CN210435707U - 5G auto-lock tuning element special use numerical control lathe turn-milling compound module - Google Patents

Abstract

The utility model discloses a 5G auto-lock tuning element special use numerical control lathe turnning and milling compound module, include through the tool rest board of X axle guide rail and Y axle guide rail setting on the lathe to and follow Y and connect material module and grooving cutting module to arranging turning module, die-cut module, location that sets up on the tool rest board in proper order. The utility model discloses a through turning in the conventional manufacturing procedure, die-cut module and grooving cutting-off function complex be in the same place to the grooving that the special design has grooving and cutting-off function simultaneously cuts off the module and matched with location connects the material module, consequently not only realized the high-efficient processing of integration complete machine of auto-lock tuning element, and need not to cut off long copper pole in advance and fix a position alone, can directly carry out online processing and cut off and improve positioning accuracy and machining precision to long copper pole, production efficiency and precision obtain greatly improving.

Description

5G auto-lock tuning element special use numerical control lathe turn-milling compound module

Technical Field

The utility model relates to a 5G auto-lock adjusting element numerical control processing technology field, in particular to special numerical control lathe turnning and milling of 5G auto-lock tuning element compound module.

Background

The common numerical control lathe is suitable for turning round and spherical workpieces, and cannot mill linear grooves with spherical surfaces or spherical surfaces parallel to a main shaft. As shown in fig. 1, the self-locking tuning element for 5G communication equipment has a first threaded section a1 and a second threaded section a2 which are dislocated with each other on a screw, and a polished rod section A3 with a radius smaller than that of the threaded section is arranged between the first threaded section a1 and the second threaded section a2, and a radial slot a4 which is symmetrical with each other and dislocated from top to bottom is processed on the polished rod section A3, and by utilizing the axial misalignment of the two threads, when the internal thread nut is locked, the external thread is forced to be aligned with the internal thread and screwed in by compressing or stretching the radial slot a4, so that the self-locking tuning element is locked with the internal thread by the axial elasticity of the radial slot a4, thereby achieving the purpose of locking.

On current numerical control lathe, need accomplish the processing of screw thread section, polished rod section and radial grooving alone through many numerical control lathes, the dismouting location of many processes work piece many times, not only machining efficiency is low, and many times location leads to the machining precision lower easily.

In addition, the conventional processing mode for the self-locking tuning element is to cut off and form the copper rod with a fixed length, and then process and form the copper rod in steps.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides a 5G self-locking tuning element special numerical control lathe turn-milling composite module, the turn-milling composite module is arranged on the lathe body through an X-axis guide rail and a Y-axis guide rail and corresponds to the lathe spindle, and the Y-axis guide rail is arranged on the X-axis guide rail; the turning and milling composite module comprises a tool rest plate arranged on the Y-axis guide rail, and a turning module, a punching module, a positioning material receiving module and a grooving cutting module which are sequentially arranged on the tool rest plate along the Y direction, and is driven along the X-axis guide rail and the Y-axis guide rail in sequence and corresponds to a long copper rod on a lathe spindle by PLC control and adopting the turning module, the punching module, the positioning material receiving module and the grooving cutting module, so that thread section processing, polished rod section processing, end cross groove processing, positioning material receiving, radial grooving processing and single element cutting of the self-locking tuning element are continuously and sequentially completed, and then the next single element processing is carried out by resetting.

The turning module comprises a thread section turning module, a polished rod section turning module and a thread section turning module which are sequentially arranged.

The positioning material receiving module comprises a sliding block seat fixed on the tool rest plate, an adjusting sliding block arranged on the sliding block seat, a micro guide rail arranged on the adjusting sliding block, a cylinder fixing plate fixed at one end of the sliding block seat, a cylinder arranged on the cylinder fixing plate, a suction nozzle support arranged on the adjusting sliding block through the micro guide rail and driven by the cylinder to advance and retreat, and a suction nozzle arranged at the front end of the suction nozzle support and movably corresponding to the lathe spindle.

The grooving and cutting-off module comprises a base arranged on the tool rest plate, an installation plate arranged at the top end of the base, a servo motor arranged on the installation plate, a driving wheel driven by the servo motor, a driven wheel driven by the driving wheel through a synchronous belt, a guide rail module driven by the driven wheel to lift, a motor arranged on the guide rail module through a motor hoop, a tool bar driven by the motor, and a blade arranged at the end part of the tool bar and corresponding to the lathe spindle; the base is further provided with a sensor corresponding to the motor, and the sensor is used for sensing whether the motor is lifted in place or not so as to further realize whether the motor is started to perform grooving and cutting-off actions or not.

