CN214185409U - Automatic production line of numerical control machine tool - Google Patents

Abstract

The utility model discloses an automatic production line of a numerical control machine tool, which comprises a workbench, a plurality of placing tables arranged on the workbench, a clamping assembly connected with the placing tables, a transportation assembly arranged on the workbench, an adjusting assembly connected with the transportation assembly, and a milling machine device arranged on the adjusting assembly; the clamping assembly comprises a support fixedly connected with the placing table, a clamping motor fixedly connected with the support, a connecting part arranged at the output end of the clamping motor, a driving rack connected with the connecting part, a driving gear meshed with the driving rack, and a group of connecting seats symmetrically arranged on the support and used for connecting the rotating shaft of the connecting seats and a bearing arranged between the connecting seats and the rotating shaft. The limiting frame can play a role in limiting the parts on the loading table, so that the parts can be prevented from being deviated due to vibration of the device, and normal work of the numerical control machine tool is guaranteed.

Description

Automatic production line of numerical control machine tool

Technical Field

The utility model belongs to the technical field of the lathe production line, concretely relates to digit control machine tool automatic production line.

Background

Along with the continuous development of the numerical control machine tool, the problems of complex and various parts processing can be solved, and meanwhile, the automatic production with high performance can be realized.

However, the existing numerical control machine tool still has some problems, the existing numerical control machine tool mostly places parts on a transporting device, and then the transporting device can transport the parts to a working area, and then the work is completed, but in the process of transporting the parts, the vibration generated by the device can cause the parts to generate certain offset with an established position, so that a machine tool cannot process a specified area on the parts, and further the failure of the work is caused, and meanwhile, the collision between the parts and the transporting device can be caused, and further the damage of the transporting device is caused.

Therefore, how to avoid the position deviation of the parts in the transportation process is a problem to be solved at present.

SUMMERY OF THE UTILITY MODEL

Utility model purpose: the utility model provides a digit control machine tool automatic production line to solve the above-mentioned problem that prior art exists.

The technical scheme is as follows: an automatic production line of a numerical control machine tool comprises:

the milling machine comprises a workbench, a plurality of placing tables arranged on the workbench, a clamping assembly connected with the placing tables, a conveying assembly arranged on the workbench, an adjusting assembly connected with the conveying assembly, and a milling machine device arranged on the adjusting assembly;

clamping component, include with place a fixed connection's support, with support fixed connection's tight motor that presss from both sides sets up the connecting portion of pressing from both sides tight motor output, with the drive gear that connecting portion are connected, with drive gear meshing's drive gear, the symmetry is installed a set of connecting seat on the support is used for connecting the axis of rotation of connecting seat, and set up bearing between connecting seat and axis of rotation, drive gear sets up in the axis of rotation, the inner circle of bearing with rotation axis connection, the outer lane setting of bearing can avoid the part because of the vibrations of device, and lead to its position to take place the skew, and then guarantees the normal work of digit control machine tool.

In a further embodiment, the clamping motor further comprises a group of rotating rods symmetrically arranged at two ends of the rotating shaft, a limiting frame connected with the rotating rods, and a loading platform fixedly connected with the placing platform.

In a further embodiment, the transportation assembly comprises a group of first racks symmetrically arranged on the workbench, a first gear meshed with the first racks, a driving motor connected with the first gear, and a connecting frame arranged on the driving motor; the link is "U" type structure, can adjust the position of milling machine device, and then the milling machine device can accomplish and carry out work to the part that is located different positions, and then has guaranteed the smooth operation of milling machine device.

In a further embodiment, the transportation assembly further comprises a plurality of transportation sliding blocks symmetrically installed on the connecting frame and a group of transmission sliding rails symmetrically installed on the workbench, the transportation sliding blocks are located on the transmission sliding rails and are in sliding connection with the transmission sliding rails, the position of the milling machine device is adjusted, and therefore deviation of parts in the transportation process is avoided.

In a further embodiment, the adjusting assembly comprises a conveying slide rail fixedly connected with the connecting frame, a horizontal motor fixedly connected with the conveying slide rail, a transmission screw rod arranged at the output end of the horizontal motor, a transmission part arranged on the transmission screw rod, a conveying plate connected with the transmission part, and a plurality of horizontal slide blocks symmetrically arranged on the conveying plate; the horizontal sliding block is positioned on the transportation sliding rail and is in sliding connection with the transportation sliding rail, so that the position of the milling machine device in the horizontal direction can be adjusted, and the position adjustment work of the milling machine device is further completed.

