CN220145212U - Full-automatic die carrier production facility - Google Patents

Abstract

The utility model discloses full-automatic die carrier production equipment, which comprises a machine tool base, a hydraulic vice, a drilling and tapping device, a counter and a control system, wherein the hydraulic vice is arranged at the upper middle part of the machine tool base; the utility model mainly clamps the workpiece on the hydraulic vice, and the control system controls the drilling and tapping device to simultaneously process the two sides of the workpiece, so that the reverse side of the workpiece is not required to be manually operated, on one hand, the hidden danger of the work injury of the worker can be effectively reduced, on the other hand, the working efficiency can be effectively increased.

Description

Full-automatic die carrier production facility

Technical Field

The utility model relates to the technical field of full-automatic die carrier production equipment, in particular to full-automatic die carrier production equipment.

Background

In industry, a die carrier is a traditional industry, when the die carrier is produced, a traditional radial drilling machine is used for machining a hanging ring hole by manpower, a traditional milling machine is used for machining square iron and a stacking pit, when the hanging ring hole is machined, a worker generally places a workpiece on the traditional radial drilling machine for machining, after one face of the workpiece is machined, the worker needs to manually reverse the die carrier to machine the other face, and as a plurality of die carriers are arranged in one die carrier, the weight of some die carriers reaches more than hundreds of kilograms, the die carriers are easy to scratch hands carelessly or fall to smash the die carriers when the die carriers fall to the back face; when square iron is processed, drilling and tapping are needed, the drilling holes on the square iron are large and small, conventionally, workers mark the square iron and punch points, and then drilling equipment and tapping equipment are adopted for processing, so that the working procedure is complicated; when the code pit is machined, a workpiece is required to be locked on a vice and then machined by using a traditional milling machine, so that the machining process is complicated, the working efficiency is low, the potential risk of industrial injury is high, the traditional large-scale machining equipment is generally unprotected, redundant cutting fluid of the equipment and scrap iron for machining easily fly out of the equipment, and the bottom surface of a working environment of a worker is wet and slippery, so that accidents are easy to occur.

Disclosure of Invention

The utility model aims to provide full-automatic die carrier production equipment, which aims to solve the technical problems, adopts a double-cutter main shaft and double-cutter-magazine design, fully automatically positions and processes the die plates, simultaneously processes two sides of the die plates, does not need manual reverse surfaces of workers, can effectively reduce the potential safety hazards of workers in work injury, can effectively increase the working efficiency, and improves the processing precision of the die plates.

In order to achieve the above purpose, the present utility model is realized by the following technical scheme:

the utility model provides a full-automatic die carrier production facility, includes lathe base, hydraulic vice, bores and attacks the device, bumps a counter and control system, hydraulic vice sets up at the upper middle part of lathe base, it sets up in hydraulic vice's left and right sides to bore and attack the device to install on the lathe base, bump a counter and set up on boring and attack the device, its response is right to hydraulic vice direction, control system overall control each mechanism cooperates jointly.

Further, a vice mounting position is arranged in the middle of the machine tool base, drilling and tapping device mounting positions are arranged on two sides of the vice mounting position, a chip removing groove is formed in one side, close to the vice mounting position, of the drilling and tapping device mounting position, and a chip removing mechanism is arranged in the chip removing groove;

The chip removing mechanism comprises a chip removing motor and a chip removing screw rod, wherein the chip removing motor is arranged on the outer side of one end of the chip removing groove and fixedly connected with the machine tool base, the output end of the chip removing motor penetrates through the machine tool base to be connected with one end of the chip removing screw rod, and the other end of the chip removing screw rod extends to the other opening end of the chip removing groove.

Further, the hydraulic vice comprises a vice workbench, a sliding groove is formed in the bottom surface of the vice workbench, a track searching plate is arranged on the upper end surface of the vice workbench, a vice sliding seat is sleeved on the track searching plate in a sliding mode, a vice connecting piece is arranged in the middle of the vice sliding seat, a first jaw clamping plate and an oil scraping plate are arranged at one end of the vice sliding seat, the first jaw clamping plate is fixed on the vice sliding seat, the oil scraping plate is arranged below the first jaw clamping plate and sleeved on the track searching plate, and a sliding seat bottom plate is further arranged at the bottom of the vice sliding seat;

one end of the vice workbench is provided with a limiting stop seat arranged in a protruding manner, one side of the limiting stop seat opposite to the vice sliding seat is provided with a second jaw clamping plate, the second jaw clamping plate is arranged corresponding to the first jaw clamping plate, and a jaw is formed between the first jaw clamping plate and the second jaw clamping plate;

the end part of the track seeking plate, which is far away from the limiting stop seat, is provided with a hydraulic cylinder fixing seat, a hydraulic cylinder is fixed on the hydraulic cylinder fixing seat, the output end of the hydraulic cylinder is connected with one end part of the secondary push rod, and the other end of the secondary push rod is connected with a vice connecting piece and can drive a vice sliding seat to move on the track seeking plate.

Further, two ends of the secondary push rod are provided with two positioning block clamping grooves, a vice connecting piece installation position is formed between the two positioning block clamping grooves, the vice connecting piece is installed on the vice connecting piece installation position, positioning blocks are detachably clamped on the positioning block clamping grooves, and the two positioning blocks are located at the inner side and the outer side of the installation hole of the vice connecting piece.

Further, a vice moving mechanism is arranged between the hydraulic vice and the machine tool base, the vice moving mechanism comprises a vice moving slide rail, a vice driving motor and a vice driving screw, the vice moving slide rail is fixed on the machine tool base, a slide groove of a vice working table is clamped on the vice moving slide rail and can slide on the vice moving slide rail, the vice driving motor is fixed on a motor fixing seat, the motor fixing seat is fixedly connected with the machine tool base, the output end of the vice driving motor is connected with one end of the vice driving screw, and the other end of the vice driving screw is fixed on the bottom surface of the vice working table and can drive the vice working table to slide on the vice moving slide rail.

