CN212192356U

CN212192356U - Double-station milling and cutting tool machining device

Info

Publication number: CN212192356U
Application number: CN202020605020.2U
Authority: CN
Inventors: 刘邦文; 李小刚; 杨恒昌
Original assignee: Dongguan Shuolei Electronic Technology Co ltd
Current assignee: Dongguan Shuolei Electronic Technology Co ltd
Priority date: 2020-04-21
Filing date: 2020-04-21
Publication date: 2020-12-22
Anticipated expiration: 2030-04-21

Abstract

The utility model discloses a milling cutter double-station processing device, which comprises a workbench, a milling cutter clamping mechanism, a milling cutter processing mechanism, a feeding mechanism and a discharging mechanism; the milling cutter clamping mechanism comprises an X-axis sliding rail pair, a Y-axis sliding rail pair and a milling cutter clamping seat; the X-axis sliding rail pair is arranged on the workbench; the Y-axis sliding rail pair is arranged on the X-axis sliding rail pair; the milling cutter clamping seat is connected to the Y-axis sliding rail pair in a sliding mode, and a spring jacket for clamping the milling cutter is assembled on the milling cutter clamping seat; the milling cutter processing mechanism comprises a main shaft and a driving motor in driving connection with the main shaft; a first cutter disc used for processing the top surface of the milling cutter and a second cutter disc used for processing the side surface of the milling cutter are arranged on the main shaft; the feeding mechanism comprises a feeding table and a feeding cylinder; the blanking mechanism comprises a blanking table and a blanking cylinder; the utility model discloses a top surface and the side of gong sword are processed respectively to two blade discs that set up on same main shaft at a motor drive, have machining efficiency height, save cost's advantage.

Description

Double-station milling and cutting tool machining device

Technical Field

The utility model relates to a cutter processing equipment technical field, in particular to gong sword duplex position processingequipment.

Background

The milling cutter is in a shape of a regular cone, the peripheral inclined plane of the cone is connected with a cutting edge zone, the cutting edge zone is in a shape like a fishtail, a top edge of the cutting edge zone is generally in a V shape, the side face and the top face of the cutting tool need to be machined during machining, the side face is machined on one piece of equipment in the existing machining mode, then the top face is machined on the other piece of equipment, the production efficiency of the mode is low, or the side face and the top face are machined on one piece of equipment through two different main shafts respectively, the mode improves the production efficiency, but the two main shafts need to be correspondingly provided with two motors, the cost is correspondingly improved, and the improvement is needed.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a gong sword duplex position processingequipment to solve above-mentioned problem.

The utility model discloses a following technical scheme realizes above-mentioned purpose:

a milling cutter double-station processing device comprises a workbench, a milling cutter clamping mechanism, a milling cutter processing mechanism, a feeding mechanism and a discharging mechanism; the milling cutter clamping mechanism comprises an X-axis sliding rail pair, a Y-axis sliding rail pair and a milling cutter clamping seat; the X-axis sliding rail pair is arranged on the workbench; the Y-axis sliding rail pair is arranged on the X-axis sliding rail pair; the gong-knife clamping seat is connected to the Y-axis sliding rail pair in a sliding manner, and a spring jacket for clamping a gong-knife is assembled on the gong-knife clamping seat; the milling cutter processing mechanism comprises a main shaft and a driving motor in driving connection with the main shaft; a first cutter disc used for processing the top surface of the milling cutter and a second cutter disc used for processing the side surface of the milling cutter are arranged on the main shaft; the feeding mechanism comprises a feeding table and a feeding cylinder, and the feeding cylinder pushes a gong cutter on the feeding table to enter the spring clamp sleeve for feeding; the blanking mechanism comprises a blanking table and a blanking cylinder, and the blanking cylinder carries out blanking on the blanking table by pulling away a milling cutter processed on the spring jacket.

Furthermore, the X-axis slide rail pair comprises an X-axis motor and an X-axis lead screw slide rail; the X-axis lead screw slide rail is arranged on the workbench; the X-axis motor is connected to one side of the X-axis lead screw slide rail in a driving manner; the Y-axis slide rail pair comprises a Y-axis motor and a Y-axis lead screw slide rail; the Y-axis lead screw slide rail is connected above the X-axis slide rail pair in a sliding manner through a slide plate; the Y-axis motor is connected to one side of the Y-axis lead screw slide rail in a driving manner; the milling cutter clamping seat is connected to the upper portion of the Y-axis screw slide rail in a sliding mode through a slide plate, a cutting fluid nozzle is further arranged on the upper portion of the slide plate, and the direction of the cutting fluid nozzle points to the front of the spring jacket.