In a further embodiment, the adjusting assembly further comprises a driving part fixedly connected with the conveying plate, a set of vertical slide rails symmetrically mounted on the conveying plate, a vertical slide block slidably connected with the vertical slide rails, and an adjusting plate fixedly connected with the vertical slide block, wherein the adjusting plate is connected with the milling machine device. And completing the position adjustment work of the milling machine device in the vertical direction, and further completing the feeding work of the parts by the milling machine device after the milling machine device is positioned at the preset position.

Has the advantages that: the utility model relates to an automatic production line of a numerical control machine tool, which avoids the position deviation of parts in the transportation process, furthermore, a clamping component is arranged, when the part is placed on the loading platform, the clamping motor starts to work, the moving clamping motor can drive the connecting part to start working, the moving connecting part can drive the driving rack to start moving, the working driving rack can drive the driving gear to start working, the rotating driving gear can drive the rotating shaft to start working, the rotating shaft can drive the rotating rod to start moving at the moment, so that the moving rotating rod can drive the limiting frame to start working, and then the spacing frame of motion can play the spacing work to the part on the loading platform, and then can avoid the part to lead to its position to take place the skew because of the vibrations of device, and then guarantee the normal work of digit control machine tool.

Drawings

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

Fig. 2 is a schematic view of the middle clamping assembly of the present invention.

Fig. 3 is a schematic view of the middle position-limiting frame of the present invention.

Fig. 4 is a schematic view of the middle transportation assembly of the present invention.

Fig. 5 is a schematic view of the adjusting assembly of the present invention.

The figures are numbered: the milling machine comprises a workbench 1, a placing table 2, a clamping assembly 3, a bracket 301, a clamping motor 302, a connecting part 303, a driving rack 304, a driving gear 305, a connecting seat 306, a rotating shaft 307, a rotating rod 308, a limiting frame 309, a loading table 310, a bearing 311, a transportation assembly 4, a first rack 401, a first gear 402, a driving motor 403, a transmission slide rail 404, a transportation slide block 405, a connecting frame 406, an adjusting assembly 5, a horizontal motor 501, a transmission part 502, a transmission screw rod 503, a transportation plate 504, a horizontal slide block 505, a driving part 506, a vertical slide rail 507, a vertical slide block 508, an adjusting plate 509, a transportation slide rail 510 and a milling machine device 6.

Detailed Description

Through research and analysis of the applicant, the reason for the problem (causing collision between the part and the transportation device and further causing damage to the transportation device) is that the existing numerical control machine tool mostly places the part on the transportation device, and then the transportation device can transport the part to a working area to complete work, but in the process of transporting the part, the vibration generated by the device can cause the part to deviate from a set position to a certain extent, so that a machine tool cannot process a specified area on the part, and further cause failure of work, the utility model discloses in order to avoid the position deviation of the part in the transportation process, a clamping component is further arranged, when the part is placed on a loading platform, the clamping motor starts to work, and the moving clamping motor can drive a connecting part to start working, and the moving connecting part can drive a driving rack to start to move, and then the drive rack of work can drive gear and begin work, and then pivoted drive gear can drive the axis of rotation and begin work, and the axis of rotation of motion this moment can make the dwang begin to move to the spacing frame of motion can drive spacing beginning work, and then the spacing frame of motion can play the spacing work to the part on the loading platform, and then can avoid the part because of the vibrations of device, and lead to its position to take place the skew, and then guarantee the normal work of digit control machine tool.

An automatic production line of a numerical control machine tool comprises: the milling machine comprises a workbench 1, a placing table 2, a clamping assembly 3, a bracket 301, a clamping motor 302, a connecting part 303, a driving rack 304, a driving gear 305, a connecting seat 306, a rotating shaft 307, a rotating rod 308, a limiting frame 309, a loading table 310, a bearing 311, a transportation assembly 4, a first rack 401, a first gear 402, a driving motor 403, a transmission slide rail 404, a transportation slide block 405, a connecting frame 406, an adjusting assembly 5, a horizontal motor 501, a transmission part 502, a transmission screw rod 503, a transportation plate 504, a horizontal slide block 505, a driving part 506, a vertical slide rail 507, a vertical slide block 508, an adjusting plate 509, a transportation slide rail 510 and a milling machine device 6.

