CN108788904B

CN108788904B - Five-axis linkage ultra-precise machine tool

Info

Publication number: CN108788904B
Application number: CN201810757031.XA
Authority: CN
Inventors: 汪进
Original assignee: Huaian Vocational College of Information Technology
Current assignee: Changzhou Antong Machinery Co ltd
Priority date: 2018-07-11
Filing date: 2018-07-11
Publication date: 2020-06-26
Anticipated expiration: 2038-07-11
Also published as: CN108788904A

Abstract

The invention is suitable for the technical field of processing machines and provides a five-axis linkage ultra-precision machine tool which comprises a shell assembly, a cutting assembly and a collecting assembly, wherein the shell assembly comprises a side plate, a hinge and a baffle plate, the side plate is rotatably connected to the baffle plate through the hinge, and the side plate is positioned on two sides of the baffle plate; it will the baffle is closed, will the fan is opened, and the piece gathering is in this moment leak online, then will the check lock lever will extract outward, will adjust the pole along the adjustment tank slides, simultaneously leak the net and slide downwards in the hole earlier, then move to the right side, this moment leak the piece of gathering on the net, scrape through the lateral wall of hole for the piece breaks away from leak the net and fall collect in the drawer, thereby accomplish clastic collection, compare current five-axis linkage lathe, neotype five-axis linkage ultraprecise lathe can collect tiny piece when using, and it is simple and convenient to use.

Description

Five-axis linkage ultra-precise machine tool

Technical Field

The invention belongs to the technical field of machining tools, and particularly relates to a five-axis linkage ultra-precise machine tool.

Background

The modern die machining generally uses the ball-end milling cutter to machine, the ball-end milling cutter brings obvious benefits in die machining, but if a vertical machining center is used, the linear speed of the bottom surface of the die is zero, so that the smoothness of the bottom surface is poor, if a four-axis linkage machine tool and a five-axis linkage machine tool machining technology is used for machining the die, the defects can be overcome, and due to the fact that the five-axis linkage machine tool is used, clamping of a workpiece is easy. The five-axis linkage machine tool has the advantages that special fixtures are not needed during machining, the cost of the fixtures is reduced, multiple clamping is avoided, the machining precision of the mold is improved, the number of the fixtures can be reduced by machining the mold through the five-axis technology, in addition, a plurality of special tools can be omitted during machining through the five-axis linkage machine tool, so that the cost of the tool is reduced, the effective cutting edge length of the tool can be increased by the five-axis linkage machine tool during machining, the cutting force is reduced, the service life of the tool is prolonged, and the cost is reduced.

The existing five-axis linkage machine tool mostly uses water to cut the cutting head to wash when the part to be processed is processed, thereby preventing the sweeps from flying in a mess.

Disclosure of Invention

The invention provides a five-axis linkage ultra-precise machine tool, and aims to solve the problems that when an existing five-axis linkage machine tool is used for machining parts, water cutting heads are mostly used for washing, so that scraps are prevented from flying in a mess mode, when small parts are machined, the parts are difficult to fix due to water washing, and the scraps are difficult to collect.

