CN212793899U

CN212793899U - Full-automatic precision mold integrated machining center equipment

Info

Publication number: CN212793899U
Application number: CN202020117393.5U
Authority: CN
Inventors: 廖达
Original assignee: Shenzhen Xinchengda Hardware Products Co ltd
Current assignee: Shenzhen Xinchengda Hardware Products Co ltd
Priority date: 2020-01-17
Filing date: 2020-01-17
Publication date: 2021-03-26
Anticipated expiration: 2030-01-17

Abstract

The utility model discloses a full-automatic accurate mould integrated into one piece machining center equipment relates to the processing equipment field. The structure of the utility model comprises a box body, a groove is arranged on the top of the box body, the top of the box body is connected with a box cover, the bottom of the box body is connected with universal wheels, and the box body plays a role in supporting and protecting; the box cover is of a U-shaped columnar structure, two bottom ends of the box cover are fixedly connected to the front side and the rear side of the top of the box body respectively, and the box cover supports an internal structure; the cutting device is arranged in a cavity between the box body and the box cover and cuts the die; the grinding device is arranged on the moving box on the right side of the bottom of the box cover, and is used for grinding the edges and corners left after cutting to perform fine processing; the rotating device is arranged in a box body at the bottom of the conveying belt below the box cover, and the rotating device fixes the die to rotate so as to discharge die waste residues. The utility model discloses with different procedure integration, realize integration processing.

Description

Full-automatic precision mold integrated machining center equipment

Technical Field

The invention relates to the field of processing equipment, in particular to full-automatic precision mold integrated processing center equipment.

Background

The mould is various moulds and tools for obtaining required products by injection moulding, blow moulding, extrusion, die casting or forging forming, smelting, stamping and other methods in industrial production, and the mould is usually made of alloy materials. The prior art mold tooling devices typically only perform one tooling procedure. The mould processing equipment of prior art needs the manual work to carry out mould processing with the mode of machine cooperation more, extravagant manpower.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that overcome prior art mould processing equipment and can't realize multiple processing, and extravagant manpower.

In order to solve the above technical problems, the present invention provides a full-automatic precision mold integrated processing center device, comprising,

the box body is provided with a groove at the top, the top of the box body is connected with the box cover, the bottom of the box body is connected with the universal wheels, and the box body plays a role in supporting and protecting;

the box cover is of a U-shaped columnar structure, two bottom ends of the box cover are fixedly connected to the front side and the rear side of the top of the box body respectively, the bottom of the box cover is connected with three movable boxes, and the box cover supports an internal structure;

the control panel is arranged in a groove in the outer wall of the front side of the box body, a circuit behind the control panel is connected with a driving motor, an air cylinder and a power supply in the equipment, and the control panel controls the operation of the control equipment;

the cutting device is arranged in a cavity between the box body and the box cover and comprises a large-size cutting device, the top of the large-size cutting device is connected to the movable box on the left side of the bottom of the box cover, and the large-size cutting device cuts a machining die; the small-size cutting device is connected to the adjacent moving box of the large-size cutting device, and finely cuts the machining die;

the grinding device is arranged on the moving box on the right side of the bottom of the box cover, and is used for grinding the edges and corners left after cutting to perform fine processing;

the rotating device is arranged in a box body at the bottom of the conveyor belt below the box cover and comprises a third protective shell, the third protective shell wraps the periphery of the rotating device, and the third protective shell protects an internal structure; the third air cylinder is arranged at the bottom of a groove in the top of the third protective shell and drives the fourth driving motor to move up and down; no. four driving motor, No. four driving motor fixed connection are at the top of No. three cylinders, No. four driving motor drive No. two power shafts rotate, make No. two power shafts rotate and fix the screwed hole to the mould.

As a further aspect of the present invention: a conveying device is arranged in the groove in the top of the box body and comprises a conveying belt, a driving motor and a pulley, a partition plate is arranged on the surface of the conveying belt, and the base is clamped on the conveying belt by the partition plate so as to fix the die.

As a further aspect of the present invention: the cutting device is characterized in that a pressing plate is arranged on the upper layer of the conveying belt and is in a U-shaped long plate shape, the middle of the pressing plate is a long notch, the long notch is a strut sliding track, two ends of the U-shaped pressing plate are fixed to the front side and the rear side of the top of the box body, and the pressing plate presses the base to prevent the die from moving during cutting.

As a further aspect of the present invention: the pressing plate and the conveyor belt are provided with notches at the upper parts of the pouring devices, the notches are pouring grooves, and the pouring grooves facilitate the backward rotation of the mold to pour the waste residues.