Wherein, a plurality of placing tables 2 connected with the working table 1, a clamping component 3 arranged on the placing tables 2, a transporting component 4 arranged on the working table 1, an adjusting component 5 connected with the transporting component 4, and a milling machine device 6 arranged on the adjusting component 5; the clamping assembly 3 comprises a bracket 301 fixedly connected with the placing table 2, a clamping motor 302 fixedly connected with the bracket 301, a connecting part 303 arranged at the output end of the clamping motor 302, a driving gear 305 connected with the connecting part 303, a driving gear 305 meshed with the driving gear 305, a group of connecting seats 306 symmetrically arranged on the bracket 301, a rotating shaft 307 used for connecting the connecting seats 306, and a bearing 311 arranged between the connecting seats 306 and the rotating shaft 307, wherein the driving gear 305 is arranged on the rotating shaft 307, the inner ring of the bearing 311 is connected with the rotating shaft 307, and the outer ring of the bearing 311 is arranged on the connecting seats 306; after the part is placed on the loading platform 310, the clamping motor 302 starts working at this moment, and then the moving clamping motor 302 can drive the connecting portion 303 to start working, the moving connecting portion 303 can drive the driving rack 304 to start moving at this moment, and then the working driving rack 304 can drive the driving gear 305 to start working, and then the rotating driving gear 305 can drive the rotating shaft 307 to start working, the rotating shaft 307 moving at this moment can make the rotating rod 308 start moving, so the moving rotating rod 308 can drive the limiting frame 309 to start working, and then the moving limiting frame 309 can play the limiting work of the part on the loading platform 310, and then the part can be avoided from being deviated due to the vibration of the device, and the position of the part is caused, and the normal work of the numerical control machine tool is ensured.

The clamping motor 302 further comprises a set of rotating rods 308 symmetrically installed at two ends of the rotating shaft 307, a limiting frame 309 connected with the rotating rods 308, and a loading platform 310 fixedly connected with the placing platform 2.

The transport assembly 4 comprises a group of first racks 401 symmetrically mounted on the workbench 1, a first gear 402 engaged with the first racks 401, a driving motor 403 connected with the first gear 402, and a connecting frame 406 arranged on the driving motor 403; the connecting frame 406 is of a U-shaped structure; after the limiting frame 309 finishes limiting the parts, the driving motor 403 starts to work, the moving driving motor 403 can drive the first gear 402 to start to work, the moving first gear 402 can drive the connecting frame 406 to start to work, the position of the milling machine device 6 can be adjusted, the milling machine device 6 can finish working the parts located at different positions, and smooth operation of the milling machine device 6 is guaranteed.

The transportation assembly 4 further comprises a plurality of transportation sliders 405 symmetrically mounted on the connecting frame 406 and a group of transmission slide rails 404 symmetrically mounted on the workbench 1, wherein the transportation sliders 405 are located on the transmission slide rails 404 and are in sliding connection with the transmission slide rails 404, and the connecting frame 406 can be moved to start moving through the movement of the transportation sliders 405 on the transmission slide rails 404, so that the position of the milling machine device 6 is adjusted, and the deviation of parts in the transportation process is avoided.

The adjusting assembly 5 comprises a conveying slide rail 510 fixedly connected with the connecting frame 406, a horizontal motor 501 fixedly connected with the conveying slide rail 510, a transmission screw rod 503 arranged at the output end of the horizontal motor 501, a transmission part 502 arranged on the transmission screw rod 503, a conveying plate 504 connected with the transmission part 502, and a plurality of horizontal slide blocks 505 symmetrically arranged on the conveying plate 504; the horizontal sliding block 505 is located on the transportation sliding rail 510 and is connected with the transportation sliding rail 510 in a sliding manner, after the adjustment work of the connecting frame 406 is completed, the horizontal motor 501 starts to work, and then the moving horizontal motor 501 can drive the transmission lead screw 503 to start to work, and then the moving transmission lead screw 503 can drive the transmission part 502 to start to move, so that the position of the milling machine device 6 in the horizontal direction can be adjusted, and then the position adjustment work of the milling machine device 6 is completed.

The adjusting assembly 5 further comprises a driving portion 506 fixedly connected with the conveying plate 504, a set of vertical sliding rails 507 symmetrically mounted on the conveying plate 504, a vertical sliding block 508 slidably connected with the vertical sliding rails 507, and an adjusting plate 509 fixedly connected with the vertical sliding block 508, wherein the adjusting plate 509 is connected with the milling machine device 6. After the adjustment of the milling machine device 6 in the horizontal direction is completed, the driving part 506 starts to work, and the moving driving part 506 can adjust the position of the adjusting plate 509 on the vertical slide rail 507, so that the adjustment of the position of the milling machine device 6 in the vertical direction is completed, and after the milling machine device 6 is positioned at the predetermined position, the milling machine device 6 completes the feeding work of the part.