Further, the drilling and tapping device comprises a vertical seat, a tool magazine mechanism, a drilling and tapping propelling mechanism and a drilling and tapping lifting mechanism;

The tool magazine mechanism is arranged at the upper part of the front side of the vertical seat and comprises a tool magazine turntable and a tool magazine driving motor, the tool magazine driving motor is fixed on a tool magazine motor support frame, the output end of the tool magazine driving motor is connected with the tool magazine turntable and can drive the tool magazine turntable to rotate, and the tool magazine motor support frame is fixed at the upper part of the vertical seat;

the drilling and tapping mechanism is arranged in the middle of the vertical seat and comprises a cutter main shaft, a main shaft rotating motor and a cutter beating cylinder, wherein the cutter main shaft is arranged in a main shaft mounting seat, one end of the cutter main shaft is provided with a main shaft head, the other end of the cutter main shaft is connected with one end of a main shaft driving wheel, the other end of the main shaft driving wheel is connected with the output end of the cutter beating cylinder through a rotary joint, the main shaft rotating motor is arranged on the cutter main shaft and is fixed on a motor fixing seat, the output end of the main shaft rotating motor is connected with a motor driving wheel, the motor driving wheel realizes synchronous transmission with the main shaft driving wheel through a driving belt, the motor fixing seat is fixed on the vertical seat, and the cutter beating cylinder is fixed at the tail end of the main shaft mounting seat and the output end of the cutter beating cylinder is connected with the rotary joint.

Further, the drilling and tapping propulsion mechanism is arranged below the drilling and tapping mechanism and is arranged in the middle of the vertical seat, and comprises a ram type base, a feeding motor and a feeding screw rod, wherein the main shaft mounting seat is slidably arranged on the ram type base, the bottom of the main shaft mounting seat is clamped with a feeding nut on the feeding screw rod, one end of the feeding screw rod is rotatably arranged on the screw rod seat, the other end of the feeding screw rod is connected with the output end of the feeding motor, the feeding motor is fixed on a feeding motor fixing seat, and the feeding motor fixing seat is fixedly connected with the ram type base;

The drill attack elevating system is including front end lifter plate, rear end lifter plate, elevator motor and lifting screw, front end lifter plate slidable mounting is in the seat front side, but rear end lifter plate slidable mounting is in the seat rear side, front end lifter plate and rear end lifter plate correspond the setting from front to back, main shaft mount pad and ram formula base wear to establish between front end lifter plate and rear end lifter plate, elevator motor passes through the elevator motor mount pad to be fixed at the seat up end, and its output sets up downwards and is connected with lifting screw's one end, elevator nut and ram formula base joint on the lifting screw to can drive drill attack mechanism and drill attack propulsion mechanism and do the reciprocates.

Further, the tool magazine carousel is including dustcoat and carousel, the back of dustcoat is fixed on tool magazine motor support frame, the carousel is installed inside the dustcoat, and the back of carousel is connected with tool magazine driving motor's output through the rotation joint, be equipped with a plurality of clamping tool rest on the carousel periphery, be equipped with the dress edge on the dustcoat, the dress edge is located the main shaft head in the place ahead.

Further, the front end of the main shaft mounting seat is also provided with a counter, the counter is positioned under the main shaft head, the counter comprises a counter sleeve seat, a guide rod, a telescopic cylinder, a distance sensor and a in-place sensor, the counter sleeve seat is fixed at the front end of the main shaft mounting seat, the guide rod is inserted into the middle part in the counter sleeve seat through a linear bearing, the front end of the guide rod penetrates through the counter sleeve seat, the rear end of the guide rod is connected with the telescopic rod of the telescopic cylinder, the distance sensor and the in-place sensor are both magnetic sensors, the telescopic cylinder is a cylinder with a magnetic ring, and the distance sensor and the in-place sensor are also provided with sensing lamps.

Further, still including hydraulic pressure station, electronic box, system control case, lathe dustcoat and filtration water tank, the lathe dustcoat sets up on the lathe base to be equipped with the emergency exit, hydraulic pressure station, electronic box and system control case all set up in the lathe dustcoat outside, filtration water tank sets up in lathe base one side.

The full-automatic die carrier production equipment has the following beneficial effects:

1. according to the full-automatic die carrier production equipment, the drilling devices are arranged on the two sides of the hydraulic vice, namely, the double-cutter main shaft and the double-cutter-base design are adopted, the two sides of the die plate can be processed simultaneously, the processing time of a single die plate is shortened, and the working efficiency can be effectively improved;

2. the full-automatic die carrier production equipment is provided with the control system, and after the workpiece is clamped on the hydraulic vice, the workpiece is fully automatically processed in the whole process by inputting the processing data, and the manual reverse surface is not needed, so that the potential safety hazard of the worker in work injury can be reduced, and the degree of automation is high;

3. the full-automatic die carrier production equipment is provided with the counter, the counter is adopted to automatically determine the zero point, the whole-process mechanical automatic processing is not needed, and manual scribing processing is not needed, so that the uncertainty error of processing relative to workers is small, the precision of processed workpieces is higher, and the rejection rate is lower;

4. The full-automatic die carrier production equipment is provided with the machine tool outer cover and the chip removing mechanism, the machine tool outer cover can prevent liquid from flying out, and the chip removing mechanism can timely remove processed scrap iron, other liquid wastes and the like, so that the processed scrap iron and other liquid wastes are prevented from influencing the working environment.

Drawings

FIG. 1 is a schematic diagram of the whole structure of a full-automatic die carrier production device;

FIG. 2 is another view of the overall structure of the fully automatic mold frame production apparatus of the present utility model;

FIG. 3 is a schematic diagram of the internal structure of the full-automatic mold frame production equipment of the utility model;

FIG. 4 is a schematic view of a machine tool base and vice moving mechanism of the fully automatic die carrier production apparatus of the present utility model;

FIG. 5 is a schematic view of the hydraulic vise structure of the fully automatic die carrier production apparatus of the present utility model;

FIG. 6 is a schematic diagram of a hydraulic vice secondary clamping of the full-automatic die carrier production equipment of the utility model;

fig. 7 is a schematic diagram of a first machining coordinate reference position clamping of a hydraulic vice of the full-automatic die carrier production device;

fig. 8 is a second machining coordinate reference position clamping schematic diagram of the hydraulic vice of the full-automatic die carrier production device;

fig. 9 is a schematic structural view of a drilling and tapping device of the full-automatic die carrier production equipment of the utility model;

FIG. 10 is a schematic view of a drilling and tapping mechanism, a drilling and tapping propulsion mechanism and a drilling and tapping lifting mechanism of the full-automatic die carrier production equipment of the utility model;

FIG. 11 is a schematic diagram of a drilling and tapping mechanism of the full-automatic die carrier production equipment of the utility model;

fig. 12 is a schematic view of a drilling and tapping propulsion mechanism of the full-automatic die carrier production equipment of the utility model;

FIG. 13 is a schematic view of a magazine turntable of the fully automatic die carrier production apparatus of the present utility model;

fig. 14 is a schematic view of a counter of the full-automatic die carrier production device of the utility model.

