CN117086376B - Positioning tungsten steel milling cutter disc assembly - Google Patents

Abstract

The invention relates to the technical field of machining tools, in particular to a positioning tungsten steel milling cutter disc assembly which comprises a milling cutter disc, wherein a U-shaped chip groove is formed in the lower end of the milling cutter disc, a blade mounting groove is formed in one of two side ends of the chip groove, a cutting blade is arranged in the blade mounting groove, and the cutting blade is fixedly mounted on the milling cutter disc through a fastening device. The back of the cutting blade is fixedly provided with a compression block, two side surfaces of the compression block are provided with inclined compression grooves, the fastening device comprises a compression plate and a locking bolt, an inserting plate which is matched with the compression grooves and is in sliding connection with the compression grooves is fixedly connected to the compression plate, the locking bolt is rotationally connected to the compression plate, and the locking bolt is in threaded connection with the milling cutter disc, so that the situation that the chip grooves are not too small when the blade is directly grooved is avoided, and the rigidity of the blade is not damaged in the process of installing the blade, and meanwhile, unsmooth chip removal is not caused.

Description

Positioning tungsten steel milling cutter disc assembly

Technical Field

The invention relates to the technical field of machining tools, in particular to a positioning tungsten steel milling cutter disc assembly.

Background

The milling cutter disc is a cutter for milling a workpiece plane in the machining process, is called a milling cutter disc because the milling cutter disc is larger than a common milling cutter disc and has a shape like a disc, and is generally provided with a non-reshuffling tooth-inlaid hard alloy blade, and is arranged on a main shaft of a milling machine, so that the workpiece is subjected to plane milling operation.

The invention document of Chinese patent application No. CN201410402032.4 discloses a novel milling cutter disc, which can form the floating force for enabling the milling cutter disc to float upwards through cutting fluid punched by a plurality of inclined through holes, has an effective suppressing effect on overcoming the phenomenon that the milling cutter disc slides downwards relative to a main shaft due to self gravity and centrifugal force, improves the safety and the processing precision of machine tool processing, but the cutter disc is fixed by a mode of forming threaded holes in the cutter disc when the cutter disc is installed, the integral rigidity of the cutter disc is damaged by the mode, so that the cutter disc is easy to damage, and a mode of fixedly installing the cutter disc on the milling cutter disc by adopting a plunger type cutter disc is adopted, but the mode often causes too small cutting grooves to cause unsmooth chip removal in the process of milling a plane.

Therefore, there is a need to provide a positioning tungsten steel milling cutter disc assembly to solve the above technical problems.

Disclosure of Invention

The invention provides a positioning tungsten steel milling cutter disc assembly which can not damage the rigidity of a blade in the process of installing the blade and can not cause unsmooth chip removal.

The invention provides a positioning tungsten steel milling cutter disc assembly, which comprises a milling cutter disc, wherein the lower end of the milling cutter disc is provided with a U-shaped chip groove, one of two side ends of the chip groove is provided with a blade mounting groove, a cutting blade is arranged in the blade mounting groove, and the cutting blade is fixedly arranged on the milling cutter disc through a fastening device;

the back fixed mounting of cutting blade has the compact heap, the compact heap of slope form has been seted up to two sides of compact heap, fastening device includes pressure strip and locking bolt, fixedly connected with on the pressure strip with compact heap identical and with compact heap sliding connection's inserted plate, rotate on the pressure strip and be connected with the locking bolt, just locking bolt with milling cutter dish threaded connection.

Preferably, the compacting plate is fixedly connected with an orientation rod, the milling cutter disc is provided with an orientation groove, and the orientation rod is inserted into the orientation groove.

Preferably, the middle position of the milling cutter disc is provided with a liquid through hole, the milling cutter disc is provided with a liquid outlet at the upper end of the chip groove positioned at the inner side of the cutting blade, a liquid through channel for communicating the liquid through hole with the liquid outlet is arranged between the liquid through hole and the liquid outlet on the milling cutter disc, the milling cutter disc is provided with liquid distributing grooves at the upper end and the inner side end of the cutting blade, and a plurality of liquid distributing grooves are distributed side by side.

Preferably, a cooling channel is arranged between the bottom surface of the chip groove and the liquid through hole.

Preferably, the milling cutter disc is provided with a first cooling channel which is communicated with the cooling channel at the positions of two sides of the cooling channel, the first cooling channel is in a curved C shape, and the other side of the first cooling channel is communicated with two side ends of the chip groove.