The invention discloses a five-axis linkage ultra-precision machine tool, which comprises a shell assembly, a cutting assembly and a collecting assembly, wherein the shell assembly comprises a side plate, a hinge and a baffle plate, the side plate is rotatably connected to the baffle plate through the hinge, the side plate is positioned on two sides of the baffle plate, the cutting assembly comprises a sliding plate, a worm, a servo motor, a transverse plate, a lifting plate, a rotating seat, a cutting head, an air pipe and a sliding support, the servo motor is fixedly connected to the side plate, the servo motor is positioned on the left side of the side plate, an output shaft of the servo motor is in transmission connection with the worm, the sliding plate is in sliding connection with the side plate, the sliding plate is positioned above the side plate, the transverse plate is rotatably connected to the sliding plate, the transverse plate is positioned on the inner side of the sliding plate, the sliding support is in sliding connection, the lifting plate is connected with the rotating seat in a sliding manner, the cutting head is fixedly connected with the lifting plate, the cutting head is positioned below the rotating seat, the air pipe is fixedly connected with the side plate, the air pipe is positioned on the right side of the side plate, the servo motor is electrically connected with an external power supply, the collecting assembly comprises a collecting drawer, a bottom plate, a locking rod, an adjusting frame, a leakage net, a fan and a support rod, the bottom plate is fixedly connected with the side plate, the bottom plate is positioned below the side plate, the adjusting rod and the support rod are both fixedly connected with the adjusting frame, the adjusting rod is positioned on the outer side of the adjusting frame, the support rod is positioned on the inner side of the adjusting frame, the leakage net is fixedly connected with the support rod, the leakage net is positioned above the support rod, the fan is fixedly connected with the side plate, and the fan is positioned, the adjusting groove has been seted up in the outside of curb plate, adjust pole sliding connection in the adjusting groove, the check lock lever sliding connection in the curb plate, the check lock lever is located the below of adjusting the pole, collect drawer sliding connection in the curb plate, collect the drawer and be located the below of alignment jig, fan and external power source electric connection.

The invention also provides a preferable mode, the adjusting groove is L-shaped, and the locking rod is positioned above the bending position of the adjusting groove.

The invention also provides a preferable mode, the outer surface of the bottom plate is provided with more than ten holes, and the more than ten holes are distributed at equal intervals.

The invention also provides a preferable selection, the number of the leakage nets is multiple, the number of the leakage nets is equal to that of the holes, and the leakage nets are matched with the holes.

The invention also provides a preferable mode, the number of the servo motors is five, the number of the worms is three, three of the servo motors are respectively connected with the sliding plate, the sliding support and the lifting plate in a sliding mode through the three worms, and the other two servo motors are respectively connected with the transverse plate and the rotating seat in a transmission mode.

The invention also provides the preferable mode that the number of the sliding plates is two, and the two sliding plates are symmetrically distributed on two sides of the transverse plate.

The invention also provides a preferable mode, the outer surfaces of the side plates and the baffle plates are both provided with windows, and the inner sides of the windows are provided with glass windows.

The invention also provides a preferable mode, a groove is formed in the upper portion of the side plate, a convex block is arranged below the sliding plate, and the convex block is matched with the groove.

The invention also provides the preferable mode, one side of the transverse plate is provided with a slide rail, and the sliding support is connected with the transverse plate in a sliding mode through the slide rail.

The invention also provides the preferable structure that one side of the rotating seat is provided with a clamping groove, and the lifting plate is matched with the clamping groove.

Compared with the prior art, the invention has the beneficial effects that: the five-axis linkage ultra-precise machine tool is convenient for collecting the scraps by arranging the fan and the leakage net, after the parts are processed, the baffle is closed, the fan is opened, the fan generates downward suction through the leakage net, the scraps are gathered on the leakage net, then the locking rod is pulled out, the adjusting rod slides along the adjusting groove, meanwhile, the leaking net slides downwards in the hole, then moves towards the right side, the scraps gathered on the drain net are scraped by the side wall of the hole, so that the scraps are separated from the drain net and fall into the collection drawer, thereby accomplish clastic collection, current five-axis linkage lathe of comparing, neotype five-axis linkage ultraprecise lathe can collect tiny piece when using, uses simple and convenient.

