CN111347064A

CN111347064A - Automatic lathe

Info

Publication number: CN111347064A
Application number: CN202010317123.3A
Authority: CN
Inventors: 杨冰; 王荣山; 许文杰; 孟斌; 唐文宇; 孙利民; 王鹏辉
Original assignee: Shandong Xinjing Machinery Co ltd
Current assignee: Shandong Xinjing Machinery Co ltd
Priority date: 2020-04-21
Filing date: 2020-04-21
Publication date: 2020-06-30

Abstract

The invention discloses an automatic lathe which comprises a U-shaft cross beam, a U-shaft guide rail, a U-shaft rack, a U-shaft motor and a W-shaft motor, wherein the U-shaft guide rail is fixed above the U-shaft cross beam through screws, the U-shaft rack is installed inside the U-shaft guide rail, the U-shaft motor is fixed on the outer side of the right end of the U-shaft guide rail through screws, the outer side of the output end of the U-shaft motor is connected with a U-shaft transmission set, the W-shaft transmission set is arranged on the right side of the U-shaft transmission set, the W-shaft motor is installed at the rear end of the W-shaft transmission set, a finished claw is installed at the bottom end of the W-shaft transmission set, a raw material claw is installed on the right side of the finished claw, a rotating claw cylinder is installed above the raw material claw, a machine tool main body is fixed below the U-shaft cross beam, a claw main body. The automatic lathe is provided with the high-pressure oil nozzle, so that the high-pressure treatment on the surface of a product is facilitated, and the chip impurities on the surface of the product are removed conveniently.

Description

Automatic lathe

Technical Field

The invention relates to the technical field of automatic lathes, in particular to an automatic lathe.

Background

The automatic lathe is a device applied to the processing and manufacturing of precise parts such as copper, aluminum, iron and plastics, the working efficiency can be improved and the working quality can also be improved through the automatic lathe, a numerical control automatic lathe, a pneumatic automatic lathe, a walking-core type automatic lathe and the like are arranged on the market, but the automatic lathe still has some defects when in use, such as:

1. when the traditional numerical control automatic lathe is used for processing materials, the materials cannot be well processed under high pressure, so that more chips are adhered to the surfaces of the materials in the processing process, and the processing quality of the materials is influenced;

2. in the machining process, chips or other impurities are adhered to the surface of the clamping mechanism of the automatic lathe, and workers need to manually clean the clamping mechanism, so that the operation is troublesome, and the workload of the workers is increased;

we have therefore proposed an automatic lathe to solve the problems set out above.

Disclosure of Invention

The invention aims to provide an automatic lathe to solve the problems that the traditional numerical control automatic lathe in the market cannot well process materials under high pressure when the traditional numerical control automatic lathe is used for processing the materials, workers need to manually clean a clamping mechanism, the operation is troublesome, and the workload of the workers is increased.

In order to achieve the purpose, the invention provides the following technical scheme: an automatic lathe comprises a U-shaft cross beam, a U-shaft guide rail, a U-shaft rack, a U-shaft motor and a W-shaft motor, wherein the U-shaft guide rail is fixed on the upper portion of the U-shaft cross beam through screws, the U-shaft rack is installed inside the U-shaft guide rail, the U-shaft motor is fixed on the outer side of the right end of the U-shaft guide rail through screws, the U-shaft transmission group is connected to the outer side of the output end of the U-shaft motor, the W-shaft transmission group is arranged on the right side of the U-shaft transmission group, the W-shaft motor is installed at the rear end of the W-shaft transmission group, a finished claw is installed at the bottom end of the W-shaft transmission group, a raw material claw is installed on the right side of the finished claw, a rotating claw cylinder is installed above the raw material claw, a machine tool main body is fixed below the U-shaft cross beam, a clamping claw main body is arranged on the front side, and the top outside of sword tower main part is provided with compresses tightly the tool, the outside of jack catch main part is connected with the flushing pipe, the left end of jack catch main part runs through the inside of lathe main part and is connected with X axle servo motor, and X axle servo motor's left side is connected with the sword tower pneumatic cylinder to the left side of sword tower pneumatic cylinder is provided with Z servo axle motor, X axle servo motor's right side is connected with the jack catch pneumatic cylinder, the below of rotating the jack catch pneumatic cylinder is provided with the conveyer belt, and the conveyer belt is connected with the lathe main part, the leading flank of U axle crossbeam is provided with feeding and discharging mechanism, and the lathe main part is installed to feeding and discharging mechanism's.