Through the technical scheme, the utility model discloses a turning in with conventional manufacturing procedure, die-cut module and grooving cutting-off function are in the same place, and the grooving cutting-off module that the special design has grooving and cutting-off function simultaneously and matched with location connect the material module, thereby can incessant completion the screw thread section processing of long copper pole on same lathe, polished rod section processing, tip cross recess processing, the location connects the material, radial grooving processing and single component cut off, then reset and carry out next individual component processing, consequently, the high-efficient processing of integration complete machine of auto-lock tuning element has not only been realized, and need not to cut off long copper pole and fix a position alone in advance, can directly carry out online processing and cut off and improve positioning accuracy and machining precision to long copper pole, production efficiency and precision obtain very big improvement.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly described below.

Fig. 1 is a schematic structural diagram of a self-locking tuning element according to an embodiment of the present invention;

fig. 2 is a schematic structural view of a 5G self-locking tuning element dedicated numerically controlled lathe disclosed in an embodiment of the present invention;

fig. 3 is a schematic structural view of a turning and milling composite module according to an embodiment of the present invention;

fig. 4 is a schematic structural view of a positioning material receiving module according to an embodiment of the present invention;

fig. 5 is a schematic structural diagram of a grooving and parting module according to an embodiment of the present invention.

The figures in the drawings represent:

A1. thread section one A2, thread section two A3 polish rod section

A4. Radial grooving 10, lathe bed 20, lathe spindle

31, X-axis guide rail 32, Y-axis guide rail 40, turning and milling composite module

41. Turning module 42, punching module 43, positioning and receiving module

431. Slider seat 432, adjusting slider 433, micro guide rail

434. Cylinder fixing plate 435, cylinder 436 and suction nozzle bracket

437. Positioning suction nozzle 44, grooving and cutting-off module 441, base

442. Motor hoop 443, motor 444 and cutter bar

445. Blade 446, mounting plate 447, servo motor

448. Driving wheel 449, synchronous belt 450, driven wheel

451. Guide rail module 452, sensor 45, tool rest board

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

Referring to fig. 2, the utility model provides a special numerical control lathe of 5G auto-lock tuning element includes the compound module of turnning and milling, and the compound module of turnning and milling 40 sets up on lathe automobile body 10 and corresponding with lathe spindle 20 through X axle guide rail 31 and Y axle guide rail 32, and Y axle guide rail 32 sets up on X axle guide rail 31.

Referring to fig. 3, the turning and milling composite module 40 includes a tool rest plate 45 disposed on the Y-axis guide rail 32, and a turning module 41, a punching module 42, a positioning material receiving module 43 and a grooving cutting module 44 sequentially disposed on the tool rest plate 45 along the Y-direction, and the turning module 41, the punching module 42, the positioning material receiving module 43 and the grooving cutting module 44 are sequentially driven along the X-axis guide rail 31 and the Y-axis guide rail 32 by PLC control and correspond to the long copper rod on the lathe spindle 20, so as to continuously and sequentially complete thread section processing, polished rod section processing, end cross groove processing, positioning material receiving, radial grooving processing and single element cutting of the self-locking tuning element, and then reset to process the next single element.

The turning module 41 comprises a threaded section one turning module 41, a polished rod section turning module 41 and a threaded section turning module 41 which are sequentially arranged, the threaded section one turning module 41, the polished rod section turning module 41 and the threaded section turning module 41 sequentially correspond to the long copper rod clamped on the lathe spindle 20 through the X-direction and Y-direction moving positioning of the tool rest plate 45, so that the machining of a threaded section one A1, a polished rod section A3 and a threaded section two A2 on the self-locking tuning element shown in FIG. 1 is sequentially completed, and then the X-direction and Y-direction moving positioning of the tool rest plate enables the cutting module 42 to correspondingly complete the machining of the end parts of the self-locking tuning element with the threaded section one A1, the polished rod section A3 and the threaded section two A2 to perform cross groove.

Referring to fig. 4, the positioning material receiving module 43 includes a slider seat 431 fixed on the tool holder plate 45, an adjusting slider 432 provided on the slider seat 431, a micro guide rail 433 provided on the adjusting slider 432, a cylinder fixing plate 434 fixed on one end of the slider seat 431, a cylinder 435 mounted on the cylinder fixing plate 434, a nozzle holder 436 mounted on the adjusting slider 432 through the micro guide rail 433 and driven by the cylinder 435 to advance and retreat, and a positioning nozzle 437 mounted on a front end of the nozzle holder 436 and movably corresponding to the lathe spindle 20. After the end cross slot of the self-locking tuning element shown in fig. 1 is processed, the positioning suction nozzle 437 of the positioning material receiving module 43 corresponds to the end of the self-locking tuning element through the X-direction and Y-direction moving positioning of the tool rest plate 45, and the air cylinder 435 drives the suction nozzle support 436 to perform fine adjustment along the micro guide rail 433 so that the positioning suction nozzle 437 aligns with the end of the self-locking tuning element to perform adsorption positioning, thereby preventing the swinging of the workpiece in the subsequent grooving and cutting-off processes.