Drawings

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

FIG. 2 is a schematic view of the collection assembly of the present invention;

FIG. 3 is a schematic structural view of a screen according to the present invention;

FIG. 4 is a schematic view of the locking lever of the present invention;

FIG. 5 is a schematic structural view of a worm leakage net in the present invention;

FIG. 6 is a schematic view of the cross bar of the present invention;

in the figure: the device comprises a shell component 1, a side plate 11, a hinge 12, a baffle 13, a cutting component 2, a sliding plate 21, a worm 22, a servo motor 23, a transverse plate 24, a lifting plate 25, a rotating seat 26, a cutting head 27, an air pipe 28, a sliding support 29, a collecting component 3, a collecting drawer 31, a bottom plate 32, a locking rod 33, an adjusting rod 34, an adjusting groove 35, an adjusting frame 36, a screen 37, a fan 38 and a support rod 39.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to fig. 1-6, the present invention provides a technical solution: a five-axis linkage ultra-precision machine tool comprises a shell assembly 1, a cutting assembly 2 and a collecting assembly 3, wherein the shell assembly 1 comprises a side plate 11, a hinge 12 and a baffle 13, the side plate 11 is rotatably connected to the baffle 13 through the hinge 12, the side plate 11 is positioned on two sides of the baffle 13, the cutting assembly 2 comprises a sliding plate 21, a worm 22, a servo motor 23, a transverse plate 24, a lifting plate 25, a rotating seat 26, a cutting head 27, an air pipe 28 and a sliding support 29, the servo motor 23 is fixedly connected to the side plate 11, the servo motor 23 is positioned on the left side of the side plate 11, an output shaft of the servo motor 23 is in transmission connection with the worm 22, the sliding plate 21 is in sliding connection with the side plate 11, the sliding plate 21 is positioned above the side plate 11, the transverse plate 24 is rotatably connected to the sliding plate 21, the transverse plate 24 is positioned on the inner side of the sliding plate, the cutting head 27 is fixedly connected to the lifting plate 25, the cutting head 27 is located below the rotating seat 26, the air duct 28 is fixedly connected to the side plate 11, the air duct 28 is located on the right side of the side plate 11, the servo motor 23 is electrically connected with an external power supply, the collecting assembly 3 comprises a collecting drawer 31, a bottom plate 32, a locking rod 33, an adjusting rod 34, an adjusting frame 36, a leakage net 37, a fan 38 and a support rod 39, the bottom plate 32 is fixedly connected to the side plate 11, the bottom plate 32 is located below the side plate 11, the adjusting rod 34 and the support rod 39 are both fixedly connected to the adjusting frame 36, the adjusting rod 34 is located on the outer side of the adjusting frame 36, the support rod 39 is located on the inner side of the adjusting frame 36, the leakage net 37 is fixedly connected to the support rod 39, the leakage net 37 is located above the support rod 39, the fan 38 is fixedly connected to the side plate 11, the fan 38, the locking rod 33 is slidably connected to the side plate 11, the locking rod 33 is located below the adjusting rod 34, the collection drawer 31 is slidably connected to the side plate 11, the collection drawer 31 is located below the adjusting frame 36, and the fan 38 is electrically connected to an external power source.

In the present embodiment, the height of the leakage net 37 is limited by providing the locking rod 33, and when the leakage net 37 is processed, the locking rod 33 abuts against the adjusting rod 34, so as to prevent the adjusting rod 34 from falling, and further, the height of the leakage net 37 is limited, and after the processing is completed, the locking rod 33 is pulled out, the adjusting rod 34 slides along the adjusting groove 35, and the adjusting rod 34 drives the supporting rod 39 to slide downwards through the adjusting bracket 36.