Preferably, the U-axis guide rail and the W-axis transmission set are arranged vertically, and the W-axis transmission set and the U-axis guide rail form a lifting structure through a W-axis motor.

Preferably, the finished claw and the raw claw are in a ratio of 1: 1, and the finished claw and the raw claw form a lifting structure with the conveyor belt through a W-shaft transmission group.

Preferably, the extension line of jack catch main part and the extension line contained angle of sword tower main part are 90, and the jack catch main part is the setting of cylindrical shape structure.

Preferably, the high-pressure oil nozzles are distributed in the cutter tower main body at equal intervals, and the highest point of the high-pressure oil nozzles is lower than the lowest point of the pressing jig.

Preferably, the flushing pipes are arranged in one-to-one correspondence with the jaw main bodies, the jaw main bodies are arranged in a hollow structure, and the space inside the jaw main bodies is communicated with the space inside the flushing pipes.

Preferably, the highest point of the conveyor belt and the lowest point of the claw body are on the same plane, and the width of the conveyor belt is larger than the distance between the finished claw and the raw material claw.

Preferably, former material mouth and finished product mouth have all been seted up to business turn over material mechanism's upper surface inside, and the right side of former material mouth is provided with finished product mouth to the width of former material mouth equals finished product mouth's width.

Preferably, the raw material port and the finished product port are arranged in parallel, and the lowest points of the raw material port and the finished product port are higher than the lowest point of the feeding and discharging mechanism.

Compared with the prior art, the invention has the beneficial effects that: the automatic lathe comprises:

(1) the high-pressure oil nozzle is arranged in the cutter tower main body, so that lubricating oil or other oils can be sprayed onto a product through the high-pressure oil nozzle, the surface of the product can be conveniently subjected to high-pressure treatment, the chip impurities on the surface of the product can be conveniently removed, the chip and the impurities are prevented from being entangled on the surface of the product, and the quality of the whole automatic lathe for processing the product can be improved;

(2) be fixed with the flushing pipe, through the setting of flushing pipe, treat that whole automatic lathe uses after, can wash the surface of jack catch main part through the flushing pipe to detach the impurity and the piece of jack catch main part surface adhesion, and then be convenient for the jack catch main part fine use next time, do not need the manual clearance of staff, easy operation is convenient.

Drawings

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

FIG. 2 is a schematic perspective view of a U-axis beam according to the present invention;

FIG. 3 is a schematic perspective view of a jaw body according to the present invention;

FIG. 4 is a schematic top view of the feeding and discharging mechanism of the present invention;

FIG. 5 is a schematic front view of the present invention;

FIG. 6 is a left sectional structural view of the machine tool body according to the present invention.