Furthermore, the milling cutter processing mechanism also comprises an inclined plane slide rail pair, a motor sliding block and a shaft body assembling block; the inclined plane slide rail pair is arranged on the workbench; the motor sliding block is connected to the inclined plane sliding rail pair in a sliding manner; the shaft body assembling block is arranged in front of the motor sliding block; the driving motor is arranged on the upper part of the motor sliding block; the main shaft is arranged on the shaft body assembly block and is in driving connection with the driving motor through a synchronous belt.

Furthermore, the inclined plane slide rail pair comprises an inclined plane motor and an inclined plane lead screw slide rail; the inclined lead screw slide rail is arranged on the workbench; the inclined plane motor is connected to one side of the inclined plane lead screw sliding rail in a driving mode.

Further, a groove allowing the milling cutter to pass through is formed in the feeding table; the feeding mechanism further comprises a feeding frame body; the interior of the feeding frame body is provided with a space for stacking a plurality of gongs and knives, and the lower part of the feeding frame body is provided with an opening matched with the groove.

Furthermore, limiting plates protruding upwards are arranged on the left side and the right side of the blanking table; the blanking cylinder is vertically intersected with the blanking table, is positioned above the blanking table and comprises a pushing cylinder and a clamping jaw cylinder, the clamping jaw cylinder is arranged at the output end of the pushing cylinder, and the output end of the clamping jaw cylinder is also provided with a cutter fixing column; the cutter fixing column is uniformly divided into two parts and is respectively arranged on the two clamping jaws at the output end of the clamping jaw air cylinder.

Furthermore, the blanking mechanism also comprises a material pushing cylinder; the material pushing cylinder is parallel to the blanking table and is arranged in parallel with the blanking table.

The utility model has the advantages that 1, people are replaced by the robot, and the working efficiency is improved; the utility model has the advantages that the milling cutter clamping mechanism, the milling cutter processing mechanism, the feeding mechanism and the discharging mechanism are arranged, the milling cutter is automatically fed, processed and discharged through the cooperative work of the mechanisms, and compared with the manual polishing in the past, the milling cutter has the advantage of high efficiency; 2. the cost is saved; through set up the first blade disc of processing gong sword top surface, be used for processing the second blade disc of gong sword side simultaneously on the main shaft, compare in the past through the equipment of two different main shafts processing side and top surface respectively, this reality only uses a motor, a main shaft drive, the cost is reduced.

Drawings

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

FIG. 2 is a schematic view of a partial structure of the present invention;

fig. 3 is a schematic view of a partial structure of the present invention.

10. A work table; 20. a milling cutter clamping mechanism; 21. a milling cutter clamping seat; 22. an X-axis motor; 23. an X-axis lead screw slide rail; 24. a Y-axis motor; 25. a Y-axis lead screw slide rail; 26. a spring jacket; 27. a cutting fluid nozzle; 30. a milling cutter processing mechanism; 31. a main shaft; 32. a drive motor; 33. a motor slider; 34. a shaft body assembling block; 35. a bevel motor; 36. an inclined lead screw slide rail; 37. a synchronous belt; 38. a first cutter head; 39. a second cutter head; 40. a feeding mechanism; 41. a feeding table; 42. a feeding cylinder; 43. a feeding frame body; 44. a groove; 50. a blanking mechanism; 51. a blanking table; 52. a push cylinder; 53. a material pushing cylinder; 54. a limiting plate; 55. a cutter fixing column; 56. clamping jaw cylinder.

Detailed Description

In order to make the above objects, features and advantages of the present invention more comprehensible, embodiments of the present invention are described in detail below with reference to the accompanying drawings. It should be noted that the drawings of the present invention are simplified and use non-precise ratios, and are only used for the purpose of facilitating and clearly assisting the description of the embodiments of the present invention.