Description of the embodiments

In order to make the technical solution of the present utility model better understood by those skilled in the art, the following further details of the present utility model will be described with reference to examples and drawings.

It will be understood that when an element is referred to as being "fixed to" another element, it can be directly on the other element or intervening elements may also be present; when an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like are used herein for illustrative purposes only and are not meant to be the only embodiment.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this utility model belongs. The terminology used herein in the description of the utility model is for the purpose of describing particular embodiments only and is not intended to be limiting of the utility model. The term "and/or" as used herein includes any and all combinations of one or more of the associated listed items.

As shown in fig. 1, 2 and 3, a full-automatic die carrier production device comprises a machine tool base 1, a hydraulic vice 2, a drilling and tapping device, a counter 3 and a control system, wherein the hydraulic vice 2 is arranged at the upper middle part of the machine tool base 1, the drilling and tapping device is arranged at the left side and the right side of the hydraulic vice 2 and is arranged on the machine tool base 1, the counter 3 is arranged on the drilling and tapping device, the induction end of the counter is aligned to the direction of the hydraulic vice 2, and the control system integrally controls all mechanisms to cooperate; the membrane frame production equipment further comprises a hydraulic station 10, an electric box 11, a system control box 12, a machine tool outer cover 13 and a filtering water tank 14, wherein the machine tool outer cover 13 is arranged on the machine tool base 1 and is provided with a safety door, the hydraulic station 10, the electric box 11 and the system control box 12 are all arranged on the outer side of the machine tool outer cover 13, and the filtering water tank 14 is arranged on one side of the machine tool base 1.

It should be noted that: according to the utility model, the drilling and tapping devices are arranged on both sides of the hydraulic vice 2, so that the double-sided simultaneous processing design is formed, the working efficiency is improved on one hand, and the manual reverse surface is not needed on the other hand, so that the potential safety hazard of work injury of workers in the working process can be effectively reduced; the utility model is provided with the control system which is electrically connected with all mechanism parts, can control all mechanism devices to coordinate operation together according to the instruction, does not need manual midway intervention, can control operation by the control system in the whole course, and avoids the uncertain factors existing in manual operation; the hydraulic station 10 is connected with the hydraulic cylinder 211 and provides power for the hydraulic cylinder 211; the electric box 11 is arranged to be electrically connected with all the parts needing electricity to provide power for all the parts; the control system is provided with various control keys such as a switch key, a start key and the like, and is also provided with a parameter input control screen; the machine tool housing 13 surrounds the machine tool base 1 and is used for preventing some liquid and generated waste used in the operation of the utility model from splashing out and avoiding the influence of the liquid and the waste on the operation environment; the filter water tank 14 enables the cutting fluid and the like of the present utility model to be recycled through a circulating water pipe.

As shown in fig. 4, a vice mounting position 102 is arranged in the middle of the machine tool base 1, drilling and tapping device mounting positions 103 are arranged on two sides of the vice mounting position 102, a chip removing groove 104 is formed in one side, close to the vice mounting position 102, of the drilling and tapping device mounting position 103, and a chip removing mechanism is arranged in the chip removing groove 104; the chip removing mechanism comprises a chip removing motor 105 and a chip removing screw 106, wherein the chip removing motor 105 is arranged on the outer side of one end of the chip removing groove 104 and is fixedly connected with the machine tool base 1, the output end of the chip removing motor passes through the machine tool base 1 and is connected with one end of the chip removing screw 106, and the other end of the chip removing screw 106 extends to the other opening end of the chip removing groove 104.

It should be noted that: a waste removing area is further arranged between the chip groove 104 and the vice mounting position 102, the waste removing area is obliquely downwards arranged in the direction of the chip groove 104 by the vice mounting position 102, and the waste removing area is obliquely arranged, so that on one hand, after the hydraulic vice 2 is mounted on the vice mounting position 102, when the hydraulic vice 2 clamps a workpiece, the workpiece can be positioned at a higher position, a drilling and tapping device is convenient for machining the workpiece on the hydraulic vice 2, moreover, scrap iron, cutting oil, cooling liquid and the like generated in the machining process of the drilling and tapping device are convenient for flowing into the chip groove 104 from the waste removing area, on the other hand, a sufficient safety space is reserved between the drilling and tapping device and the hydraulic vice 2 by the arrangement of the waste removing area, and the workpiece is convenient to clamp and take out on the hydraulic vice 2; the open end of the junk slot 104 can be connected with a waste discharge pipeline or a waste collection box, so that waste is conveniently discharged through a waste discharge mechanism; the side of the drilling and tapping device installation position 103 is also provided with a hydraulic station 10 installation position or an electric box 11 installation position, so that the hydraulic station 10 and the electric box 11 can be conveniently installed.