In the figure: 1. a U-axis beam; 2. a U-axis guide rail; 3. a U-axis rack; 4. a U-axis motor; 5. a W-axis motor; 6. a U-shaft transmission set; 7. a W-axis transmission set; 8. a rotating claw cylinder; 9. finished claws; 10. a raw material claw; 11. a jaw body; 12. a turret body; 13. pressing the jig; 14. a high-pressure oil nozzle; 15. a flush tube; 16. a Z servo axis motor; 17. a turret hydraulic cylinder; 18. an X-axis servo motor; 19. a jaw hydraulic cylinder; 20. a raw material port; 21. a finished product port; 22. a machine tool main body; 23. a conveyor belt; 24. and a feeding and discharging mechanism.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-6, the present invention provides a technical solution: an automatic lathe comprises a U-axis beam 1, a U-axis guide rail 2, a U-axis rack 3, a U-axis motor 4, a W-axis motor 5, a U-axis transmission group 6, a W-axis transmission group 7, a rotating claw cylinder 8, a finished product claw 9, a raw material claw 10, a claw main body 11, a turret main body 12, a pressing jig 13, a high-pressure oil nozzle 14, a flushing pipe 15, a Z servo axis motor 16, a turret hydraulic cylinder 17, an X-axis servo motor 18, a claw hydraulic cylinder 19, a raw material port 20, a finished product port 21, a machine tool main body 22, a conveyor belt 23 and a feeding and discharging mechanism 24, wherein the U-axis guide rail 2 is fixed on the upper portion of the U-axis beam 1 through a screw, the U-axis rack 3 is installed inside the U-axis guide rail 2, the U-axis motor 4 is fixed on the outer side of the right end of the U-axis guide rail 2 through a screw, the U-axis transmission group 6 is connected on the outer side of, a W-axis motor 5 is arranged at the rear end of the W-axis transmission group 7, a finished claw 9 is arranged at the bottom end of the W-axis transmission group 7, a raw material claw 10 is arranged on the right side of the finished claw 9, a rotating claw cylinder 8 is arranged above the raw material claw 10, a machine tool main body 22 is fixed below the U-axis cross beam 1, a front side claw main body 11 of the machine tool main body 22 is arranged, a tool turret main body 12 is arranged on the right side of the claw main body 11, a high-pressure oil nozzle 14 is arranged inside the tool turret main body 12, a pressing jig 13 is arranged on the outer side above the tool turret main body 12, a flushing pipe 15 is connected to the outer side of the claw main body 11, the left end of the claw main body 11 penetrates through the inside of the machine tool main body 22 and is connected with an X-axis servo motor 18, a tool turret hydraulic cylinder 17 is connected to the left side of the X-axis servo motor 18, a Z-axis servo motor 16, a conveyor belt 23 is arranged below the rotating claw cylinder 8, the conveyor belt 23 is connected with a machine tool main body 22, a feeding and discharging mechanism 24 is arranged on the front side surface of the U-shaft cross beam 1, and the machine tool main body 22 is arranged at the bottom of the feeding and discharging mechanism 24;

the U-axis guide rail 2 and the W-axis transmission group 7 are vertically arranged, the W-axis transmission group 7 and the U-axis guide rail 2 form a lifting structure through the W-axis motor 5, and further the W-axis guide rail 2 and the W-axis transmission group 7 are vertically arranged so that the W-axis transmission group 7 can well horizontally move, and the lifting of the W-axis transmission group 7 is convenient for the finished claw 9 and the raw claw 10 to convey materials;

the finished claw 9 and the raw claw 10 are 1: 1, the finished product claw 9 and the raw material claw 10 form a lifting structure with a conveyor belt 23 through a W-axis transmission group 7, and materials in a finished product opening 21 and a raw material opening 20 can be respectively grabbed through the finished product claw 9 and the raw material claw 10;

an included angle between an extension line of the jaw main body 11 and an extension line of the turret main body 12 is 90 degrees, the jaw main body 11 is arranged in a cylindrical structure, and an included angle between the extension line of the jaw main body 11 and the extension line of the turret main body 12 is 90 degrees, so that the jaw main body 11 and the turret main body 12 are matched with each other to clamp and fix materials;

the high-pressure oil nozzles 14 are distributed in the cutter tower main body 12 at equal intervals, the highest point of the high-pressure oil nozzle 14 is lower than the lowest point of the pressing jig 13, high-pressure treatment on the surface of a material is facilitated through the arrangement of the high-pressure oil nozzle 14, impurities can be removed, and the quality of a product can be improved;

the flushing pipes 15 are arranged in one-to-one correspondence with the jaw main bodies 11, the interiors of the jaw main bodies 11 are arranged in a hollow structure, the space inside the jaw main bodies 11 is communicated with the space inside the flushing pipes 15, the flushing pipes 15 are arranged in one-to-one correspondence with the jaw main bodies 11, and the space inside the jaw main bodies 11 is communicated with the space inside the flushing pipes 15, so that the later flushing pipes 15 can flush the jaw main bodies 11, and the jaw main bodies 11 can be used next time;