As a further aspect of the present invention: the box body comprises a box body and is characterized in that two left side walls and two right side walls of the box body are respectively connected with a fixed support, the fixed supports are connected with the box body through rotating shafts, the fixed supports can rotate up and down around the rotating shafts, and the fixed supports are used for fixing equipment and preventing the equipment from sliding at will.

As a further aspect of the present invention: each be connected with a spanner on the box outer wall at fixed bolster top, the spanner passes through bearing and box outer wall connection, the spanner can rotate around the bearing, the spanner can be fixed the fixed bolster on the box outer wall, makes things convenient for the removal of equipment.

As a further aspect of the present invention: the internal structure of the movable box comprises a left air cylinder and a right air cylinder, the left air cylinder and the right air cylinder are arranged on the rear side of the movable box, the left end of the left air cylinder and the right air cylinder are fixedly connected with a front air cylinder and a rear air cylinder, the right end of the left air cylinder and the right end of the right air cylinder are fixedly connected with a large-size cutting device, a small-size cutting device or a polishing device, and the left; and the front and rear air cylinders are fixed at the front part of the movable box, and the front and rear air cylinder driving device moves back and forth.

As a further aspect of the present invention: with three suction pump on the case lid rear portion lateral wall, the water pipe on the case lid rear portion inside wall is connected to the suction pump, the suction pump is with the water pump oral siphon, mould when water pipe spray rinsing cutting reaches the effect of cooling.

As a further aspect of the present invention: a pouring device is arranged at the top of the box body between the small cutting device and the grinding device, the pouring device comprises a first driving motor, the first driving motor is fixedly arranged in a cavity of the box body, the left end of the first driving motor is connected with a rotating device through a power shaft, the first driving motor enables the rotating device to rotate backwards, and the die is enabled to pour cutting residues backwards to a pouring opening; the pouring groove is formed in the notch on the rear side of the pressing plate and facilitates pouring of the mold; the pouring opening is arranged in a groove in the rear portion of the box body, a box body wedge-shaped slope is connected to the inner side of the pouring opening, and the pouring opening guides internal cutting residues out of the device.

As a further aspect of the present invention: each cutting device comprises a cutting knife which is arranged at the bottom end of the cutting device and used for cutting the die; the second driving motor is fixed in the groove of the first protective shell, the lower end of the second driving motor is connected with the cutting knife through a first power shaft, and the second driving motor drives the cutting knife to perform cutting work; the third driving motor is fixed in a groove of the second protective shell and is connected with the second air cylinder through a power shaft, and the third driving motor drives the second air cylinder to rotate; the second air cylinder is arranged in a groove of the second protective shell, the top of the second air cylinder is connected with a third driving motor, the bottom of the second air cylinder is connected with the first protective shell through a rotating shaft, and the second air cylinder drives the cutting knife to move up and down; the two ends of the first air cylinder are respectively connected to the lower portion of the second air cylinder and the first protective shell through rotating shafts, and the first air cylinder can drive the cutting knife to cut at different angles in a telescopic motion mode.

As a further aspect of the present invention: the universal wheels have four, four universal wheels are fixed in four angle departments of bottom half respectively through the support column, when the universal wheel supports the box, make things convenient for the removal of equipment.

The invention has the beneficial effects that:

(1) the utility model is provided with a full-automatic conveying device and a cutting device, when in use, a user controls a control panel to make the equipment run; placing an unprocessed mold on a left-side conveying belt, clamping a base of the mold between two partition plates, and clamping a support of the mold on a support sliding track; the mould is conveyed to the right below the large-size cutting device by the conveyor belt, the second cylinder extends, and the cutting knife moves downwards to be attached to the mould; a second driving motor drives a first power shaft to rotate, a cutting knife connected with the first power shaft rotates, and the cutting knife cuts the die; a third driving motor operates to drive a second air cylinder to rotate horizontally, and a cutting knife connected below the second air cylinder rotates to cut; the first cylinder extends, the first protective shell rotates around the rotating shaft, the first protective shell and the second cylinder form an obtuse angle, and the cutting knife is inclined to cut the die; the shrinkage of a left cylinder and a right cylinder in the movable box drives the large-size cutting device to move leftwards, and the shrinkage of a front cylinder and a rear cylinder in the movable box drives the large-size cutting device to move forwards; the water pump pumps the water pipe into the rice, the water pipe sprays water on the cutter cutting die, and the die is cooled while waste residues are washed. The utility model discloses a full automatization device realizes the automatic processing of mould.