Preferably, a second cooling channel communicated with the cooling channel is arranged at the position of the milling cutter disc, which is positioned at the two sides of the cooling channel, and the second cooling channel is communicated with the side surface of the chip groove communicated with the adjacent cooling channel.

Preferably, the outer side port of the cooling channel is in threaded connection with a plugging bolt.

Preferably, a fine grinding groove is formed in the milling cutter disc, a fine grinding block is connected in the fine grinding groove in a sliding mode, and the fine grinding block is fixedly connected to the milling cutter disc through a bolt.

Advantageous effects

(1) The cutting blade is fixedly arranged on the milling cutter disc through the fastening device, so that the phenomenon that the rigidity of the cutting blade is reduced and the service life is shortened due to the fact that the threaded hole is directly formed in the cutting blade is reduced, the normal size of the chip groove is ensured, and chip removal is smooth.

(2) The scrap iron in the chip groove can be impacted by spraying the cutting fluid in the first cooling channel or the second cooling channel, and the scrap iron can be separated from the chip groove under the impact action of the cutting fluid, so that the phenomenon of chip accumulation in the chip groove is prevented, and the phenomenon of scraping the surface of a workpiece caused by accumulation of metal chips in the chip groove in the processing process is avoided.

(3) The workpiece is polished through the finish grinding block on the milling cutter disc, so that after the workpiece is cut, the workpiece is polished smoothly under the continuous polishing of the finish grinding block, and the processing quality is improved.

Drawings

The invention will be further described with reference to the drawings and examples.

FIG. 1 is a schematic diagram of the overall structure of the present invention;

FIG. 2 is an enlarged schematic view of the structure A in FIG. 1 according to the present invention;

FIG. 3 is an enlarged schematic view of the structure of FIG. 1B according to the present invention;

FIG. 4 is a schematic diagram of the arrangement of cooling lanes one in the present invention;

FIG. 5 is a schematic diagram of a second cooling lane arrangement according to the present invention;

FIG. 6 is a schematic illustration of the communication between the liquid through holes and the liquid outlet in the present invention;

fig. 7 is an enlarged schematic view of the structure at C in fig. 6 according to the present invention.

In the figure: 1. milling cutter disc; 11. a flute; 12. a blade mounting groove; 13. a cutting insert; 131. a compaction block; 132. a compaction groove; 14. a directional groove; 15. a liquid through hole; 16. a liquid outlet; 161. a liquid dividing tank; 17. a liquid passage; 18. a cooling channel; 181. cooling and dividing into a first channel; 182. cooling and dividing into a second channel; 19. finely grinding the groove; 2. a fastening device; 21. a compacting plate; 211. an insertion plate; 22. a locking bolt; 23. a directional rod; 3. plugging the bolts; 4. and (5) finely grinding the blocks.

Detailed Description

The invention is further described in connection with the following detailed description in order to make the technical means, the creation characteristics, the achievement of the purpose and the effect of the invention easy to understand.

As shown in fig. 1 and 2, the present invention provides a positioning tungsten steel milling cutter disc 1 assembly, which comprises a milling cutter disc 1, wherein a U-shaped chip groove 11 is formed at the lower end of the milling cutter disc 1, a blade mounting groove 12 is formed at one of two side ends of the chip groove 11, a cutting blade 13 is arranged in the blade mounting groove 12, and the cutting blade 13 is fixedly mounted on the milling cutter disc 1 through a fastening device 2.

As shown in fig. 2, the back of the cutting blade 13 is fixedly provided with a pressing block 131, two lateral surfaces of the pressing block 131 are provided with inclined pressing grooves 132, the fastening device 2 comprises a pressing plate 21 and a locking bolt 22, an inserting plate 211 which is matched with the pressing grooves 132 and is slidably connected with the pressing grooves 132 is fixedly connected to the pressing plate 21, the locking bolt 22 is rotatably connected to the pressing plate 21, and the locking bolt 22 is in threaded connection with the milling cutter disc 1.

As shown in fig. 2, the compacting plate 21 is fixedly connected with a directional rod 23, the milling cutter disc 1 is provided with a directional groove 14, and the directional rod 23 is inserted into the directional groove 14.

It should be noted that, when the cutting insert 13 is mounted on the milling cutter disc 1, by placing the cutting insert 13 in the insert mounting groove 12 and then aligning the insert plate 211 with the pressing groove 132 on the fastening block, by turning the locking bolt 22 by means of a wrench, during the process of screwing the locking bolt 22 with the milling cutter disc 1, the insert plate 211 continuously engages with the pressing groove 132 to press the pressing block 131 against the insert mounting groove 12, thereby fixing the cutting insert 13, and at the same time, the pressing plate 21 is restrained by the orientation rod 23, so that the insert plate 211 does not rotate during the process of inserting the pressing groove 132, thereby fixing the cutting insert 13 more firmly.

