CN212122338U - Automatic change numerical control mould machining center equipment - Google Patents

Abstract

The utility model discloses an automatic change numerical control mould machining center equipment relates to the processing equipment field. The structure of the utility model comprises that a cavity in the front and back direction is arranged in the middle of the box body, the top of the box body is connected with a bracket, the bottom of the box body is connected with universal wheels, and the box body plays a role in protection and support; the numerical control electric cabinet is arranged in a cavity in the middle of the box body, is connected with a driving motor, an air cylinder and a power supply in the equipment and controls the operation of the equipment; the cutting device structurally comprises a driving motor and a cutting knife, the cutting device is connected with a movable box in the top wall of the right part of the support, and the cutting device cuts the processed die from the support; the electric drill device is arranged at the bottom of the left side moving box of the support and is used for machining the die. The utility model discloses an electric drill device and cutting device of numerical control electric cabinet control realize the automatic processing mould.

Description

Automatic change numerical control mould machining center equipment

Technical Field

The invention relates to the field of processing equipment, in particular to automatic numerical control die 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 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 it is relatively poor to overcome prior art automation performance, extravagant manpower.

In order to solve the above technical problems, the present invention provides an automatic numerical control mold machining center device, comprising,

the box body is provided with a groove at the top, a cavity in the front-back direction is formed in the middle of the box body, the top of the box body is connected with a support, the bottom of the box body is connected with universal wheels, and the box body plays a role in protection and support;

the numerical control electric cabinet is arranged in a cavity in the middle of the box body, is connected with a driving motor, an air cylinder and a power supply in the equipment and controls the operation of the equipment;

the conveying device structurally comprises a conveying belt, a driving motor and a pulley, is arranged in a groove in the top of the box body and conveys the metal blocks from left to right for processing;

the cutting device structurally comprises a driving motor and a cutting knife, the cutting device is connected with a movable box in the top wall of the right part of the support, and the cutting device cuts the processed die from the support;

the electric drill device is arranged at the bottom of the left moving box of the bracket and comprises a drill body,

the drill bit is arranged at the bottommost end of the electric drill device and is connected with a first driving motor through a power shaft, and the drill bit is used for drilling a mold;

the first driving motor is fixed in the first protective shell and drives the drill bit to rotate;

the two ends of the first air cylinder are respectively connected to the bottom end of the second air cylinder and the outer wall of the first protective shell through rotating shafts, and the first air cylinder stretches and retracts to change the angle between the first protective shell and the second air cylinder;

the second cylinder is arranged in a groove of the second protective shell, the top of the second cylinder is fixedly connected with a second driving motor, the bottom of the second cylinder is connected with the first protective shell through a rotating shaft, and the second cylinder stretches to enable the drill bit to move up and down;

no. two driving motor, No. two driving motor fix in a protecting sheathing's recess, No. two driving motor connects the top of No. two cylinders, No. two driving motor drive No. two cylinder horizontal rotation.

As a further aspect of the present invention: the conveying belt is provided with a partition plate, the base is clamped by the two partition plates, the metal block is prevented from moving left and right during processing, and the partition plates push the metal block to move right.

As a further aspect of the present invention: and through holes are formed in the central axis parts among the group of partition plates and are aligned to the threaded holes of the metal blocks, so that the first power shaft of the rotating device is connected with the threaded holes.

As a further aspect of the present invention: the upper layer of the conveying belt is provided with a pressing plate, the pressing plate is in a U-shaped long plate shape, the middle part 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 on the front side and the rear side of the top of the box body, and the pressing plate presses the base to prevent metal blocks from moving back and forth or falling off during processing.

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: the box outer wall at the top of each fixing support is connected with a wrench, the wrench is connected with the box outer wall through a bearing, the wrench can rotate around the bearing, and the wrench can fix the fixing supports on the box outer wall, so that the equipment can be conveniently moved.

As a further aspect of the present invention: the support is the long board of U type, the side around the box top is connected respectively to two bottoms of U type support, the support supports electric drill device and cutting device.

As a further aspect of the present invention: the support is characterized in that two cavities are formed in the top plate of the support, a moving box is respectively arranged in each cavity, each moving box comprises a left guiding cylinder and a right guiding cylinder, the lower sides of the right ends of the left guiding cylinder and the right guiding cylinder are fixedly connected with an electric drill device or a cutting device, and the left guiding cylinder and the right guiding cylinder stretch and retract to move the devices left and right; the front end of the front and rear guide cylinder is fixed on the movable box, and the front and rear guide cylinder stretches and retracts to move the device back and forth.