the highest point of the conveyor belt 23 and the lowest point of the claw body 11 are on the same plane, the width of the conveyor belt 23 is larger than the distance between the finished claw 9 and the raw material claw 10, and materials can be temporarily placed through the conveyor belt 23;

the raw material port 20 and the finished product port 21 are formed in the upper surface of the feeding and discharging mechanism 24, the finished product port 21 is formed in the right side of the raw material port 20, the width of the raw material port 20 is equal to that of the finished product port 21, and products can be conveyed and output well through the arrangement of the raw material port 20 and the finished product port 21;

the raw material port 20 and the finished product port 21 are arranged in parallel, the lowest points of the raw material port 20 and the finished product port 21 are higher than the lowest point of the feeding and discharging mechanism 24, and the lowest points of the raw material port 20 and the finished product port 21 are higher than the lowest point of the feeding and discharging mechanism 24, so that the raw material port 20 and the finished product port 21 can well place and convey products.

The working principle of the embodiment is as follows: when the automatic lathe is used, firstly, as shown in the attached figures 1-2 and 4, raw material products enter the interior of a machine tool main body 22 through a raw material port 20, at this time, the raw material products are moved to the upper surface of a conveyor belt 23 through a truss manipulator formed by a U-axis motor 4, a W-axis motor 5, a U-axis transmission group 6, a W-axis transmission group 7, a rotating claw cylinder 8, a finished claw 9 and a raw material claw 10, at this time, as shown in the attached figure 2, the truss manipulator formed by the U-axis motor 4, the W-axis motor 5, the U-axis transmission group 6, the W-axis transmission group 7, the rotating claw cylinder 8, the finished claw 9 and the raw material claw 10 moves downwards along the W axis under the matching action of the W-axis motor 5 and the W-axis transmission group 7, the raw material claw 10 catches the raw material products on the conveyor belt 23, the truss manipulator ascends, the raw material claw 10 rotates 90 degrees under the action of the rotating claw, at this time, the truss manipulator moves along the main shaft turret side formed by the jaw main body 11 and the turret main body 12 along the U-axis direction, and as shown in the attached drawings 1 and 3, the raw material product is placed on the jaw main body 11;

then as shown in the attached fig. 1, fig. 3 and fig. 5-6, the jaw body 11 expands the raw material product under the action of the jaw hydraulic cylinder 19, after the raw material product is placed, the truss manipulator returns to the initial position to be ready, after the jaw body 11 clamps the raw material product, the jaw body 11 moves to the side of the turret body 12 under the action of the X-axis servo motor 18, the W-axis transmission set 7 and the U-axis transmission set 6, the turret body 12 rotates the pressing fixture 13 to the front side of the jaw body 11 under the action of the turret hydraulic cylinder 17, at this time, the turret body 12 moves to the direction of the jaw body 11 under the action of the Z-axis servo motor 16, the W-axis transmission set 7 and the U-axis transmission set 6, the raw material is pressed through the pressing fixture 13, then the turret body 12 rotates to the turning tool under the action of the turret hydraulic cylinder 17 to process the raw material product, the high-pressure oil nozzle 14 on the turret base is used to perform high-pressure, avoiding twining scraps and improving the processing quality, after the processing is finished, the claw body 11 moves to the initial position in the X + direction, at the moment, the finished claw 9 rotates 90 degrees, the truss mechanical arm moves to the position of the claw body 11, the claw body 11 is loosened, the finished product is taken down by the finished claw 9, the truss mechanical arm moves to the finished product opening 21 in the direction of the conveyor belt 23, the truss mechanical arm descends, the finished claw 9 is loosened to place the product into the finished product opening 21, the truss mechanical arm ascends, the raw material claw 10 rotates 90 degrees, the raw material opening 20 is moved to clamp the raw material, the raw material moves to the main shaft side, before the second material is processed, after the washing pipe 15 cleans the claw body 11, the raw material is placed into the raw material opening 20 to start processing, and therefore a series of work.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that various changes in the embodiments and/or modifications of the invention can be made, and equivalents and modifications of some features of the invention can be made without departing from the spirit and scope of the invention.