As shown in fig. 1, 3, 6 and 7, a liquid through hole 15 is formed in the middle of the milling cutter disc 1, a liquid outlet 16 is formed in the upper end of the chip groove 11, which is located at the inner side of the cutting blade 13, a liquid through channel 17 for communicating the liquid through hole 15 and the liquid outlet 16 is formed in the milling cutter disc 1, liquid separating grooves 161 are formed in the upper end and the inner side end of the cutting blade 13 of the milling cutter disc 1, and a plurality of liquid separating grooves 161 are distributed side by side.

It should be noted that, in the process of milling a plane on a workpiece, the cutting blade 13 is in direct contact with the workpiece, so that the temperature of the cutting blade 13 is increased rapidly, the cutting blade 13 needs to be cooled, the cutting fluid enters the fluid passage 17 through the fluid passage 15 and is sprayed out from the fluid outlet 16, and meanwhile, the cutting fluid flows through the surface of the cutting blade 13 along the fluid dividing groove 161, so that the temperature of the cutting blade 13 is reduced, and compared with the existing single-hole type cutting fluid spraying method, the cutting fluid is cooled, or the external fluid spraying pipe is cooled, so that the contact position of the cutting fluid, the cutter and the workpiece is more closely contacted, the better cooling effect can be achieved, and meanwhile, the use amount of the cutting fluid can be reduced.

As shown in fig. 4, a cooling channel 18 is formed between the bottom surface of the chip groove 11 and the liquid through hole 15, a first cooling channel 181 communicated with the cooling channel 18 is formed at the position of the two sides of the cooling channel 18 by the milling cutter disc 1, the first cooling channel 181 is in a curved C shape, and the other side of the first cooling channel 181 is communicated with two side ends of the chip groove 11.

As shown in fig. 5, the milling cutter disc 1 is provided with a second cooling channel 182 which is communicated with the cooling channel 18 at the positions on both sides of the cooling channel 18, and the second cooling channel 182 is communicated with the side surface of the flute 11 which is communicated with the adjacent cooling channel 18.

It should be noted that, in the cutting process, the temperature of the workpiece will also increase, in some precision machining processes, relatively larger errors will be caused by volume changes of the workpiece due to temperature changes, the cutting fluid is directly sprayed onto the surface of the workpiece through the cooling channel 18, so as to cool the surface of the workpiece, meanwhile, the cutting fluid sprayed from the cooling channel one 181 can impact scrap iron in the chip groove 11, so that scrap iron is prevented from being backlogged in the chip groove, the machining efficiency is improved, the arrangement mode of the cooling channel two 182 is adopted, the machining can be more effectively performed, because the cooling channel two 182 is equivalent to one deformation of the cooling channel one 181, the machining can be directly performed by adopting a drilling tool, meanwhile, more liquid flow pipelines are arranged in the milling cutter 1, the body of the milling cutter 1 can be effectively cooled, and in the cooling process by utilizing the cutting fluid, because all the cooling channels 18 are communicated with the liquid through holes 15, the liquid is only required to be added into the liquid through holes 15 when the cutting fluid is injected, and the milling machine is very beneficial to the existing machining or the milling machine.

As shown in fig. 4 and 5, the outside port of the cooling passage 18 is screwed with a tightening bolt 3.

When the cutting amount is not large or the machining accuracy is not high, the cooling passage 18 may be blocked by the blocking bolt 3 when the cutting fluid in the fluid outlet hole and the fluid dividing groove 161 is sufficiently cooled.

As shown in fig. 1, a milling cutter disc 1 is provided with a fine grinding groove 19, a fine grinding block 4 is slidably connected in the fine grinding groove 19, and the fine grinding block 4 is fixedly connected to the milling cutter disc 1 through a bolt.

In the precision machining of a part of the parts, the side wall of the hole or groove to be machined needs to be subjected to finish grinding, and at this time, the workpiece can be precisely polished by the finish grinding block 4 on the milling disc 1.

