CN109834552B - Diamond wire drawing mould processing is with milling device - Google Patents

Abstract

The invention relates to the technical field of wire drawing die processing equipment, in particular to a grinding and milling device for processing a diamond wire drawing die, which comprises a processing table and a device outer box arranged on the processing table, wherein a grinding and milling mechanism is arranged on one side of an inner cavity of the device outer box, a height adjusting assembly is arranged on the other side of the inner cavity of the device outer box through a plurality of liquid pushing and pressing rods, a servo motor is arranged at the upper end of the height adjusting assembly, and a die fixing assembly is arranged at the output end of the servo motor. The invention overcomes the defects of the prior art, and effectively solves the problems that the quality cannot be ensured in the traditional manual milling, the milling cutter head cannot be adjusted, and the wire drawing dies with different specifications cannot be processed according to the requirements of customers.

Description

Diamond wire drawing mould processing is with milling device

Technical Field

The invention relates to the technical field of wire drawing die processing equipment, in particular to a grinding and milling device for processing a diamond wire drawing die.

Background

Drawing dies generally refer to various dies that draw metal wire. The centers of all the wire-drawing dies are provided with holes with certain shapes, such as round, square, octagonal or other special shapes. The metal becomes smaller in size and even changes shape as it is pulled through the die hole. The wire drawing die has wide application, such as high-precision wires used for electronic devices, radars, televisions, instruments, aerospace and the like, and common tungsten wires, molybdenum wires, stainless steel wires, wire cable wires and various alloy wires which are drawn by the diamond wire drawing die.

The diamond wire drawing die adopts natural diamond as a raw material, so that the diamond wire drawing die has strong wear resistance and extremely long service life. When the wire drawing die is used for processing, a tapered groove needs to be milled in the center of the die, then wire drawing holes of different specifications are formed in the bottom of the tapered groove through laser according to the requirements of customers, and the radian and the depth of the tapered hole directly relate to the aperture and the shape of the wire drawing hole in the wire drawing die.

The existing milling device is used for controlling the milling cutter head to mill and mill tapered holes by depending on proficiency of processing personnel mostly when the tapered holes are milled and milled on the wire drawing die, the milling cutter head is controlled to mill and mill by depending on the proficiency of workers, the quality levels of the die are uneven, the proficiency cannot be guaranteed, the milling efficiency is influenced, meanwhile, the traditional milling cutter head cannot be adjusted, the wire drawing die with different specifications cannot be processed according to the requirements of customers, and the processing of the wire drawing die is inconvenient.

Therefore, a grinding and milling device for machining the diamond wire drawing die is provided.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides a grinding and milling device for machining a diamond wire drawing die, which overcomes the defects of the prior art, has reasonable design and compact structure, and effectively solves the problems that the quality cannot be ensured by traditional manual grinding and milling, the grinding and milling cutter head cannot be adjusted, and wire drawing dies with different specifications cannot be machined according to the requirements of customers.

(II) technical scheme

In order to achieve the purpose, the invention is realized by the following technical scheme:

a grinding and milling device for machining a diamond wire drawing die comprises a machining table and a device outer box arranged on the machining table, wherein a grinding and milling mechanism is arranged on one side of an inner cavity of the device outer box, a height adjusting assembly is arranged on the other side of the inner cavity of the device outer box through a plurality of pushing liquid pressure rods, a servo motor is arranged at the upper end of the height adjusting assembly, and a die fixing assembly is arranged at the output end of the servo motor;

the milling mechanism comprises a device mounting box, the device mounting box is fixedly mounted on the inner wall of the device outer box, a hinged plate is hinged to the inner wall of the device mounting box, an electric push rod is arranged at the lower end of the other side of the hinged plate, the electric push rod is respectively connected with the inner bottom wall of the device mounting box and the lower end of the hinged plate through a hinged seat, a milling motor is mounted at the upper end of the hinged plate, a milling cutter head is mounted at the output end of the milling motor, and the other end of the milling cutter head penetrates through a strip-shaped through hole in the side wall of the device mounting box and extends to an outer cavity of the device mounting box;

the height adjusting assembly comprises an adjusting box, the adjusting box is slidably mounted at the upper end of the processing table, two sleeves are symmetrically mounted on the inner bottom wall of the adjusting box, threaded rods are inserted into the inner cavities of the sleeves, the upper ends of the two threaded rods extend out of the inner cavities of the sleeves and are provided with the same lifting plate, a first belt wheel is sleeved on one section of the threaded rod, which is located in the outer cavity of the sleeve, in a threaded manner, the two first belt wheels are connected with a second belt wheel through a transmission belt in a transmission manner, the second belt wheel is mounted at the output end of a servo motor, and the servo motor is fixedly mounted on the inner bottom wall of the;