As shown in fig. 1 to 3, a milling and cutting double-station processing device includes a workbench 10, a milling and cutting clamping mechanism 20, a milling and cutting processing mechanism 30, a feeding mechanism 40, and a discharging mechanism 50;

the milling cutter clamping mechanism 20 comprises an X-axis sliding rail pair, a Y-axis sliding rail pair and a milling cutter clamping seat 21; the X-axis slide rail pair comprises an X-axis motor 22 and an X-axis lead screw slide rail 23; the X-axis lead screw slide rail 23 is arranged on the workbench 10; the X-axis motor 22 is connected to one side of the X-axis lead screw slide rail 23 in a driving manner; the Y-axis slide rail pair comprises a Y-axis motor 24 and a Y-axis lead screw slide rail 25; the Y-axis lead screw slide rail 25 is connected above the X-axis slide rail pair in a sliding manner through a slide plate; the Y-axis motor 24 is connected to one side of the Y-axis lead screw slide rail 25 in a driving manner; the gong-knife clamping seat 21 is connected to the upper part of the Y-axis screw slide rail 25 in a sliding way through a sliding plate, a spring jacket 26 for clamping a gong-knife is assembled on the gong-knife clamping seat, and a cutting fluid nozzle 27 is further arranged at the upper part of the sliding plate and points to the front of the spring jacket 26;

the routing knife processing mechanism 30 comprises a main shaft 31, a driving motor 32 in driving connection with the main shaft 31, an inclined plane sliding rail pair, a motor sliding block 33 and a shaft body assembling block 34; the inclined plane slide rail pair comprises an inclined plane motor 35 and an inclined plane lead screw slide rail 36; the inclined lead screw slide rail 36 is arranged on the workbench 10; the inclined plane motor 35 is connected to one side of the inclined plane lead screw slide rail 36 in a driving manner; the motor sliding block 33 is connected to the inclined slide rail pair in a sliding manner; the shaft body assembling block 34 is arranged in front of the motor sliding block 33; the driving motor 32 is arranged on the upper part of the motor sliding block 33; the main shaft 31 is arranged on the shaft body assembly block 34 and is in driving connection with the driving motor 32 through a synchronous belt 37; the main shaft 31 is provided with a first cutter disc 38 for processing the top surface of the gong cutter and a second cutter disc 39 for processing the side surface of the gong cutter; the first cutter disc 38 is positioned in front of the second cutter disc 39;

the feeding mechanism 40 comprises a feeding table 41, a feeding cylinder 42 and a feeding frame 43, wherein a groove 44 allowing a milling cutter to pass through is formed in the feeding table 41; a space for stacking a plurality of gongs and knives is arranged in the feeding frame 43, and an opening matched with the groove 44 is arranged at the lower part of the feeding frame;

the blanking mechanism 50 comprises a blanking table 51, a blanking cylinder and a material pushing cylinder 53, wherein limiting plates 54 protruding upwards are arranged on the left side and the right side of the blanking table 51; the blanking cylinder is vertically intersected with the blanking table 51, is positioned above the blanking table 51, and comprises a pushing cylinder 52 and a clamping jaw cylinder 56, and the output end of the clamping jaw cylinder 56 is also provided with a cutter fixing column 55; the cutter fixing column 55 is uniformly divided into two parts and is respectively arranged on two clamping jaws at the output end of the clamping jaw air cylinder 56; the material pushing cylinder 53 is parallel to the blanking table 51 and is arranged flush with the blanking table 51.

