used for driving the connecting plate to turn over, so that a product on the tool clamp (2) can be turned over.

3. The numerical control milling cutter grinding machine according to claim 1, characterized in that a transverse guide rail (13) for the transverse movement of the first carriage (7) is fixedly installed at the upper end of the second carriage (8), and a longitudinal guide rail (14) for the longitudinal movement of the second carriage (8) is fixedly installed at the upper end of the machine body base (1).

4. The numerical control milling cutter grinding machine according to claim 2, characterized in that the turnover mechanism (6) comprises a turnover seat (15), a turnover shaft (16) and a turnover motor (17), the turnover seat (15) is arranged on the carriage I (7) and moves transversely and longitudinally under the action of the carriage I (7) and the carriage II (8), the turnover motor (17) is arranged on the right side of the carriage I (7), and the turnover shaft (16) is arranged between the turnover seat (15) and the fixed block (10) in a penetrating manner.

5. The numerically controlled milling cutter grinding machine according to claim 1, wherein the machining device (9) is composed of a grinding wheel (18), a grinding wheel motor (19) and a mounting seat (20), the mounting seat (20) is mounted at the rear end of the tool clamp (2), and the grinding wheel (18) machines a product on the tool clamp (2) through driving of the grinding wheel motor (19).

6. The numerical control milling cutter grinding machine according to claim 1, characterized in that a first moving motor (21) for driving the carriage (8) to move longitudinally is arranged on the machine body base (1) relative to the front end of the longitudinal guide rail (14), and a second moving motor (22) for driving the carriage (7) to move transversely is arranged on the machine body base (1) relative to the right end of the transverse guide rail (13).

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