Referring to fig. 5, the grooving cutting module 44 includes a base 441 mounted on the carriage plate 45, a mounting plate 446 provided at a top end of the base 441, a servo motor 447 provided on the mounting plate 446, a driving pulley 448 driven by the servo motor 447 and a driven pulley 450 driven by the driving pulley 448 through a timing belt 449, a guide rail module 451 driven to ascend and descend by the driven pulley 450, a motor 443 mounted on the guide rail module 451 through a motor hoop 442, a tool bar 444 driven by the motor 443, and a blade 445 mounted at an end of the tool bar 444 and corresponding to the lathe spindle 20; the base 441 is further provided with a sensor 452 corresponding to the motor 443, and the sensor 452 senses whether the motor 443 is lifted to a proper position, so as to further realize whether the motor 443 is started to perform grooving and cutting-off operations. After the workpiece is adsorbed and positioned by the suction nozzle, the servo motor 447443 drives the guide rail module 451 to lift so that the blade 445 corresponds to the position of the to-be-cut groove of the workpiece and drives the blade 445 to rotate at a high speed through the motor 443 to position and cut the groove, after two radial grooves A4 are machined, the blade 445 is aligned to the to-be-cut position of the workpiece through position adjustment to cut off the complete self-locking tuning element, and thus, the online integrated efficient high-precision machining and forming of the single self-locking tuning element are completed.

The utility model discloses a turning in with conventional manufacturing procedure, die-cut module 42 and grooving cutting-off function are in the same place, and the grooving that the special design has grooving and cutting-off function simultaneously cuts off module 44 and matched with location and connects material module 43, thereby can incessant completion the screw thread section processing of long copper pole on same lathe, polished rod section A3 processing, tip cross recess processing, the location connects the material, radial grooving processing and single component cut off, then reset and carry out next individual component processing, consequently, the high-efficient processing of integration complete machine of auto-lock tuning element has not only been realized, and need not to cut off long copper pole and fix a position alone in advance, can directly carry out online processing and cut off and improve positioning accuracy and machining precision to long copper pole, production efficiency and precision obtain very big improvement.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to the above-described embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (5)

1. A turning and milling composite module of a special numerical control lathe for a 5G self-locking tuning element is arranged on a lathe body of the lathe through an X-axis guide rail and a Y-axis guide rail and corresponds to a lathe spindle, and the Y-axis guide rail is arranged on the X-axis guide rail; the turning and milling composite module is characterized by comprising a tool rest plate arranged on the Y-axis guide rail, and a turning module, a punching module, a positioning material receiving module and a grooving cutting module which are sequentially arranged on the tool rest plate along the Y direction, wherein the turning module, the punching module, the positioning material receiving module and the grooving cutting module are controlled by a PLC and sequentially correspond to workpieces on a lathe spindle.

2. The turning and milling composite module of the 5G self-locking tuning element special numerical control lathe is characterized in that the turning module comprises a threaded section turning module, a polished rod section turning module and a threaded section turning module which are sequentially arranged.

3. The turning and milling compound module of the 5G self-locking tuning element special numerical control lathe as claimed in claim 1, wherein the positioning material receiving module comprises a slider seat fixed on the tool rest plate, an adjusting slider arranged on the slider seat, a micro guide rail arranged on the adjusting slider, a cylinder fixing plate fixed at one end of the slider seat and a cylinder arranged on the cylinder fixing plate, a suction nozzle bracket arranged on the adjusting slider through the micro guide rail and driven by the cylinder to advance and retreat, and a positioning suction nozzle arranged at the front end of the suction nozzle bracket and movably corresponding to the main shaft of the lathe.

4. The turning and milling compound module of the 5G self-locking tuning element special numerical control lathe is characterized in that the cutting and cutting module comprises a base, a mounting plate, a servo motor, a driving wheel and a driven wheel, wherein the base is mounted on the cutter frame plate, the mounting plate is arranged at the top end of the base, the servo motor is arranged on the mounting plate, the driving wheel is driven by the servo motor, the driven wheel is driven by the driving wheel through a synchronous belt, the guide rail module is driven by the driven wheel to lift, the motor is mounted on the guide rail module through a motor hoop, a cutter bar is driven by the motor, and a cutter blade is mounted at the end part of the cutter bar and corresponds to a.

5. The turning and milling composite module of the 5G self-locking tuning element special numerical control lathe is characterized in that a sensor corresponding to the motor is further arranged on the base, and the sensor is used for sensing whether the motor is lifted in place or not so as to further realize whether the motor is started to perform grooving and cutting-off actions or not.

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