The working principle is as follows: firstly, placing the gong cutter to be processed in the feeding frame 43, enabling a single gong cutter to fall into the groove 44 on the feeding table 41 and be pushed forward by the feeding cylinder 42, enabling the gong cutter clamping mechanism 20 to move to the front of the feeding table 41, enabling the gong cutter clamping seat 21 to receive the gong cutter and be close to the gong cutter processing mechanism 30 for processing, firstly enabling the gong cutter clamping mechanism 20 to control the gong cutter to move backwards by a small distance after processing is completed, enabling the inclined plane slide rail pair to control the main shaft 31 to move backwards by a small distance to enable the first cutter disc 38 to replace the position of the original second cutter disc 39, enabling the gong cutter clamping mechanism 20 to control the gong cutter to reset to enable the gong cutter to be close to the top surface of the first cutter disc 38, and enabling the clamping mechanism to transfer the gong cutter to the front of the blanking mechanism 50 after processing is completed, the pushing cylinder 52 pushes the clamping jaw cylinder 56 to extend out of the edge of the blanking table 51, and then the clamping jaw cylinder 56 clamps the gong cutter to be placed on the blanking table 51; the material pushing cylinder 53 is used for starting the feeding cylinder 52 once before working, and is used for pushing the last transferred routing tool to the last side of the feeding table 51, so that the routing tool is prevented from being stacked and falling onto the working table 10.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. The utility model provides a gong sword duplex position processingequipment which characterized in that: the milling machine comprises a workbench, a milling cutter clamping mechanism, a milling cutter processing mechanism, a feeding mechanism and a discharging mechanism; the milling cutter clamping mechanism comprises an X-axis sliding rail pair, a Y-axis sliding rail pair and a milling cutter clamping seat; the X-axis sliding rail pair is arranged on the workbench; the Y-axis sliding rail pair is arranged on the X-axis sliding rail pair; the gong-knife clamping seat is connected to the Y-axis sliding rail pair in a sliding manner, and a spring jacket for clamping a gong-knife is assembled on the gong-knife clamping seat; the milling cutter processing mechanism comprises a main shaft and a driving motor in driving connection with the main shaft; a first cutter disc used for processing the top surface of the milling cutter and a second cutter disc used for processing the side surface of the milling cutter are arranged on the main shaft; the feeding mechanism comprises a feeding table and a feeding cylinder, and the feeding cylinder pushes a gong cutter on the feeding table to enter the spring clamp sleeve for feeding; the blanking mechanism comprises a blanking table and a blanking cylinder, and the blanking cylinder carries out blanking on the blanking table by pulling away a milling cutter processed on the spring jacket.

2. The milling and turning double-station machining device according to claim 1, characterized in that: the X-axis slide rail pair comprises an X-axis motor and an X-axis lead screw slide rail; the X-axis lead screw slide rail is arranged on the workbench; the X-axis motor is connected to one side of the X-axis lead screw slide rail in a driving manner; the Y-axis slide rail pair comprises a Y-axis motor and a Y-axis lead screw slide rail; the Y-axis lead screw slide rail is connected above the X-axis slide rail pair in a sliding manner through a slide plate; the Y-axis motor is connected to one side of the Y-axis lead screw slide rail in a driving manner; the milling cutter clamping seat is connected to the upper portion of the Y-axis screw slide rail in a sliding mode through a slide plate, a cutting fluid nozzle is further arranged on the upper portion of the slide plate, and the direction of the cutting fluid nozzle points to the front of the spring jacket.

3. The milling and turning double-station machining device according to claim 1, characterized in that: the milling cutter machining mechanism further comprises an inclined plane sliding rail pair, a motor sliding block and a shaft body assembling block; the inclined plane slide rail pair is arranged on the workbench; the motor sliding block is connected to the inclined plane sliding rail pair in a sliding manner; the shaft body assembling block is arranged in front of the motor sliding block; the driving motor is arranged on the upper part of the motor sliding block; the main shaft is arranged on the shaft body assembly block and is in driving connection with the driving motor through a synchronous belt.

4. The gong-knife double-station processing device according to claim 3, characterized in that: the inclined plane slide rail pair comprises an inclined plane motor and an inclined plane lead screw slide rail; the inclined lead screw slide rail is arranged on the workbench; the inclined plane motor is connected to one side of the inclined plane lead screw sliding rail in a driving mode.

5. The milling and turning double-station machining device according to claim 1, characterized in that: a groove allowing the gong cutter to pass through is formed in the feeding table; the feeding mechanism further comprises a feeding frame body; the interior of the feeding frame body is provided with a space for stacking a plurality of gongs and knives, and the lower part of the feeding frame body is provided with an opening matched with the groove.

6. The milling and turning double-station machining device according to claim 1, characterized in that: limiting plates protruding upwards are arranged on the left side and the right side of the blanking table; the blanking cylinder is vertically intersected with the blanking table, is positioned above the blanking table and comprises a pushing cylinder and a clamping jaw cylinder, the clamping jaw cylinder is arranged at the output end of the pushing cylinder, and the output end of the clamping jaw cylinder is also provided with a cutter fixing column; the cutter fixing column is uniformly divided into two parts and is respectively arranged on the two clamping jaws at the output end of the clamping jaw air cylinder.

7. The gong-knife double-station processing device according to claim 6, characterized in that: the blanking mechanism also comprises a material pushing cylinder; the material pushing cylinder is parallel to the blanking table and is arranged in parallel with the blanking table.