(2) The utility model is provided with the dumping device, the third cylinder extends and supports the fourth cylinder to drive the third cylinder to move upwards, so that the second cylinder passes through the small hole on the conveyor belt and is close to the threaded hole on the base; the fourth driving motor operates to enable the second power shaft to rotate, so that the second power shaft is screwed into the threaded hole in the base, and the second power shaft is fixed with the die; the first driving motor drives the power shaft to rotate, the third protective shell connected with the power shaft rotates backwards, the support and the mold rotate backwards to enter the pouring groove, and waste residues in the mold slide out of the pouring opening; the first driving motor drives the mould to rotate upwards to restore to the original position; no. three cylinders and No. four driving motors drive No. two power shafts to leave the base internal threaded hole. The utility model discloses a waste residue in the device of empting pours out the mould, the meticulous processing of convenient progress.

Drawings

FIG. 1 is a front view structural diagram of the present invention;

fig. 2 is a top view of the present invention;

FIG. 3 is a top view of the pouring device;

FIG. 4 is a right side sectional view of the pouring device;

FIG. 5 is a view showing the construction of the cutting device;

FIG. 6 is a view showing a structure of a rotating device;

fig. 7 is a structural view of the movable box.

Wherein: the device comprises a box body 1, a box cover 2, a large-size cutting device 3, a cutting knife 31, a second driving motor 32, a first protective shell 33, a rotating shaft 34, a first air cylinder 35, a second air cylinder 36, a third driving motor 37, a second protective shell 38, a first power shaft 39, a small-size cutting device 4, a grinding device 5, a mold 6, a screw hole 61, a support column 62, a base 63, a water pipe 7, a rotating device 8, a second power shaft 81, a third protective shell 82, a fourth driving motor 83, a third air cylinder 84, a conveyor belt 9, a partition plate 91, a universal wheel 10, a wrench 11, a fixed support 12, a first driving motor 13, a support column sliding rail 14, a base sliding rail 15, a water suction pump 16, a control panel 17, a pouring groove 18, a port 19, a movable box 20, a left air cylinder 201, a right air cylinder 201, a front air cylinder, a rear.

Detailed Description

The structure of the full-automatic precision mold integrated processing center equipment provided by the embodiment is shown in fig. 1-7, and comprises,

the box body 1 is provided with a groove at the top part of the box body 1, the top part of the box body 1 is connected with the box cover 2, the bottom part of the box body 1 is connected with the universal wheels 10, and the box body 1 plays a role in supporting and protecting;

the box cover 2 is of a U-shaped columnar structure, two bottom ends of the box cover 2 are fixedly connected to the front side and the rear side of the top of the box body 1 respectively, the bottom of the box cover 2 is connected with three movable boxes 20, and the box cover 2 supports an internal structure;

the control panel 17 is arranged in a groove on the outer wall of the front side of the box body 1, a circuit behind the control panel 17 is connected with a driving motor, a cylinder and a power supply in the equipment, and the control panel 17 controls the operation of the control equipment;

the cutting device is arranged in a cavity between the box body 1 and the box cover 2 and comprises a large-size cutting device 3, the top of the large-size cutting device 3 is connected to a movable box 20 on the left side of the bottom of the box cover 2, and the large-size cutting device 3 cuts the processing die 6; the small-size cutting device 4 is connected to the moving box 20 adjacent to the large-size cutting device 3, and the small-size cutting device 4 finely cuts the machining die 6;

the polishing device 5 is arranged on the moving box 20 on the right side of the bottom of the box cover 2, and edges and corners left after cutting are polished by the polishing device 5 for fine machining;

the rotating device 8 is arranged in the box body 1 at the bottom of the conveyor belt below the box cover 2, the rotating device 8 comprises a third protective shell 82, the third protective shell 82 is wrapped on the periphery of the rotating device 8, and the third protective shell 82 protects the internal structure; the third air cylinder 84 is arranged at the bottom of a groove in the top of the third protective shell 82, and the third air cylinder 84 drives the fourth driving motor 83 to move up and down; no. four driving motor 83, No. four driving motor 83 fixed connection are at the top of No. three cylinders 84, No. four driving motor 83 drive No. two power shafts 81 rotate, make No. two power shafts 81 rotate and fix to in the screw hole 61 of mould.

A conveying device is arranged in a groove in the top of the box body 1 and comprises a conveying belt 9, a driving motor and a pulley, a partition plate 91 is arranged on the surface of the conveying belt 9, and the base 62 is clamped on the conveying belt 9 by the partition plate 91 so as to fix the mold 6.