As shown in fig. 5 and 6, the hydraulic vice 2 includes a vice table 201, a sliding groove is provided on a bottom surface of the vice table 201, a track searching plate 202 is provided on an upper end surface of the vice table, a vice sliding seat 203 is slidably sleeved on the track searching plate 202, a vice connecting piece 204 is provided in an upper middle portion of the vice sliding seat 203, a first jaw clamping plate 205 and an oil scraping plate 206 are provided at one end of the vice sliding seat 203, the first jaw clamping plate 205 is fixed on the vice sliding seat 203, the oil scraping plate 206 is provided below the first jaw clamping plate 205 and is sleeved on the track searching plate 202, and a sliding seat bottom plate 207 is further provided at a bottom portion of the vice sliding seat 203; a limiting stop seat 208 arranged in a protruding manner is arranged at one end of the vice workbench 201, a second jaw clamping plate 209 is arranged at one side of the limiting stop seat 208 opposite to the vice sliding seat 203, the second jaw clamping plate 209 is arranged corresponding to the first jaw clamping plate 205, and a jaw is formed between the first jaw clamping plate 205 and the second jaw clamping plate 209; the end of the track seeking plate 202 far away from the limit stop seat 208 is provided with a hydraulic cylinder fixing seat 210, a hydraulic cylinder 211 is fixed on the hydraulic cylinder fixing seat 210, the output end of the hydraulic cylinder 211 is connected with one end of a secondary push rod 212, and the other end of the secondary push rod 212 is connected with a vice connecting piece 204 and can drive a vice sliding seat 203 to move on the track seeking plate 202.

It should be noted that: the bottom surface of the vice workbench 201 is provided with two symmetrically arranged sliding grooves, two groups of maintenance hole sites are arranged on the sliding grooves, a detachable and sealed oil-proof cover is arranged on each maintenance hole site through a sealing ring, two symmetrically arranged track searching plate 202 mounting pieces are arranged on the vice workbench 201, the track searching plates 202 are mounted on the upper end surfaces of the track searching plate 202 mounting pieces, the track searching plates 202 are made of high-hardness wear-resistant steel plates and are rectangular, one end of each track searching plate 202, corresponding to the mounting of a hydraulic cylinder 211, is provided with a hydraulic cylinder fixing seat 210 avoiding groove, and the plane end of each track searching plate 202 is propped against the inner side edge of the limiting baffle seat 208 during mounting, so that the positioning and mounting of the hydraulic cylinder fixing seat 210 are facilitated; the middle part of the upper end surface of the vice slide 203 is provided with a vice connecting piece mounting position, the lower end surface is provided with a track searching plate chute, the middle part of the track searching plate chute is also provided with a scraping plate mounting groove, the corner of the inner side of the track searching plate chute is also provided with a corner avoiding groove, during mounting, the vice slide 203 is clamped on the track searching plate 202 through the track searching plate chute, the inner bottom surface of the track searching plate chute is provided with a friction plate, the scraping plate 206 is arranged in the scraping plate mounting groove, when the vice slide 203 moves, the scraping plate 206 can remove cutting oil, scrap iron and the like on the upper end surface of the track searching plate 202, and the track searching plate 202 and the vice slide 203 are prevented from being scratched by scrap iron and the like; the bottom of the oil scraping plate 206 and the bottom of the vice slide 203 are provided with a slide base plate 207, and the slide base plate 207 is positioned below the side edge of the track searching plate 202, so that the slide base plate 207 not only can play a role in fixedly mounting the oil scraping plate 206, but also can effectively ensure the sliding stability of the vice slide 203 on the track searching plate 202 and avoid the deviation of the vice slide 203; the vice connecting piece 204 is provided with a second-stage push rod 212 mounting hole, the hydraulic cylinder fixing seat 210 is provided with a hydraulic rod clamping groove, the center line of the second-stage push rod 212 mounting hole and the center line of the hydraulic rod clamping groove are positioned on the same horizontal line, so that the straightness between the hydraulic rod of the hydraulic cylinder 211, the second-stage push rod 212 and the slide connecting piece can be effectively ensured, according to the common general knowledge of the industry, if the straightness between the hydraulic rod of the hydraulic cylinder 211 and the second-stage push rod 212 cannot meet the allowable deviation range, the thrust of the hydraulic cylinder 211 can be caused to deviate, the hydraulic cylinder 211 can be easily worn when the deviation is not large, and the hydraulic rod cannot push the second-stage push rod 212 when the deviation is too large, therefore, the design of the utility model can effectively ensure the straightness between the hydraulic rod, the second-stage push rod 212 and the slide connecting piece, and further ensure that the hydraulic cylinder 211 can smoothly push the vice slide 203. The first jaw clamping plate 205 and the second jaw clamping plate 209 are both in an L-shaped design, and the first jaw clamping plate 205 and the second jaw clamping plate 209 are symmetrically arranged, so that a first processing coordinate reference position (as shown in fig. 7) is formed between a transverse step of the first jaw clamping plate 205 and a transverse step of the second jaw clamping plate 209, thereby facilitating transverse placement of a workpiece and ensuring the balance degree of transverse placement and processing of the workpiece; the transverse end face of the first jaw clamping plate 205 and the front end face of the vice sliding seat 203 are on the same horizontal plane, the transverse end face of the second jaw clamping plate 209 and the inner side face of the limiting stop seat 208 are on the same horizontal plane, a second machining coordinate reference position (shown in fig. 8) is formed between the transverse end face of the first jaw clamping plate 205 and the transverse end face of the second jaw clamping plate 209, so that workpieces are convenient to vertically place, the flatness of the workpiece machining upper end face when the workpieces are vertically placed is ensured, and the drilling and tapping device can be used for better and more accurate positioning machining, and further machining precision can be increased.

As shown in fig. 5 and fig. 6, two positioning block clamping grooves are formed at two ends of the secondary push rod 212, a vice connecting piece installation position is formed between the two positioning block clamping grooves, the vice connecting piece 204 is installed on the vice connecting piece installation position, positioning blocks 212 are detachably clamped on the positioning block clamping grooves, and the two positioning blocks 212 are located at two sides inside and outside the installation hole of the vice connecting piece 204.