the upper end of the height adjusting assembly is further provided with a pressure sensing assembly, the pressure sensing assembly comprises a vertical partition plate fixedly mounted at the upper end of the lifting plate, an installation rod is vertically mounted on the upper portion, close to one side of the milling mechanism, of the side wall of the vertical partition plate, an adjusting knob is rotatably mounted at the other end of the installation rod, a threaded rod is inserted into the middle of the adjusting knob, one end of the threaded rod reaches the adjusting hole formed in the installation rod, and a pressure sensor is mounted at the other end of the threaded rod.

Further, the fixed subassembly of mould is including installing the circular mounting disc on the servo motor output, the symmetry is equipped with two fixed plates on the lateral wall that circular mounting disc is close to milling mechanism one side, and the one end of fixed plate is connected with two connecting rods, and the other end of connecting rod runs through the bar through-hole of seting up on the circular mounting disc and is connected with the sliding block, sliding block slidable mounting is on the lateral wall of circular mounting disc, and two equal fixedly connected with slide bars in one side that two sliding blocks are relative, and two slide bars that are located the homonymy reachd the inner chamber of same mounting box and install the electro-magnet, two the equal slidable mounting of electro-magnet is on the inner wall of mounting box, and two electro-magnets pass through supporting spring interconnect, mounting box fixed mounting is on the lateral.

Furthermore, a box door is installed on the side wall of the outer box of the device, and a transparent observation window is arranged on the box door.

Further, install control panel on the device outer container, last display screen and the control button of being equipped with of control panel, and control panel embeds there is the PLC controller, PLC controller and pressure sensor, propulsion hydraulic stem electric connection.

Furthermore, a plurality of supporting legs are installed to the lower extreme of processing platform, and a plurality of supporting legs are the matrix and distribute.

Furthermore, two the fixed plate is the arc structure of symmetry setting, and two all be equipped with the rubber layer on the inner wall of fixed plate.

Furthermore, an infrared positioning lamp is arranged in the middle of the side wall of the circular mounting disc, which is close to one side of the milling mechanism.

(III) advantageous effects

The embodiment of the invention provides a grinding and milling device for machining a diamond wire drawing die. The method has the following beneficial effects:

1. through the integrated configuration of processing platform, device outer container, chamber door, effectual mill mechanism of will grinding arranges the device outer container in, the piece that cuts when preventing to mill splashes the processing personnel, simultaneously, combine to mill the mechanism, impel the hydraulic stem, the integrated configuration of servo motor and the fixed subassembly of mould, realized that machinery is automatic to mill, avoid traditional mill to rely on the processing experience of processing personnel to carry out manually operation's drawback, the effectual precision that improves processing reduces unqualified mould.

2. Through the integrated configuration of device install bin, articulated slab, articulated seat, electric putter, mill motor and mill tool bit, after switching on external power supply, through electric putter's flexible, the inclination of effectual control mill tool bit mills the bell jar of different radians, mills out the bell jar of different radians, and the wire drawing mould of being convenient for carries out laser drilling on next step, simultaneously can effectually match customer's requirement, processes out the wire drawing mould arc wall of different requirements.

3. Through the regulating box, the sleeve, the threaded rod, the lifter plate, first band pulley, driving belt and servo motor's integrated configuration, through servo motor's start-up, and the drive mechanism of first band pulley, driving belt and second band pulley, the effectual lift that drives the lifter plate, realize altitude mixture control, when making fixed mould match milling cutter head and adjusting inclination, milling end descending height of milling cutter head, make milling end of milling cutter head aim at the mid point of wire drawing mould all the time, the bell jar of guaranteeing to mill is located the center of mould all the time, ensure the machining precision.

4. Through the electric connection of pressure sensing subassembly, propulsion hydraulic stem and the built-in PLC controller of control panel, when milling the tool bit and milling the certain degree of depth to the mould, pressure sensor contradicts the device install bin, gives the PLC controller with the signal transmission, and PLC controller control propulsion hydraulic stem reverse shrinkage guarantees the degree of depth of the bell jar of milling, guarantees the accurate degree of mould, improves the mould quality.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic view of the appearance of a knot according to the present invention;

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

FIG. 3 is a schematic view of the structure of the green mold of the present invention;

FIG. 4 is a schematic view of the mold structure after processing in the present invention;

FIG. 5 is a schematic structural diagram of the milling mechanism according to the present invention;

FIG. 6 is a schematic view of the milling head of the present invention;

FIG. 7 is a schematic view of the combination of the height adjustment assembly and the mold securing assembly of the present invention;

FIG. 8 is a right side elevational view of the construction of the mold clamping assembly of the present invention;

FIG. 9 is a left side elevational view of the construction of the mold clamping assembly of the present invention;

fig. 10 is an enlarged view of the structure a in fig. 7.