The upper layer of the conveyor belt 9 is provided with a pressing plate 21, the pressing plate 21 is in a U-shaped long plate shape, the middle part of the pressing plate 21 is a long gap, the long gap is a strut sliding track 14, two ends of the U-shaped pressing plate 21 are fixed on the front side and the rear side of the top of the box body 1, and the pressing plate 21 presses the base 62 to prevent the die 6 from moving during cutting.

The pressing plate 21 and the conveyor belt 9 are provided with gaps at the upper part of the pouring device, the gaps are pouring grooves 18, and the pouring grooves 18 facilitate the backward rotation of the mold 6 to pour the waste residues.

The left side wall and the right side wall of the box body 1 are respectively connected with a fixed support 12, the fixed supports 12 are connected with the box body 1 through rotating shafts, the fixed supports 12 can rotate up and down around the rotating shafts, and the fixed supports 12 fix equipment to prevent the equipment from sliding randomly.

Each be connected with a spanner 11 on the 1 outer wall of box at fixed bolster 12 top, spanner 11 passes through bearing and 1 outer wall connection of box, spanner 11 can rotate around the bearing, spanner 11 can fix fixed bolster 12 on the 1 outer wall of box, makes things convenient for the removal of equipment.

The internal structure of the moving box 20 comprises a left air cylinder 201 and a right air cylinder 201, the left air cylinder 201 is arranged on the rear side of the moving box 20, the left end of the left air cylinder 201 is fixedly connected with a front air cylinder 202 and a rear air cylinder 202, the right end of the left air cylinder 201 is fixedly connected with a large-size cutting device 3, a small-size cutting device 4 or a grinding device 5, and a driving device of the left air cylinder 201 and the right air cylinder 201 moves left and right; and front and rear air cylinders 202, wherein the front and rear air cylinders 202 are fixed at the front part of the movable box 20, and the driving device of the front and rear air cylinders 202 moves forwards and backwards.

With three suction pump 16 on the 2 rear portion lateral walls of case lid, water pipe 7 on the 2 rear portion inside walls of case lid is connected to suction pump 16, water pump 16 is with water pump oral siphon 7, mould 6 when water pipe 7 spray rinsing cutting reaches the effect of cooling.

A dumping device is arranged at the top of the box body 1 between the small cutting device 4 and the grinding device 5 and comprises a first driving motor 13, the first driving motor 13 is arranged and fixed in a cavity of the box body 1, the left end of the first driving motor 13 is connected with a rotating device 8 through a power shaft, the first driving motor 13 enables the rotating device 8 to rotate backwards, and the mould 6 is enabled to dump backwards to dump and dump cutting residues to a dumping opening 19; a pouring channel 18, the pouring channel 18 being provided at the gap at the rear side of the platen 21, said pouring channel 18 facilitating pouring of the mold 6; the pouring opening 19 is arranged in a groove in the rear portion of the box body 1, a wedge-shaped slope of the box body 1 is connected to the inner side of the pouring opening 19, and the pouring opening 19 guides internal cutting residues out of the device.

Each cutting device comprises a cutting knife 31, the cutting knife 31 is arranged at the bottom end of the cutting device, and the cutting knife 31 cuts the die 6; the second driving motor 32 is fixed in a groove of the first protective shell 33, the lower end of the second driving motor 32 is connected with the cutting knife 31 through a first power shaft 39, and the second driving motor 32 drives the cutting knife 31 to perform cutting work; a third driving motor 37, wherein the third driving motor 37 is fixed in a groove of a second protective shell 38, the third driving motor 37 is connected with a second air cylinder 36 through a power shaft, and the third driving motor 37 drives the second air cylinder 36 to rotate; the second air cylinder 36 is arranged in a groove of the second protective shell 38, the top of the second air cylinder 36 is connected with a third driving motor 37, the bottom end of the second air cylinder is connected with the first protective shell 33 through a rotating shaft 34, and the second air cylinder 36 drives the cutting knife 31 to move up and down; no. one cylinder 35, No. one cylinder 35 both ends are connected respectively on No. two cylinder 36 lower parts and a protecting sheathing 33 through the pivot, No. one cylinder 35 concertina movement can drive cutting knife 31 and be the cutting of different angles.

The universal wheels 10 are four, the four universal wheels 10 are fixed at four corners of the bottom of the box body 1 through supporting columns respectively, and the universal wheels 10 facilitate movement of equipment while supporting the box body.