It should be noted that: when the hydraulic vice 2 is required to clamp workpieces with common sizes, the slide seat connecting piece can be installed at the vice connecting piece installation position at one end of the secondary push rod 212 far away from the hydraulic rod according to the standard die carrier, and then the positioning blocks 212 are clamped in the positioning block clamping grooves at the front side and the rear side of the vice connecting piece installation position, so that the movement of the slide seat connecting piece on the secondary push rod 212 can be limited, and the clamping requirement of workpiece processing with the size within the range of 150-500mm can be met under the premise of not increasing the stroke of the hydraulic cylinder 211; when a workpiece with the clamping size of more than 500mm is required to be clamped, the vice connecting piece 204 can be arranged on the vice connecting piece installation position of the end, close to the hydraulic rod, of the secondary push rod 212, so that the jaw size can be increased, and further the clamping of a large-size workpiece can be met; the traditional vice is generally connected with the slide seat directly by adopting the hydraulic rod of the hydraulic cylinder 211, so that the vice can only meet the requirement of clamping workpieces in the stroke of the hydraulic cylinder 211, in the working process of the hydraulic cylinder 211, the hydraulic rod is pushed and pulled too long, the oil seal in the cylinder body is worn, and the bending deformation rate of the hydraulic rod is increased, so that when a workpiece with a larger size needs to be machined, a new vice is usually required to be replaced for clamping the workpiece, but because the workpiece with a larger size needs less, but does have a requirement, at least two types of vices need to be purchased for a production enterprise, on one hand, the equipment cost is increased, and on the other hand, the vice needs to be replaced by a little labor; the two-stage push rod 212 is adopted for connection, so that the clamping of workpieces with conventional sizes and clamping of workpieces with large sizes can be met, the cost of a vice can be saved for enterprises, the vice is not required to be manually replaced, and only the installation position of the sliding seat connecting piece is required to be adjusted, so that the hydraulic vice 2 is convenient and practical.

As shown in fig. 4, a vice moving mechanism 4 is disposed between the hydraulic vice 2 and the machine tool base 1, the vice moving mechanism 4 includes a vice moving slide rail 401, a vice driving motor 402 and a vice driving screw 403, the vice moving slide rail 401 is fixed on the machine tool base 1, a chute of the vice working table 201 is clamped on the vice moving slide rail 401 and can slide on the vice moving slide rail 401, the vice driving motor 402 is fixed on a motor fixing seat, the motor fixing seat is fixedly connected with the machine tool base 1, an output end of the vice driving motor 402 is connected with one end of the vice driving screw 403, and the other end of the vice driving screw 403 is fixed on the bottom surface of the vice working table 201 and can drive the vice working table 201 to slide on the vice moving slide rail 401.

It should be noted that: the bottom of the vice workbench 201 is provided with a screw clamping piece, when the hydraulic vice is installed, a sliding groove on the bottom surface of the vice workbench 201 is slidably clamped on the vice moving sliding rail 401, a nut sleeve piece on the vice driving screw 403 is clamped on the screw clamping piece on the bottom surface of the vice workbench 201, when the hydraulic vice 2 needs to move integrally, the vice driving motor 402 drives the vice driving screw 403 to rotate, and then the hydraulic vice 2 is driven to move integrally through the nut sleeve piece.

As shown in fig. 9, the drilling and tapping device comprises a vertical seat 5, a tool magazine mechanism 6, a drilling and tapping mechanism 7, a drilling and tapping propelling mechanism 8 and a drilling and tapping lifting mechanism 9; the tool magazine mechanism 6 is arranged at the upper part of the front side of the vertical seat 5 and comprises a tool magazine turntable 601 and a tool magazine driving motor 602, the tool magazine driving motor 602 is fixed on a tool magazine motor support frame, the output end of the tool magazine driving motor 602 is connected with the tool magazine turntable 601 and can drive the tool magazine turntable 601 to rotate, and the tool magazine motor support frame is fixed at the upper part of the vertical seat 5; as shown in fig. 9 and 10, the tapping mechanism 7 is disposed in the middle of the stand 5, and includes a tool spindle 701, a spindle rotating motor 702 and a cutter striking cylinder 703, where the tool spindle 701 is mounted in a spindle mounting seat 704, one end of the tool spindle 701 is provided with a spindle head, the other end of the tool spindle is connected with one end of a spindle driving wheel 705, the other end of the spindle driving wheel 705 is connected with an output end of the cutter striking cylinder 703 through a rotary joint 706, the spindle rotating motor 702 is disposed on the tool spindle 701 and is fixed on a motor fixing seat, the output end of the spindle rotating motor 702 is connected with a motor driving wheel 707, the motor driving wheel 707 realizes synchronous transmission with the spindle driving wheel 705 through a driving belt, the motor fixing seat is fixed on the stand 5, and the cutter striking cylinder 703 is fixed at the end of the spindle mounting seat 704, and the output end of the spindle driving wheel is connected with the rotary joint 706; as shown in fig. 10, 11 and 12, the drilling and tapping propulsion mechanism 8 is disposed below the drilling and tapping mechanism 7 and is mounted in the middle of the vertical seat 5, and includes a ram base 801, a feed motor 802 and a feed screw 803, a slide rail and a nut clamping member are disposed at the bottom of the spindle mounting seat 704, a slide groove is disposed on the upper end surface of the ram base 801, the spindle mounting seat 704 is slidably mounted in the slide groove on the upper end surface of the ram base 801 through the slide rail and is connected with a feed nut on the feed screw 803 through the nut clamping member, one end of the feed screw 803 is rotatably mounted on the screw seat, the other end of the feed screw is connected with the output end of the feed motor 802, the screw seat is fixedly connected with the ram base 801, the feed motor 802 is fixed on a feed motor fixing seat, and the feed motor fixing seat is fixedly connected with the ram base 801; as shown in fig. 9, the drill lifting mechanism 9 includes a front lifting plate 901, a rear lifting plate 902, a lifting motor 903 and a lifting screw 904, where the front lifting plate 901 is slidably mounted on the front side of the upright seat 5, the rear lifting plate 902 is slidably mounted on the rear side of the upright seat 5, the front lifting plate 901 and the rear lifting plate 902 are correspondingly disposed front and back, the front lifting plate 901 and the rear lifting plate 902 are respectively provided with a mounting middle hole, the spindle mounting seat 704 and the ram base 801 are arranged between the front lifting plate 901 and the rear lifting plate 902 in a penetrating manner, the bottom of the ram base 801 is fixedly connected with the front lifting plate 901 and the rear lifting plate 902, the lifting motor 903 is fixed on the upper end surface of the upright seat 5 through the lifting motor mounting seat, the output end of the lifting motor 903 is downward and connected with one end of the lifting screw 904, the side of the ram base 801 is provided with a nut clamping piece, and the lifting nut on the lifting screw 904 is clamped on the nut clamping piece of the ram base 801, and the ram base 801 can drive the drill lifting mechanism 7 and the drill lifting mechanism 8 to move.