In the figure: the machining table 1, the device outer box 2, the milling mechanism 3, the device mounting box 31, the hinge plate 32, the hinge seat 33, the electric push rod 34, the milling motor 35, the milling cutter head 36, the box door 4, the propelling hydraulic rod 5, the height adjusting assembly 6, the adjusting box 61, the sleeve 62, the threaded rod 63, the lifting plate 64, the first belt pulley 65, the transmission belt 66, the servo motor 67, the servo motor 7, the die fixing assembly 8, the circular mounting disc 81, the fixing plate 82, the connecting rod 83, the sliding block 84, the sliding rod 85, the mounting box 86, the electromagnet 87, the supporting spring 88, the pressure sensing assembly 9, the mounting rod 91, the adjusting hole 92, the threaded rod 93, the pressure sensor 94, the adjusting knob 95, the vertical partition plate 96, the supporting foot 10 and the control panel 11.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, 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 some, but not all, embodiments of the present invention. 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 the attached drawings 1-10, the grinding and milling device for processing the diamond wire drawing die provided by the embodiment of the invention comprises a processing table 1 and a device outer box 2 mounted on the processing table 1, wherein a grinding and milling mechanism 3 is arranged on one side of an inner cavity of the device outer box 2, a height adjusting assembly 6 is mounted on the other side of the inner cavity of the device outer box 2 through a plurality of pushing hydraulic rods 5, a servo motor 7 is arranged at the upper end of the height adjusting assembly 6, a die fixing assembly 8 is mounted on an output end of the servo motor 7, a die to be processed fixed on the die fixing assembly 8 is pushed to approach the grinding and milling mechanism 3 through the pushing hydraulic rods 5, and a conical groove is milled in the middle of the die to be processed by the grinding and milling mechanism 3, so that subsequent laser drilling operation is facilitated.

In this embodiment, as shown in fig. 5 and 6, the milling mechanism 3 includes a device installation box 31, the device installation box 31 is fixedly installed on the inner wall of the device outer box 2, a hinged plate 32 is hinged on the inner wall of the device installation box 31, and a motor-driven push rod 34 is arranged at the lower end of the other side of the hinged plate 32, the motor-driven push rod 34 is respectively connected with the inner bottom wall of the device installation box 31 and the lower end of the hinged plate 32 through a hinged seat 33, a milling motor 35 is installed at the upper end of the hinged plate 32, a milling cutter head 36 is installed at the output end of the milling motor 35, and the other end of the milling cutter head 36 penetrates through a strip-shaped through hole in the side wall of the device installation box 31 and extends to the outer cavity of the device installation box 31, after an external power supply is connected, the inclination angle of the milling cutter head 36 is effectively controlled through the extension and retraction of the motor-driven, meanwhile, the requirements of customers can be effectively matched, and arc-shaped grooves of the wire drawing die with different requirements can be processed;

in this embodiment, as shown in fig. 7, the height adjusting assembly 6 includes an adjusting box 61, the adjusting box 61 is slidably mounted at the upper end of the processing table 1, two sleeves 62 are symmetrically mounted on the inner bottom wall of the adjusting box 61, a threaded rod 63 is inserted into an inner cavity of each sleeve 62, the upper ends of the two threaded rods 63 extend out of the inner cavity of each sleeve 62 and are mounted with a same lifting plate 64, a first pulley 65 is threadedly sleeved on a section of the threaded rod 63 located in the outer cavity of each sleeve 62, the two first pulleys 65 are in transmission connection with a second pulley through a transmission belt 66, the second pulley is mounted at the output end of a servo motor 67, the servo motor 67 is fixedly mounted on the inner bottom wall of the adjusting box 61, and the lifting plate 64 is effectively driven to lift by the start of the servo motor 67 and the transmission mechanisms of the first pulley 65, the transmission belt 66 and the second pulley, the height adjustment is realized, when the fixed die is matched with the milling cutter head 36 to adjust the inclination angle, the milling end of the milling cutter head 36 descends to a height, so that the milling end of the milling cutter head 36 is always aligned to the middle point of the wire drawing die, the milled conical groove is always positioned at the center of the die, and the machining precision is ensured;