The utility model discloses a theory of operation: when in use, a user operates the control panel 17 to operate the device; placing the unprocessed mold 6 on the left side conveyor belt 9, clamping the base 63 of the mold 6 between the two partition plates 91, sending the mold 6 into the base sliding rail 15, and clamping the support 62 of the mold 6 on the support sliding rail 14; the mould 6 is conveyed to the right by the conveyor belt 9 to be right below the large-size cutting device 3, the second air cylinder 36 extends, and the cutting knife 31 moves downwards to be attached to the mould 6; the second driving motor 32 drives the first power shaft 39 to rotate, the cutting knife 31 connected with the first power shaft 39 rotates, and the cutting knife 31 cuts the die 6; the third driving motor 37 operates to drive the second air cylinder 36 to rotate horizontally, and the cutting knife 31 connected below the second air cylinder 36 rotates to perform cutting work; the first cylinder 35 extends, the first protective shell 33 rotates around the rotating shaft 34, the first protective shell 33 and the second cylinder 36 form an obtuse angle, and the cutting knife 31 inclines to cut the die 6; a left air cylinder 201 and a right air cylinder 201 in the movable box 20 contract to drive the large-size cutting device 3 to move leftwards, and a front air cylinder 202 and a rear air cylinder 202 in the movable box 20 contract to drive the large-size cutting device 3 to move forwards; pumping the water pipe 7 of the rice by a water pump 16, spraying water on the cutting die 6 by the water pipe 7, and cooling the die 6 while washing waste residues; after the large-size cutting device 3 finishes working, the conveyor belt 9 moves rightwards, and the die 6 is conveyed to the small-size cutting device 4 for fine cutting; after the small-size cutting device 4 finishes working, the conveyor belt 9 moves rightwards, and the die 6 is conveyed to the upper part of the dumping device; the third cylinder 84 extends to support the fourth driving device 83 to move upwards, so that the second power shaft 81 passes through the small hole in the conveyor belt 9 and is close to the threaded hole 61 in the base 62; the fourth driving motor 83 operates to enable the second power shaft 81 to rotate, so that the second power shaft 81 is screwed into the threaded hole 61 in the base, and the second power shaft 81 is fixed with the die 6; the first driving motor 13 drives the power shaft to rotate, the third protective shell 82 connected with the power shaft rotates backwards, the support 63 and the mould 6 rotate backwards to enter the pouring groove 18, and waste residues in the mould 6 slide out of the pouring opening 19; the first driving motor 13 drives the mould 6 to rotate upwards to restore to the original position; the third air cylinder 84 and the fourth driving motor 83 drive the second power shaft 81 to leave the base internal threaded hole 61; the conveyor belt 9 moves rightwards, and the die 6 is conveyed to the lower part of the grinding device 5 for fine grinding processing; after polishing, the conveyor belt 9 moves backwards, and the mold 6 is conveyed to the right end of the conveyor belt 9 and falls into a collecting tank arranged below. The utility model discloses a full automatization device realizes the automatic processing of mould. The utility model discloses with different procedure integration, realize integration processing.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims

1. A full-automatic precision mold integrated processing center device is characterized by comprising,

the box body (1) is provided with a groove at the top, the top of the box body (1) is connected with the box cover (2), the bottom of the box body (1) is connected with the universal wheels (10), and the box body (1) plays a role in supporting and protecting;

the box cover (2) is of a U-shaped columnar structure, two bottom ends of the box cover (2) are fixedly connected to the front side and the rear side of the top of the box body (1) respectively, the bottom of the box cover (2) is connected with three movable boxes (20), and the box cover (2) supports an internal structure;

the control panel (17), the control panel (17) is set up in the recess on the outer wall of front side of the container body (1), the circuit in the said control panel (17) rear couples to drive motor, air cylinder and power in the apparatus, the said control panel (17) controls the operation of the control device;

the cutting device is arranged in a cavity between the box body (1) and the box cover (2) and comprises a large-size cutting device (3), the top of the large-size cutting device (3) is connected to a movable box (20) on the left side of the bottom of the box cover (2), and the large-size cutting device (3) cuts and processes the die (6); the small-size cutting device (4) is connected to the moving box (20) adjacent to the large-size cutting device (3), and the small-size cutting device (4) finely cuts the machining die (6);

the grinding device (5) is arranged on the moving box (20) on the right side of the bottom of the box cover (2), and the grinding device (5) is used for grinding edges and corners left after cutting and carrying out fine machining;