In the embodiment, the collection of the debris is facilitated by arranging the fan 28 and the leakage net 37, when the part processing is performed, three servo motors 23 respectively drive the sliding plate 21, the sliding support 29 and the lifting plate 25 to move through three worms 22, the sliding plate 21 enables the cutting head 27 to move longitudinally, the sliding support 29 enables the cutting head 27 to move transversely, the lifting plate 25 enables the cutting head 27 to move up and down, two servo motors 23 respectively drive the transverse plate 24 and the rotating seat 26 to rotate, five servo motors 23 are used in cooperation, five-axis linkage is realized, the precise processing is performed, the baffle 13 is closed, after the processing is completed, the fan 38 is started, at the moment, the fan 28 draws the internal air outwards to generate suction, the leakage net 37 generates the debris to be adsorbed on the outer surface of the leakage net 37, then the locking rod 33 is pulled out, the adjusting rod 34 slides along the adjusting groove 35, adjust pole 34 and drive branch 39 downslide through alignment jig 36, leak net 37 this moment and make downslide in the hole, then move to the right side, leak the piece of gathering on the net 37 this moment, scrape through the lateral wall of hole, make the piece break away from to leak net 37 and drop to collection drawer 31, thereby accomplish clastic collection, current five-axis linkage lathe compares, neotype five-axis linkage ultraprecision lathe can be collected tiny piece when using, it is simple and convenient to use.

Further, the adjusting groove 35 is provided with an L-shape, and the locking rod 33 is located above the bending position of the adjusting groove 35.

In this embodiment, realize moving filter screen 37 through setting up adjustment tank 35, when cutting the part, close baffle 13, start fan 38, fan 28 draws inside air outwards this moment, make to leak net 37 produce suction, adsorb the piece on the surface of leaking net 37, then extract check lock lever 33, slide regulation pole 34 along adjustment tank 35, regulation pole 34 passes through adjusting bracket 36 and drives branch 39 and slide down, leak net 37 makes and slides down in the hole this moment, then move to the right side, the piece of gathering on leaking net 37 this moment, scrape through the lateral wall of hole, make the piece break away from leaking net 37.

Further, the outer surface of the bottom plate 32 is provided with more than ten holes, and the more than ten holes are distributed at equal intervals.

In this embodiment, carry out the sweeps through setting up the hole and collect, when cutting the part, close baffle 13, start fan 38, fan 28 outwards is twitched inside air this moment, make hourglass net 37 produce suction, adsorb the piece at the surface of hourglass net 37, then extract check lock lever 33, slide adjust pole 34 along adjustment tank 35, adjust pole 34 and drive branch 39 lapse through alignment jig 36, it makes and slides downwards in the hole to leak net 37 this moment, then move to the right side, the piece of gathering on leaking net 37 this moment, scrape through the lateral wall of hole, make the piece break away from hourglass net 37 and drop to in collecting drawer 31, thereby accomplish clastic collection.

Further, the leakage net 37 is circular, the number of the leakage net 37 is multiple, the number of the leakage net 37 is equal to the number of the holes, and the leakage net 37 is matched with the holes.

In this embodiment, what carry out the sweeps through setting up hourglass net 37 and collect, when cutting the part, close baffle 13, start fan 38, fan 28 outwards is twitched inside air this moment, make hourglass net 37 produce suction, adsorb the piece at the surface of hourglass net 37, then extract check lock lever 33, slide adjust pole 34 along adjustment tank 35, adjust pole 34 and drive branch 39 through adjusting bracket 36 and slide downwards, leak net 37 and make and slide downwards in the hole this moment, then move to the right side, the piece of gathering on the hourglass net 37 this moment, scrape through the lateral wall of hole, make the piece break away from hourglass net 37 and drop to collection drawer 31, thereby accomplish clastic collection.

Further, the number of the servo motors 23 is five, the number of the worms 22 is three, wherein three servo motors 23 are respectively connected with the sliding plate 21, the sliding support 29 and the lifting plate 25 in a sliding manner through three worms 22, and the other two servo motors 23 are respectively connected with the transverse plate 24 and the rotating base 26 in a transmission manner.

In the embodiment, five servo motors 23 are arranged to realize five-axis linkage, when part processing is performed, three servo motors 23 respectively drive the sliding plate 21, the sliding support 29 and the lifting plate 25 to move through the three worms 22, the sliding plate 21 enables the cutting head 27 to move longitudinally, the sliding support 29 enables the cutting head 27 to move transversely, the lifting plate 25 enables the cutting head 27 to move up and down, the two servo motors 23 respectively drive the transverse plate 24 and the rotating seat 26 to rotate, and the five servo motors 23 are matched for use, so that five-axis linkage is realized, and precise processing is performed.