in this embodiment, as shown in fig. 10, a pressure sensing assembly 9 is further disposed at the upper end of the height adjusting assembly 6, the pressure sensing assembly 9 includes a vertical partition plate 96 fixedly mounted at the upper end of the lifting plate 64, a mounting rod 91 is vertically mounted on the upper portion of the side wall of the vertical partition plate 96 close to one side of the milling mechanism 3, an adjusting knob 95 is rotatably mounted at the other end of the mounting rod 91, a threaded rod 93 is inserted into a middle thread of the adjusting knob 95, one end of the threaded rod 93 reaches an adjusting hole 92 formed in the mounting rod 91, and a pressure sensor 94 is mounted at the other end of the threaded rod 93.

In this embodiment, as shown in fig. 7-9, the mold fixing assembly 8 includes a circular mounting plate 81 installed on the output end of the servo motor 7, two fixing plates 82 are symmetrically installed on the side wall of the circular mounting plate 81 near the milling mechanism 3, one end of each fixing plate 82 is connected with two connecting rods 83, the other end of each connecting rod 83 penetrates through a strip-shaped through hole formed in the circular mounting plate 81 and is connected with a sliding block 84, the sliding blocks 84 are slidably installed on the side wall of the circular mounting plate 81, two sliding rods 85 are fixedly connected to the opposite sides of the two sliding blocks 84, the two sliding rods 85 located on the same side reach the inner cavity of the same mounting box 86 and are installed with electromagnets 87, the two electromagnets 87 are slidably installed on the inner wall of the mounting box 86, the two electromagnets 87 are connected with each other through a supporting spring 88, the mounting box 86 is fixedly installed on the side wall of the circular mounting, after the circuit is communicated, four electromagnets 87 which are oppositely arranged are electrified to generate magnetism, the electromagnets are attracted to each other and close to each other, the sliding rods 85 pull the two sliding blocks 84 to close to each other, and the connecting rods 83 slide in the strip-shaped through holes to pull the two fixing plates 82 to close to each other and clamp and fix the wire drawing die to be processed.

In this embodiment, as shown in fig. 1, a box door 4 is installed on a side wall of the outer box 2 of the device, and a transparent observation window is arranged on the box door 4, so that a wire drawing die to be processed can be conveniently placed in the box door, and meanwhile, the progress of milling can be conveniently observed by combining the transparent observation window.

In this embodiment, as shown in fig. 1, install control panel 11 on the device outer container 2, be equipped with display screen and control button on the control panel 11, and control panel 11 embeds there is the PLC controller, PLC controller and pressure sensor 94, propulsion hydraulic stem 5 electric connection, when milling cutter head 36 mills the mould to certain degree of depth, pressure sensor 94 contradicts to device install bin 31, gives the PLC controller with the signal transmission, and PLC controller control propulsion hydraulic stem 5 reverse shrinkage guarantees the degree of depth of the bell jar of milling, guarantees the accurate degree of mould, improves mould quality.

In this embodiment, as shown in fig. 1, a plurality of supporting legs 10 are installed at the lower end of the processing table 1, the supporting legs 10 are distributed in a matrix, and the supporting legs 10 are provided with an effective supporting device to ensure the operation of the milling device.

In this embodiment, as shown in fig. 8, the two fixing plates 83 are arc-shaped structures symmetrically arranged, and the inner walls of the two fixing plates 83 are both provided with rubber layers, so as to effectively match the shape of the wire drawing die and fix the die, and meanwhile, the rubber layers are arranged to protect the die and cooperate with the fixing plates 83 to enhance the fixing effect.

In this embodiment, as shown in fig. 8, an infrared positioning lamp 89 is installed in the middle of the side wall of the circular mounting plate 81 near the milling mechanism 3, and the infrared positioning lamp 89 is aligned to the middle point of the milling end of the milling cutter head 36 for positioning, so as to guide and adjust the wire drawing die to be processed to be aligned to the milling cutter head 36 all the time, thereby ensuring the processing accuracy.