the rotating device (8) is arranged in the box body (1) at the bottom of the conveyor belt below the box cover (2), the rotating device (8) comprises a third protective shell (82), the third protective shell (82) wraps the periphery of the rotating device (8), and the third protective shell (82) protects the internal structure; the third air cylinder (84) is arranged at the bottom of a groove in the top of the third protective shell (82), and the third air cylinder (84) drives the fourth driving motor (83) to move up and down; no. four driving motor (83), No. four driving motor (83) fixed connection are at the top of No. three cylinder (84), No. four driving motor (83) drive No. two power shaft (81) rotate, make No. two power shaft (81) rotate and fix in screw hole (61) of mould.

2. The full-automatic precision mold integrated processing center equipment as claimed in claim 1, wherein: the box body (1) is characterized in that the left side wall and the right side wall of the box body (1) are respectively connected with a fixed support (12), the fixed supports (12) are connected with the box body (1) through rotating shafts, the fixed supports (12) can rotate up and down around the rotating shafts, and the fixed supports (12) fix equipment and prevent the equipment from sliding randomly.

3. The full-automatic precision mold integrated processing center equipment as claimed in claim 2, wherein: each be connected with a spanner (11) on box (1) outer wall at fixed bolster (12) top, spanner (11) pass through bearing and box (1) outer wall connection, spanner (11) can rotate around the bearing, spanner (11) can be fixed bolster (12) on box (1) outer wall, make things convenient for the removal of equipment.

4. The full-automatic precision mold integrated processing center equipment as claimed in claim 1, wherein: the inner structure of the movable box (20) comprises a left air cylinder and a right air cylinder (201), the left air cylinder and the right air cylinder (201) are arranged on the rear side of the movable box (20), the left end of the left air cylinder and the right air cylinder (201) are fixedly connected with a front air cylinder and a rear air cylinder (202), the right end of the left air cylinder and the right air cylinder (201) is fixedly connected with a large-size cutting device (3), a small-size cutting device (4) or a grinding device (5), and a driving device of the left air cylinder and; and the front and rear air cylinders (202), the front and rear air cylinders (202) are fixed at the front part of the movable box (20), and the driving device of the front and rear air cylinders (202) moves forwards and backwards.

5. The full-automatic precision mold integrated processing center equipment as claimed in claim 1, wherein: a dumping device is arranged at the top of the box body (1) between the small cutting device (4) and the grinding device (5), the dumping device comprises a first driving motor (13), the first driving motor (13) is arranged and fixed in a cavity of the box body (1), the left end of the first driving motor (13) is connected with the rotating device (8) through a power shaft, the first driving motor (13) enables the rotating device (8) to rotate backwards, and the die (6) is enabled to dump and dump cutting residues to a dumping opening (19) backwards; a pouring groove (18), wherein the pouring groove (18) is arranged at the gap on the rear side of the pressing plate (21), and the pouring groove (18) facilitates pouring of the mold (6); the cutting device comprises a pouring opening (19), wherein the pouring opening (19) is arranged in a groove in the rear portion of the box body (1), the inner side of the pouring opening (19) is connected with a wedge-shaped slope of the box body (1), and the pouring opening (19) guides internal cutting residues out of the device.

6. The full-automatic precision mold integrated processing center equipment as claimed in claim 1, wherein: each cutting device comprises a cutting knife (31), the cutting knife (31) is arranged at the bottom end of the cutting device, and the cutting knife (31) cuts the die (6); the second driving motor (32) is fixed in a groove of the first protective shell (33), the lower end of the second driving motor (32) is connected with the cutting knife (31) through a first power shaft (39), and the second driving motor (32) drives the cutting knife (31) to perform cutting work; the third driving motor (37) is fixed in a groove of the second protective shell (38), the third driving motor (37) is connected with the second air cylinder (36) through a power shaft, and the third driving motor (37) drives the second air cylinder (36) to rotate; the second air cylinder (36) is arranged in a groove of the second protective shell (38), the top of the second air cylinder (36) is connected with a third driving motor (37), the bottom end of the second air cylinder is connected with the first protective shell (33) through a rotating shaft (34), and the second air cylinder (36) drives the cutting knife (31) to move up and down; the cutting device comprises a first air cylinder (35), wherein two ends of the first air cylinder (35) are connected to the lower portion of a second air cylinder (36) and a protective shell (33) through rotating shafts respectively, and the first air cylinder (35) can drive a cutting knife (31) to cut at different angles in a telescopic motion mode.