It should be noted that: after a worker inputs processing requirement data into the system and starts an automatic processing program, the control system controls the tool magazine driving motor 602 to drive the tool magazine turntable 601 to rotate according to the input information, so that a tool required by processing rotates to the lowest position, after the tool rotates in place, the drilling lifting mechanism 9 and the drilling pushing mechanism 8 assist the tool, the drilling lifting mechanism 7 moves to the position right behind the required tool together, meanwhile, the spindle head of the tool spindle 701 is positioned right behind the required tool, at the moment, the center line of the tool to be mounted and the center line of the tool clamping hole at the axial end part of the spindle head are positioned on the same horizontal line, and therefore, the tool can be accurately mounted in the tool clamping hole of the spindle head. When the spindle head moves to the right rear of the cutter, the cutter beating cylinder 703 pushes the cutter spindle 701 forward, compresses the disc spring on the cutter spindle 701, enables the spindle head of the cutter spindle 701 to be in an open state, enables the clamping part of the machining cutter to be inserted into the spindle head, is reset by the cutter beating cylinder 703, the cutter spindle 701 tightens the spindle head under the spring force of the disc spring, clamps the clamping part of the machining cutter, further enables the cutter to be clamped in the spindle head of the cutter spindle 701, after clamping is completed, the drilling and tapping lifting mechanism 9 and the drilling and tapping pushing mechanism 8 assist in driving the drilling and tapping mechanism 7 to move forward to a workpiece at the same time, and drives the cutter spindle 701 and the cutter to rotate through the synchronous wheel and the driving belt by the spindle rotating motor 702, and processes the workpiece according to input data.

As shown in fig. 13, the tool magazine turntable 601 includes an outer cover 6011 and a turntable 6012, the back of the outer cover 6011 is fixed on a tool magazine motor support frame, the turntable 6012 is installed inside the outer cover 6011, the back of the turntable 6012 is connected with the output end of the tool magazine driving motor 602 through a rotary joint, a plurality of tool clamping frames 6013 are arranged on the periphery of the turntable 6012, a tool loading opening 6014 is arranged on the outer cover 6011, and the tool loading opening 6014 is located right in front of the spindle head.

It should be noted that: the setting of tool magazine carousel 601 is convenient for deposit multiple cutter to satisfy various processing demands, when needs change cutter or clamping cutter, drive carousel 6012 rotation by tool magazine driving motor 602, make required cutter rotate to the dress edge 6014 department that dustcoat 6011 corresponds, be convenient for change and clamping cutter.

As shown in fig. 11 and 14, the front end of the spindle mounting seat 704 is further provided with a counter 3, the counter 3 is located under the spindle head, the counter 3 includes a counter sleeve seat 301, a guide rod 302, a telescopic cylinder 303, a distance sensor 304 and an in-place sensor 305, the counter sleeve seat 301 is fixed at the front end of the spindle mounting seat 704, the guide rod 302 is inserted into the middle part of the counter sleeve seat 301 through a linear bearing, the front end of the guide rod 302 passes through the counter sleeve seat 301, the rear end of the guide rod 302 is connected with the telescopic rod of the telescopic cylinder 303, the distance sensor 304 and the in-place sensor 305 are both magnetic sensors, the telescopic cylinder 303 is a cylinder with a magnetic ring, and sensing lamps are further arranged on the distance sensor 304 and the in-place sensor 305.

It should be noted that: the counter adopts a magnetic induction principle, and has high induction precision, so that the counter has high induction precision, and the error of an artificial indefinite factor is effectively avoided. After the program starts automatic machining, the drilling and tapping mechanism 7 advances to a set position, and the telescopic cylinder 303 drives the guide rod 302 to move forward, in this embodiment, when the guide rod 302 is compressed in the control system in advance and the sensing lamp from the sensor 304 is turned on, the axial distance between the center of the outer end of the guide rod 302 and the center of the outer end of the machining tool is 15mm, the radial distance is 120mm, that is, the extending length of the center of the outer end of the guide rod 302 is 15mm than the center of the outer end of the machining tool, and the center of the outer end of the guide rod 302 is 120mm lower than the center of the outer end of the machining tool, so that the outer end of the guide rod 302 can be ensured to touch a machined workpiece earlier than the outer end of the machining tool; when the counter 3 is required to determine a processing zero point, the telescopic cylinder 303 drives the guide rod 302 to move forwards until the distance exceeds the set position of the distance sensor 304, in this embodiment, taking the telescopic cylinder 303 drives the guide rod 302 to extend out of the maximum stroke as an example, the extension length of the guide rod 302 can be ensured to be longer than the set position of the distance sensor 304, the counter 3 and the tapping mechanism 7 are driven by the tapping propulsion mechanism 8 to move forwards quickly to the preset position, then move forwards slowly until the guide rod 302 touches a processed workpiece and is compressed until the sensing lamp of the distance sensor 304 is lightened, at the moment, the control system can set the position of the workpiece touched by the outer end part of the guide rod 302 as the processing zero point, and the control system can calculate that the central distance between the center of the outer end part of the processing cutter and the position of the workpiece touched by the outer end part of the guide rod 302 is 15mm in axial direction and 120mm in radial distance; at this time, the telescopic cylinder 303 drives the guide rod 302 to move to the preset position of the in-place sensor 305, the sensing lamp of the in-place sensor 305 is turned on, and at this time, the outer end part of the guide rod 302 is in a retracted state relative to the outer end surface of the processing cutter, so that when the processing cutter processes a workpiece, the guide rod 302 can not touch the workpiece any more to influence the processing position of the cutter, and the processing safety is effectively ensured; when the induction lamp on the in-place inductor 305 is on, the control system can control the drilling and tapping propulsion mechanism 8 and the drilling and tapping lifting mechanism 9 to drive the cutter to move downwards by 120mm in the radial direction, and then the processing cutter moves forwards by 15mm in the axial direction, at the moment, the outer end part of the processing cutter just touches the processing zero point determined by the contact of the counter 3, and the control system can automatically process and move according to the required processing parameters. The counter 3 is adopted to determine the processing zero point, so that the tolerance of a workpiece can be set to be +/-5 mm when the workpiece is clamped on a vice, and compared with the clamping tolerance of +/-1 mm when the workpiece is measured by a traditional common manual method, the counter 3 reduces the clamping requirement, greatly reduces the clamping requirement, reduces the time for repeated measurement and repeated clamping adjustment, further greatly improves the production clamping time, and greatly reduces the workload of operators.