Claims

1. The utility model provides an automatic lathe, includes U axle crossbeam (1), U axle guide rail (2), U axle rack (3), U axle motor (4) and W axle motor (5), its characterized in that: a U-shaft guide rail (2) is fixed on the upper portion of the U-shaft cross beam (1) through screws, a U-shaft rack (3) is installed inside the U-shaft guide rail (2), a U-shaft motor (4) is fixed on the outer side of the right end of the U-shaft guide rail (2) through screws, a U-shaft transmission set (6) is connected to the outer side of the output end of the U-shaft motor (4), a W-shaft transmission set (7) is arranged on the right side of the U-shaft transmission set (6), a W-shaft motor (5) is installed at the rear end of the W-shaft transmission set (7), a finished claw (9) is installed at the bottom end of the W-shaft transmission set (7), a raw material claw (10) is installed on the right side of the finished claw (9), a rotating claw cylinder (8) is installed above the raw material claw (10), a machine tool main body (22) is fixed below the U-shaft cross beam (1), and a front, a cutter tower main body (12) is arranged on the right side of the jaw main body (11), a high-pressure oil nozzle (14) is installed inside the cutter tower main body (12), a pressing jig (13) is arranged on the outer side above the cutter tower main body (12), a flushing pipe (15) is connected to the outer side of the jaw main body (11), the left end of the jaw main body (11) penetrates through the inside of a machine tool main body (22) and is connected with an X-axis servo motor (18), the left side of the X-axis servo motor (18) is connected with a cutter tower hydraulic cylinder (17), a Z-axis servo motor (16) is arranged on the left side of the cutter tower hydraulic cylinder (17), the right side of the X-axis servo motor (18) is connected with a jaw hydraulic cylinder (19), a conveyor belt (23) is arranged below the rotating jaw cylinder (8), the conveyor belt (23) is connected with the machine tool main body (22), and a feeding and discharging mechanism (24) is, and the bottom of the feeding and discharging mechanism (24) is provided with a machine tool main body (22).

2. An automatic lathe according to claim 1, wherein: u axle guide rail (2) are perpendicular setting with W axle transmission group (7), and W axle transmission group (7) constitute elevation structure through W axle motor (5) and U axle guide rail (2).

3. An automatic lathe according to claim 1, wherein: the finished claw (9) and the raw material claw (10) are 1: 1, and the finished product claw (9) and the raw material claw (10) form a lifting structure with the conveyor belt (23) through a W-shaft transmission group (7).

4. An automatic lathe according to claim 1, wherein: the extension line of jack catch main part (11) and the extension line contained angle of sword tower main part (12) are 90, and jack catch main part (11) are the setting of cylindrical shape structure.

5. An automatic lathe according to claim 1, wherein: the high-pressure oil nozzles (14) are distributed in the cutter tower main body (12) at equal intervals, and the highest point of the high-pressure oil nozzles (14) is lower than the lowest point of the pressing jig (13).

6. An automatic lathe according to claim 1, wherein: the flushing pipes (15) are arranged in one-to-one correspondence with the jaw main bodies (11), the insides of the jaw main bodies (11) are arranged in a hollow structure, and the spaces inside the jaw main bodies (11) are communicated with the spaces inside the flushing pipes (15).

7. An automatic lathe according to claim 1, wherein: the highest point of the conveyor belt (23) and the lowest point of the claw body (11) are on the same plane, and the width of the conveyor belt (23) is larger than the distance between the finished claw (9) and the raw material claw (10).

8. An automatic lathe according to claim 1, wherein: raw material port (20) and finished product mouth (21) have all been seted up to business turn over material mechanism's (24) upper surface inside, and the right side of raw material port (20) is provided with finished product mouth (21) to the width of raw material port (20) equals the width of finished product mouth (21).

9. An automatic lathe according to claim 8 wherein: the raw material port (20) and the finished product port (21) are arranged in parallel, and the lowest points of the raw material port (20) and the finished product port (21) are higher than the lowest point of the feeding and discharging mechanism (24).