Description of the working principle: after the part is placed on the loading platform 310, the clamping motor 302 starts to work at the moment, and then the moving clamping motor 302 can drive the connecting part 303 to start to work, at the moment, the moving connecting part 303 can drive the driving rack 304 to start to move, and then the working driving rack 304 can drive the driving gear 305 to start to work, and then the rotating driving gear 305 can drive the rotating shaft 307 to start to work, and at the moment, the moving rotating shaft 307 can enable the rotating rod 308 to start to move, so that the moving rotating rod 308 can drive the limiting frame 309 to start to work, and further the moving limiting frame 309 can play a role in limiting the part on the loading platform 310, so that the part can be prevented from being deviated in position due to vibration of the device, and further the normal work of the numerical control machine tool can be ensured; after the limiting frame 309 finishes limiting the parts, the driving motor 403 starts to work, the moving driving motor 403 can drive the first gear 402 to start to work, the moving first gear 402 can drive the connecting frame 406 to start to work, the position of the milling machine device 6 can be adjusted, the milling machine device 6 can finish working the parts at different positions, and smooth operation of the milling machine device 6 is guaranteed; after the adjustment of the connecting frame 406 is completed, the horizontal motor 501 starts to work, and the moving horizontal motor 501 can drive the transmission screw rod 503 to start to work, so that the moving transmission screw rod 503 can drive the transmission part 502 to start to move, and the position of the milling machine device 6 in the horizontal direction can be adjusted, thereby completing the position adjustment of the milling machine device 6; after the adjustment of the milling machine device 6 in the horizontal direction is completed, the driving part 506 starts to work, and the moving driving part 506 can adjust the position of the adjusting plate 509 on the vertical slide rail 507, so that the adjustment of the position of the milling machine device 6 in the vertical direction is completed, and after the milling machine device 6 is positioned at the predetermined position, the milling machine device 6 completes the feeding work of the part.

As mentioned above, although the present invention has been shown and described with reference to certain preferred embodiments, it should not be construed as limiting the invention itself. Various changes in form and detail may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (6)

1. The utility model provides a digit control machine tool automatic production line, characterized by includes:

the milling machine comprises a workbench, a plurality of placing tables arranged on the workbench, a clamping assembly connected with the placing tables, a conveying assembly arranged on the workbench, an adjusting assembly connected with the conveying assembly, and a milling machine device arranged on the adjusting assembly;

clamping assembly, include with place a fixed connection's support, with support fixed connection's tight motor that presss from both sides sets up the connecting portion of pressing from both sides tight motor output, with the drive rack that connecting portion are connected, with drive rack toothing's drive gear, the symmetry is installed a set of connecting seat on the support is used for connecting the axis of rotation of connecting seat, and sets up bearing between connecting seat and axis of rotation, drive gear sets up in the axis of rotation, the inner circle of bearing with rotation axis connection, the outer lane setting of bearing is on the connecting seat.

2. The automatic production line of numerical control machine tools according to claim 1, characterized in that: the clamping motor further comprises a group of rotating rods symmetrically arranged at two ends of the rotating shaft, a limiting frame connected with the rotating rods, and a loading platform fixedly connected with the placing platform.

3. The automatic production line of numerical control machine tools according to claim 1, characterized in that: the conveying assembly comprises a group of first racks symmetrically arranged on the workbench, a first gear meshed with the first racks, a driving motor connected with the first gear, and a connecting frame arranged on the driving motor; the connecting frame is of a U-shaped structure.

4. The automatic production line of numerical control machine tools according to claim 3, characterized in that: the transportation assembly further comprises a plurality of transportation sliding blocks symmetrically installed on the connecting frame and a group of transmission sliding rails symmetrically installed on the workbench, and the transportation sliding blocks are located on the transmission sliding rails and are in sliding connection with the transmission sliding rails.

5. The automatic production line of numerical control machine tools according to claim 3, characterized in that: the adjusting assembly comprises a conveying slide rail fixedly connected with the connecting frame, a horizontal motor fixedly connected with the conveying slide rail, a transmission screw rod arranged at the output end of the horizontal motor, a transmission part arranged on the transmission screw rod, a conveying plate connected with the transmission part, and a plurality of horizontal slide blocks symmetrically arranged on the conveying plate; the horizontal sliding block is positioned on the transportation sliding rail and is in sliding connection with the transportation sliding rail.

6. The automatic production line of numerical control machine tools according to claim 5, characterized in that: the adjusting assembly further comprises a driving part fixedly connected with the conveying plate, a group of vertical slide rails symmetrically installed on the conveying plate, a vertical slide block connected with the vertical slide rails in a sliding mode, and an adjusting plate fixedly connected with the vertical slide block, and the adjusting plate is connected with the milling machine device.

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