The use process of the full-automatic die carrier production equipment comprises the following steps of;

s1: pressing [ on-off key ] from a system control box 12, pressing [ on-off key ] after starting up, and the like, wherein the control system controls a vice moving mechanism 4 to drive a hydraulic vice 2 to stop at a position close to a safety door of a machine tool, and simultaneously a drilling and tapping propulsion mechanism 8 drives a drilling and tapping mechanism 7 to retreat outwards to the maximum limit, and a drilling and tapping lifting mechanism 9 drives the drilling and tapping mechanism 7 to lift, so that a main shaft head is close to a tool magazine mechanism 6, and tools are conveniently taken and loaded;

s2: opening a safety door, clamping a workpiece on the hydraulic vice 2, pressing a start key of the hydraulic vice 2 after the workpiece is placed, and driving the vice slide seat 203 to clamp the workpiece by the hydraulic cylinder 211;

s3: inputting data such as the model of a workpiece to be processed into a system control box 12, after the model is determined to be correct, pressing an automatic key, controlling drilling and tapping devices on two sides of a vice by a control system, driving a drilling and tapping pushing mechanism 7 to move forwards by a drilling and tapping pushing mechanism 8, enabling a spindle head of a tool spindle 701 of the drilling and tapping mechanism 7 to just correspond to a tool required to be clamped by a tool magazine mechanism 6, when the spindle head moves to the right rear of the tool, a tool driving cylinder 703 pushes the tool spindle 701 forwards, compressing a disc spring on the tool spindle 701, enabling the spindle head of the tool spindle 701 to be in an open state, enabling a clamping part of the processing tool to be inserted into the spindle head, resetting by the tool driving cylinder 703, tightening the spindle head under the spring force of the disc spring by the tool spindle 701, and clamping the clamping part of the processing tool, and further enabling the tool to be clamped in the spindle head of the tool spindle 701 after the clamping is completed;

S4: then the control system controls the drilling and tapping propulsion mechanism 8 to drive the tool spindle 701 with the tool clamped and the counter 3 to move forwards, when the tool spindle is moved to a set position, the telescopic cylinder 303 of the counter 3 drives the guide rod 302 to move forwards to a set parameter, the distance difference between the outer end part of the tool and the outer end part of the guide rod 302 is the extending distance of the guide rod 302, after the guide rod 302 extends to a proper position, the drilling and tapping propulsion mechanism 7 and the counter 3 are driven by the drilling and tapping propulsion mechanism 8 to move forwards slowly until the front end of the guide rod 302 of the counter 3 contacts a workpiece, the telescopic cylinder 303 in the counter 3 is pressed at the moment, a signal is transmitted to the control system by the distance sensor 304, the telescopic cylinder 303 drives the guide rod 302 to retract and reset, the control system controls the tool spindle 701 to move forwards to extend the distance of the guide rod 302 and touch a workpiece, and the end face of the workpiece is processed by taking the end part of the tool to touch the workpiece as a zero point;

s5: when the control system obtains a required zero point positioning point, the control system controls a spindle rotating motor 702 of the drilling and tapping mechanism 7 to drive a cutter spindle 701 to rotate, and meanwhile, the drilling and tapping propulsion mechanism 8 and the drilling and tapping lifting mechanism 9 drive the drilling and tapping mechanism 7 to follow up according to the processing advancing amount and the up-down moving amount until a preset instruction of the control system is completed;

S6: after all the processing instructions of the workpiece are completed, the drilling and tapping pushing mechanism 8 and the drilling and tapping lifting mechanism 9 drive the drilling and tapping mechanism 7 to reset to a preset safe position, and wait for the next processing program instruction.

The above description is only of the preferred embodiments of the present utility model, and is not intended to limit the present utility model in any way; those skilled in the art will readily appreciate that the present utility model may be implemented as shown in the drawings and described above; however, those skilled in the art should appreciate that many modifications, adaptations, and variations of the present utility model can be made without departing from the scope of the present utility model as set forth in the above-described aspects; meanwhile, any equivalent changes, modifications and evolution of the above embodiments according to the essential technology of the present utility model still fall within the scope of the present utility model.

Claims (10)

1. A full-automatic die carrier production facility, its characterized in that: the hydraulic vice is arranged at the upper middle part of the machine tool base, the drilling and tapping devices are arranged at the left side and the right side of the hydraulic vice and are arranged on the machine tool base, the counter device is arranged on the drilling and tapping device, the sensing end of the counter device is aligned to the direction of the hydraulic vice, and the control system controls all mechanisms to cooperate together.

2. The fully automatic mold frame production device according to claim 1, wherein: the middle part of the machine tool base is provided with a vice mounting position, two sides of the vice mounting position are provided with drilling and tapping device mounting positions, one side of the drilling and tapping device mounting position, which is close to the vice mounting position, is provided with a chip removing groove, and a chip removing mechanism is arranged in the chip removing groove;

the chip removing mechanism comprises a chip removing motor and a chip removing screw rod, wherein the chip removing motor is arranged on the outer side of one end of the chip removing groove and fixedly connected with the machine tool base, the output end of the chip removing motor penetrates through the machine tool base to be connected with one end of the chip removing screw rod, and the other end of the chip removing screw rod extends to the other opening end of the chip removing groove.