According to the grinding and milling device for machining the diamond wire drawing die, the grinding and milling mechanism is effectively arranged in the device outer box 2 through the combined structure of the machining table 1, the device outer box 2 and the box door 4, chips cut during grinding and milling are prevented from being splashed to machining personnel, meanwhile, the combined structure of the grinding and milling mechanism 3, the propelling hydraulic rod 5, the servo motor 7 and the die fixing component 8 is combined, mechanical automatic grinding and milling are achieved, the defect that manual operation is carried out by the traditional grinding and milling depending on the machining experience of the machining personnel is avoided, machining precision is effectively improved, unqualified dies are reduced, and machining quality of the wire drawing die is improved.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

The above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims (7)

1. The utility model provides a diamond wire drawing mould processing is with milling device, includes the device outer container of processing platform and the installation of processing bench, its characterized in that: a grinding and milling mechanism is arranged on one side of an inner cavity of the device outer box, a height adjusting assembly is mounted on the other side of the inner cavity of the device outer box through a plurality of pushing hydraulic rods, a servo motor is arranged at the upper end of the height adjusting assembly, and a die fixing assembly is mounted on the output end of the servo motor;

the milling mechanism comprises a device mounting box, the device mounting box is fixedly mounted on the inner wall of the device outer box, a hinged plate is hinged to the inner wall of the device mounting box, an electric push rod is arranged at the lower end of the other side of the hinged plate, the electric push rod is respectively connected with the inner bottom wall of the device mounting box and the lower end of the hinged plate through a hinged seat, a milling motor is mounted at the upper end of the hinged plate, a milling cutter head is mounted at the output end of the milling motor, and the other end of the milling cutter head penetrates through a strip-shaped through hole in the side wall of the device mounting box and extends to an outer cavity of the device mounting box;

the height adjusting assembly comprises an adjusting box, the adjusting box is slidably mounted at the upper end of the processing table, two sleeves are symmetrically mounted on the inner bottom wall of the adjusting box, threaded rods are inserted into the inner cavities of the sleeves, the upper ends of the two threaded rods extend out of the inner cavities of the sleeves and are provided with the same lifting plate, a first belt wheel is sleeved on one section of the threaded rod, which is located in the outer cavity of the sleeve, in a threaded manner, the two first belt wheels are connected with a second belt wheel through a transmission belt in a transmission manner, the second belt wheel is mounted at the output end of a servo motor, and the servo motor is fixedly mounted on the inner bottom wall of the;

the upper end of the height adjusting assembly is further provided with a pressure sensing assembly, the pressure sensing assembly comprises a vertical partition plate fixedly mounted at the upper end of the lifting plate, an installation rod is vertically mounted on the upper portion, close to one side of the milling mechanism, of the side wall of the vertical partition plate, an adjusting knob is rotatably mounted at the other end of the installation rod, a threaded rod is inserted into the middle of the adjusting knob, one end of the threaded rod reaches the adjusting hole formed in the installation rod, and a pressure sensor is mounted at the other end of the threaded rod.

2. The milling device for processing the diamond wire drawing die as set forth in claim 1, wherein: the fixed subassembly of mould is including installing the circular mounting disc on the servo motor output, the symmetry is equipped with two fixed plates on the lateral wall that circular mounting disc is close to milling mechanism one side, and the one end of fixed plate is connected with two connecting rods, and the other end of connecting rod runs through the bar through-hole of seting up on the circular mounting disc and is connected with the sliding block, sliding block slidable mounting is on the lateral wall of circular mounting disc, and two equal fixedly connected with slide bars in one side that two sliding blocks are relative, and two slide bars that are located the homonymy reachd the inner chamber of same mounting box and install the electro-magnet, two the equal slidable mounting of electro-magnet is on the inner wall of mounting box, and two electro-magnets pass through supporting spring interconnect, mounting box fixed mounting is on.

3. The milling device for processing the diamond wire drawing die as set forth in claim 1, wherein: a box door is installed on the side wall of the outer box of the device, and a transparent observation window is arranged on the box door.

4. The milling device for processing the diamond wire drawing die as set forth in claim 1, wherein: install control panel on the device outer container, last display screen and the control button of being equipped with of control panel, and control panel embeds there is the PLC controller, PLC controller and pressure sensor, propulsion hydraulic stem electric connection.

5. The milling device for processing the diamond wire drawing die as set forth in claim 1, wherein: a plurality of supporting legs are installed to the lower extreme of processing platform, and a plurality of supporting legs are the matrix and distribute.

6. The milling device for processing the diamond wire drawing die as set forth in claim 2, wherein: two the fixed plate is the arc structure of symmetry setting, and two all be equipped with the rubber layer on the inner wall of fixed plate.

7. The milling device for processing the diamond wire drawing die as set forth in claim 2, wherein: and the middle part of the side wall of the circular mounting disc, which is close to one side of the milling mechanism, is provided with an infrared positioning lamp.

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