The working principle of the present invention is that, when the cutting insert 13 is mounted on the milling cutter head 1, by placing the cutting insert 13 in the insert mounting groove 12 and then aligning the insert plate 211 with the pressing groove 132 on the fastening block, by turning the locking bolt 22 by means of a wrench, the insert plate 211 continuously engages with the pressing groove 132 during the screw connection of the locking bolt 22 with the milling cutter head 1 to press the pressing block 131 against the insert mounting groove 12, thereby fixing the cutting insert 13, and at the same time, the pressing plate 21 is restrained by the orientation rod 23, so that the insert plate 211 is not turned during the insertion of the pressing groove 132, thereby securing the cutting insert 13 more firmly, by the above-mentioned means, not only reducing the phenomenon that the rigidity of the cutting insert 13 is lowered due to the direct opening of the screw hole in the cutting insert 13, at the same time, the normal size of the chip groove 11 is ensured, chip removal is smooth, the cutting blade 13 is in direct contact with a workpiece in the process of milling a plane on a part, so that the temperature of the cutting blade 13 can be quickly increased, the cutting blade 13 needs to be cooled, cutting fluid enters the liquid passage 17 through the liquid passage 15 and is sprayed out of the liquid outlet, meanwhile, the cutting fluid flows through the surface of the cutting blade 13 along the liquid separating groove 161, so that the temperature of the cutting blade 13 is reduced, meanwhile, the temperature of the workpiece can be increased in the process of cutting, relatively large errors are caused by volume change of the workpiece due to temperature change in the process of precision machining, the cutting fluid is directly sprayed to the surface of the workpiece through the cooling passage 18, so that the surface of the workpiece is cooled, in order to prevent chip accumulation in the chip groove 11, the cutting fluid sprayed from the first cooling channel 181 can impact scrap iron in the chip groove 11, and the arrangement mode of the second cooling channel 182 can be adopted to process more effectively.

The foregoing has shown and described the basic principles, principal features and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the foregoing examples, and that the foregoing description and description are merely illustrative of the principles of this invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, which is defined in the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (4)

1. The utility model provides a locate mode tungsten steel milling cutter dish subassembly, includes milling cutter dish (1), its characterized in that:

the lower end of the milling cutter disc (1) is provided with a U-shaped chip groove (11), one of two side ends of the chip groove (11) is provided with a blade mounting groove (12),

a cutting insert (13), the cutting insert (13) being arranged in an insert mounting pocket (12),

a fastening device (2), wherein the fastening device (2) fixedly installs the cutting blade (13) on the milling cutter disc (1),

the back of the cutting blade (13) is fixedly provided with a compression block (131), two side surfaces of the compression block (131) are provided with inclined compression grooves (132), the fastening device (2) comprises a compression plate (21) and a locking bolt (22), the compression plate (21) is fixedly connected with an insertion plate (211) which is matched with the compression grooves (132) and is in sliding connection with the compression grooves (132), the compression plate (21) is rotationally connected with the locking bolt (22), and the locking bolt (22) is in threaded connection with the milling cutter disc (1);

a liquid through hole (15) is formed in the middle of the milling cutter disc (1), a liquid outlet (16) is formed in the upper end, located at the inner side of the cutting blade (13), of the chip discharging groove (11), a liquid through channel (17) for communicating the liquid through hole (15) and the liquid outlet (16) is formed in the milling cutter disc (1) between the liquid through hole (15) and the liquid outlet (16), liquid separating grooves (161) are formed in the upper end and the inner side end, located at the cutting blade (13), of the milling cutter disc (1), and a plurality of liquid separating grooves (161) are distributed side by side;

a cooling channel (18) is arranged between the bottom surface of the chip groove (11) and the liquid through hole (15);

the milling cutter disc (1) is provided with a first cooling channel (181) which is communicated with the cooling channel (18) at the positions of two sides of the cooling channel (18), the first cooling channel (181) is in a curved C shape, and the other side of the first cooling channel (181) is communicated with two side ends of the chip groove (11);

and a second cooling channel (182) communicated with the cooling channel (18) is arranged at the position of the milling cutter disc (1) positioned at the two sides of the cooling channel (18), and the second cooling channel (182) is communicated with the side surface of the chip groove (11) communicated with the adjacent cooling channel (18).

2. A positional tungsten steel milling cutter disc assembly in accordance with claim 1 wherein: the milling cutter head is characterized in that the compacting plate (21) is fixedly connected with a directional rod (23), the milling cutter head (1) is provided with a directional groove (14), and the directional rod (23) is inserted into the directional groove (14).

3. A localized tungsten steel milling cutter disc assembly according to claim 2 wherein: and the outer side port of the cooling channel (18) is in threaded connection with a plugging bolt (3).

4. A positional tungsten steel milling cutter disc assembly in accordance with claim 1 wherein: the milling cutter disc (1) is provided with a fine grinding groove (19), a fine grinding block (4) is connected in the fine grinding groove (19) in a sliding mode, and the fine grinding block (4) is fixedly connected to the milling cutter disc (1) through a bolt.