3. The fully automatic mold frame production device according to claim 1, wherein: the hydraulic vice comprises a vice workbench, wherein a chute is arranged on the bottom surface of the vice workbench, a track seeking plate is arranged on the upper end surface of the vice workbench, a vice slide seat is sleeved on the track seeking plate in a sliding manner, a vice connecting piece is arranged in the middle of the vice slide seat, a first jaw clamping plate and an oil scraping plate are arranged at one end of the vice slide seat, the first jaw clamping plate is fixed on the vice slide seat, the oil scraping plate is arranged below the first jaw clamping plate and sleeved on the track seeking plate, and a slide seat bottom plate is further arranged at the bottom of the vice slide seat;

One end of the vice workbench is provided with a limiting stop seat arranged in a protruding manner, one side of the limiting stop seat opposite to the vice sliding seat is provided with a second jaw clamping plate, the second jaw clamping plate is arranged corresponding to the first jaw clamping plate, and a jaw is formed between the first jaw clamping plate and the second jaw clamping plate;

the end part of the track seeking plate, which is far away from the limiting stop seat, is provided with a hydraulic cylinder fixing seat, a hydraulic cylinder is fixed on the hydraulic cylinder fixing seat, the output end of the hydraulic cylinder is connected with one end part of the secondary push rod, and the other end of the secondary push rod is connected with a vice connecting piece and can drive a vice sliding seat to move on the track seeking plate.

4. A fully automated formwork production apparatus as claimed in claim 3, wherein: two ends of the secondary push rod are respectively provided with two positioning block clamping grooves, a vice connecting piece installation position is formed between the two positioning block clamping grooves, the vice connecting piece is installed on the vice connecting piece installation position, positioning blocks are detachably clamped on the positioning block clamping grooves, and the two positioning blocks are positioned on the inner side and the outer side of the installation hole of the vice connecting piece.

5. The fully automatic mold frame production device according to claim 4, wherein: be equipped with vice moving mechanism between hydraulic vice and the lathe base, vice moving mechanism is including vice removal slide rail, vice driving motor and vice driving screw, vice removal slide rail is fixed on the lathe base, the spout card of vice workstation is established on vice removal slide rail to can slide on vice removal slide rail, vice driving motor is fixed on the motor fixing base, motor fixing base and lathe base fixed connection, vice driving motor's output and vice driving screw's one end are connected, vice driving screw's the other end is fixed in vice workstation bottom surface to can drive vice workstation and slide on vice removal slide rail.

6. The fully automatic mold frame production device according to claim 1, wherein: the drilling and tapping device comprises a vertical seat, a tool magazine mechanism, a drilling and tapping propelling mechanism and a drilling and tapping lifting mechanism;

the tool magazine mechanism is arranged at the upper part of the front side of the vertical seat and comprises a tool magazine turntable and a tool magazine driving motor, the tool magazine driving motor is fixed on a tool magazine motor support frame, the output end of the tool magazine driving motor is connected with the tool magazine turntable and can drive the tool magazine turntable to rotate, and the tool magazine motor support frame is fixed at the upper part of the vertical seat;

the drilling and tapping mechanism is arranged in the middle of the vertical seat and comprises a cutter main shaft, a main shaft rotating motor and a cutter beating cylinder, wherein the cutter main shaft is arranged in a main shaft mounting seat, one end of the cutter main shaft is provided with a main shaft head, the other end of the cutter main shaft is connected with one end of a main shaft driving wheel, the other end of the main shaft driving wheel is connected with the output end of the cutter beating cylinder through a rotary joint, the main shaft rotating motor is arranged on the cutter main shaft and is fixed on a motor fixing seat, the output end of the main shaft rotating motor is connected with a motor driving wheel, the motor driving wheel realizes synchronous transmission with the main shaft driving wheel through a driving belt, the motor fixing seat is fixed on the vertical seat, and the cutter beating cylinder is fixed at the tail end of the main shaft mounting seat and the output end of the cutter beating cylinder is connected with the rotary joint.

7. The fully automatic mold frame production device according to claim 6, wherein: the drilling and tapping propulsion mechanism is arranged below the drilling and tapping mechanism and is arranged in the middle of the vertical seat, and comprises a ram type base, a feeding motor and a feeding screw rod, wherein the main shaft mounting seat is slidably arranged on the ram type base, the bottom of the main shaft mounting seat is clamped with a feeding nut on the feeding screw rod, one end of the feeding screw rod is rotatably arranged on the screw rod seat, the other end of the feeding screw rod is connected with the output end of the feeding motor, the feeding motor is fixed on a feeding motor fixing seat, and the feeding motor fixing seat is fixedly connected with the ram type base;

the drill attack elevating system is including front end lifter plate, rear end lifter plate, elevator motor and lifting screw, front end lifter plate slidable mounting is in the seat front side, but rear end lifter plate slidable mounting is in the seat rear side, front end lifter plate and rear end lifter plate correspond the setting from front to back, main shaft mount pad and ram formula base wear to establish between front end lifter plate and rear end lifter plate, elevator motor passes through the elevator motor mount pad to be fixed at the seat up end, and its output sets up downwards and is connected with lifting screw's one end, elevator nut and ram formula base joint on the lifting screw to can drive drill attack mechanism and drill attack propulsion mechanism and do the reciprocates.

8. The fully automatic mold frame production device according to claim 6, wherein: the tool magazine turntable comprises an outer cover and a turntable, the back of the outer cover is fixed on a tool magazine motor support frame, the turntable is installed inside the outer cover, the back of the turntable is connected with the output end of a tool magazine driving motor through a rotary joint, a plurality of tool clamping frames are arranged on the periphery of the turntable, a tool mounting edge is arranged on the outer cover, and the tool mounting edge is located right in front of a spindle head.

9. The fully automatic mold frame production device according to claim 6, wherein: the front end of the main shaft mount pad is also provided with a counter, the counter is positioned under the main shaft head, the counter comprises a counter sleeve seat, a guide rod, a telescopic cylinder, a distance sensor and a in-place sensor, the counter sleeve seat is fixed at the front end of the main shaft mount pad, the guide rod is inserted into the middle part in the counter sleeve seat through a linear bearing, the front end of the guide rod passes through the counter sleeve seat, the rear end of the guide rod is connected with the telescopic rod of the telescopic cylinder, the distance sensor and the in-place sensor are both magnetic sensors, the telescopic cylinder is a cylinder with a magnetic ring, and the distance sensor and the in-place sensor are also provided with a sensing lamp.

10. The fully automatic mold frame production device according to claim 1, wherein: the hydraulic station, the electric box and the system control box are arranged outside the machine tool housing, and the filtering water tank is arranged on one side of the machine tool base.