Further, the number of the sliding plates 21 is two, and the two sliding plates 21 are symmetrically distributed on two sides of the transverse plate 24.

In the embodiment, the longitudinal cutting is realized by arranging the sliding plate 21, the servo motor 23 drives the sliding plate 21 to longitudinally slide through the worm 22, and the sliding plate 21 enables the cutting head 27 to longitudinally move, so that the longitudinal cutting is realized.

Further, the outer surfaces of the side plates 11 and the baffle plates 13 are provided with windows, and glass windows are arranged on the inner sides of the windows.

In this embodiment, through setting up the glass window be convenient for observe the cutting progress, when the cutting, can observe through the cutting progress of glass window, can prevent the piece departure simultaneously, it is safer to use.

Furthermore, a groove is formed above the side plate 11, and a convex block is arranged below the sliding plate 21 and matched with the groove.

In the embodiment, the multi-angle cutting is realized by arranging the sliding plate 21, and when the cutting is performed, the sliding plate 21 can slide on the upper part through the convex block and the groove, so that the more precise cutting is realized

Further, one side of the transverse plate 24 is provided with a slide rail, and the sliding support 29 is slidably connected to the transverse plate 24 through the slide rail.

In the present embodiment, multi-angle cutting is realized by providing the sliding support 29, and the sliding support 29 slides laterally on the transverse plate 24 through a sliding rail, so as to realize more precise cutting.

Furthermore, a clamping groove is formed in one side of the rotating seat 26, and the lifting plate 25 is matched with the clamping groove.

In this embodiment, the multi-angle cutting is performed by arranging the lifting plate 25, and the lifting plate 25 slides up and down on the rotating seat 26 through the clamping groove, so that more precise cutting is realized.

The working principle and the using process of the invention are as follows: after the device is installed, the device is connected to an external power supply to process parts, wherein three servo motors 23 respectively drive a sliding plate 21, a sliding support 29 and a lifting plate 25 to move through three worms 22, the sliding plate 21 enables a cutting head 27 to move longitudinally, the sliding support 29 enables the cutting head 27 to move transversely, the lifting plate 25 enables the cutting head 27 to move up and down, two servo motors 23 respectively drive a transverse plate 24 and a rotating seat 26 to rotate, five servo motors 23 are used in cooperation, five-axis linkage is realized, precise processing is carried out, a baffle 13 is closed, after the processing is finished, a fan 38 is started, the fan 28 pumps internal air outwards, a leakage net 37 generates suction force, debris is adsorbed on the outer surface of the leakage net 37, then a locking rod 33 is pulled out, an adjusting rod 34 slides along an adjusting groove 35, the adjusting rod 34 drives a supporting rod 39 to slide downwards through an adjusting frame 36, leak the net 37 this moment and make the downward slip in the hole, then to the right side motion, leak the piece of gathering on the net 37 this moment, scrape through the lateral wall of hole and move for the piece breaks away from and leaks the net 37 and drops to the collection drawer 31 in, thereby accomplishes clastic collection, compares current five-axis linkage lathe, and neotype five-axis linkage ultraprecision lathe can be collected tiny piece when using, uses simple and convenient.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims

1. A five-axis linkage ultra-precise machine tool is characterized in that: including shell subassembly (1), cut subassembly (2) and collection subassembly (3), shell subassembly (1) includes curb plate (11), hinge (12) and baffle (13), curb plate (11) pass through hinge (12) rotate connect in baffle (13), curb plate (11) are located the both sides of baffle (13), cut subassembly (2) including slide (21), worm (22), servo motor (23), diaphragm (24), lifter plate (25), rotate seat (26), cut head (27), tuber pipe (28) and sliding support (29), servo motor (23) fixed connection in curb plate (11), servo motor (23) are located the left side of curb plate (11), the output shaft transmission of servo motor (23) connect in worm (22), slide (21) sliding connection in curb plate (11), slide (21) are located the top of curb plate (11), diaphragm (24) rotate connect in slide (21), diaphragm (24) are located the inboard of slide (21), sliding support (29) sliding connection in diaphragm (24), rotate seat (26) rotate connect in sliding support (29), lifter plate (25) sliding connection in rotate seat (26), cut head (27) fixed connection in lifter plate (25), cut head (27) and be located the below of rotating seat (26), tuber pipe (28) fixed connection in curb plate (11), tuber pipe (28) are located the right side of curb plate (11), servo motor (23) and external power source electric connection, collection subassembly (3) are including collecting drawer (31), bottom plate (32), locking lever (33), Adjust pole (34), alignment jig (36), leak net (37), fan (38), branch (39), bottom plate (32) fixed connection in curb plate (11), bottom plate (32) are located the below of curb plate (11), adjust pole (34) with branch (39) all fixed connection in alignment jig (36), adjust pole (34) are located the outside of alignment jig (36), branch (39) are located the inboard of alignment jig (36), leak net (37) fixed connection in branch (39), leak net (37) are located the top of branch (39), fan (38) fixed connection in curb plate (11), fan (38) are located the right side of bottom plate (32), adjustment groove (35) have been seted up in the outside of curb plate (11), adjust pole (34) sliding connection in adjustment groove (35), the locking rod (33) is connected to the side plate (11) in a sliding mode, the locking rod (33) is located below the adjusting rod (34), the collection drawer (31) is connected to the side plate (11) in a sliding mode, the collection drawer (31) is located below the adjusting frame (36), and the fan (38) is electrically connected with an external power supply;

the outer surface of the bottom plate (32) is provided with more than ten holes which are distributed at equal intervals.

2. The five-axis linkage ultra-precision machine tool according to claim 1, characterized in that: the adjusting groove (35) is L-shaped, and the locking rod (33) is located above the bending part of the adjusting groove (35).

3. A five-axis linkage ultra-precision machine tool according to any one of claims 1 to 2, wherein: the leakage net (37) is circular, the number of the leakage nets (37) is multiple, the number of the leakage nets (37) is equal to that of the holes, and the leakage nets (37) are matched with the holes.

4. A five-axis linkage ultra-precision machine tool according to any one of claims 1 to 2, wherein: the number of the servo motors (23) is five, the number of the worms (22) is three, the servo motors (23) are respectively connected to the sliding plate (21), the sliding support (29) and the lifting plate (25) in a sliding mode through the three worms (22), and the other two servo motors (23) are respectively connected to the transverse plate (24) and the rotating seat (26) in a transmission mode.

5. The five-axis linkage ultra-precision machine tool according to claim 1, characterized in that: the number of the sliding plates (21) is two, and the two sliding plates (21) are symmetrically distributed on two sides of the transverse plate (24).

6. The five-axis linkage ultra-precision machine tool according to claim 1, characterized in that: the outer surfaces of the side plates (11) and the baffle plates (13) are provided with windows, and glass windows are arranged on the inner sides of the windows.

7. The five-axis linkage ultra-precision machine tool according to claim 1, characterized in that: the upper portion of the side plate (11) is provided with a groove, and the lower portion of the sliding plate (21) is provided with a convex block which is matched with the groove.

8. The five-axis linkage ultra-precision machine tool according to claim 1, characterized in that: a sliding rail is arranged on one side of the transverse plate (24), and the sliding support (29) is connected to the transverse plate (24) in a sliding mode through the sliding rail.

9. The five-axis linkage ultra-precision machine tool according to claim 1, characterized in that: a clamping groove is formed in one side of the rotating seat (26), and the lifting plate (25) is matched with the clamping groove.