As a further aspect of the present invention: the rear side wall of the support is provided with a hole, the inner side of the hole is communicated with a blast port, an air guide pipe penetrates through the hole and is connected with the blast port, the blast port guides air to the die, and waste residues generated after the die is processed are blown out from a slag outlet.

As a further aspect of the present invention: the air blower is arranged on the left side of the cavity in the middle of the box body, an air outlet of the air blower is connected with the bottom end of the air guide pipe, the top end of the air guide pipe is connected with the blast port, and the air blower blows air into the blast port.

As a further aspect of the present invention: the top of the box body right below the electric drill device is provided with a groove, a rotating device is arranged in the groove and comprises a third air cylinder, the third air cylinder is arranged in the groove of the third protective shell, the top of the third air cylinder is fixedly connected with a third driving motor, and the third air cylinder stretches and retracts to enable the third driving motor to move up and down; no. three driving motor, No. three driving motor set up in No. three protecting sheathing's recess, No. three driving motor bottom fixed connection No. three cylinders, No. three driving motor top connection power shaft, No. three driving motor drive power shaft rotates.

As a further aspect of the present invention: the surface of the first power shaft is provided with threads, the threads correspond to the threads on the wall of the threaded hole, and the first power shaft is fixed with the threaded hole so as to fix or rotate the metal block, thereby facilitating the fine processing of the die.

As a further aspect of the present invention: the die guiding device is characterized in that a sliding plate is fixed at the top of the box body at the rear side below the cutting device, the sliding plate is communicated with a die outlet, two surrounding plates are respectively connected to the left end and the right end of the top of the sliding plate, the sliding plate guides cut and processed dies out of the die guiding device, and the surrounding plates prevent the dies from falling off in the sliding process.

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 improves the electric drill device, when drilling, the second cylinder extends, the first protective shell connected with the second cylinder moves downwards, and the drill bit moves downwards to attach the die; the first driving motor drives the power shaft to rotate, and a drill bit connected with the power shaft rotates to drill a hole in the die; the first air cylinder contracts, the second air cylinder and the first protective shell form different angles through the first air cylinder, and the drill bit forms different angles to process the die; the second driving motor operates to drive the second air cylinder to horizontally rotate, and the drill bit horizontally rotates to align to the drilling part of the die; the left and right guide cylinders contract to drive the electric drill device to horizontally move leftwards; the front and rear guide cylinders contract to drive the electric drill device to move forwards and horizontally. The utility model discloses an electric drill device through numerical control electric control box control realizes the automatic processing of mould.

(2) The utility model is additionally provided with a rotating device, a third cylinder extends, and the third cylinder drives a third driving motor to move upwards, so that a first power shaft passes through a through hole to contact with a threaded hole; the third driving motor operates to drive the first power shaft to rotate, and the first power shaft is screwed into the threaded hole to fix the first power shaft and the metal block; and a third driving motor drives the first power shaft to rotate, the metal block rotates, and the drill bit finely processes the rotating die base. The utility model discloses a rotating device prevents that metal block from rotating in the course of working, and auxiliary drill carries out the fine processing to the mould.

(3) The utility model discloses having add the air-blower, the air-blower function, the air-blower blast air is followed the pipe inflow tuyere, and the tuyere leads the mould of processing with wind, and the waste residue that the air current that flows will produce man-hour blows off equipment from the slag notch. The utility model discloses a waste residue is discharged in the help of air-blower, prevents that the waste residue from influencing processingquality.

Drawings

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

fig. 2 is a right side sectional view of the present invention;

fig. 3 is a structural view of the electric drill apparatus;

FIG. 4 is a metal block patterning;

FIG. 5 is a view showing a structure of a turning device;

fig. 6 is a structural view of the movable box.

Wherein: the device comprises a box body 1, a support 2, an electric drill device 3, a drill 31, a first drive motor 32, a first protective shell 33, a rotating shaft 34, a first air cylinder 35, a second air cylinder 36, a second drive motor 37, a second protective shell 38, a cutting device 4, a blast hole 5, a metal block 6, a mold 61, a support 62, a base 63, a threaded hole 64, an air guide pipe 7, a rotating device 8, a first power shaft 81, a third protective shell 82, a third drive motor 83, a third air cylinder 84, a conveyor belt 9, a partition plate 91, a through hole 92, a universal wheel 10, a sliding plate 11, a coaming 12, a support sliding rail 13, a wrench 14, a fixed support 15, a numerical control electric cabinet 16, an air blower 17, a slag hole 18, a mold outlet 19, a moving box 20, a left guide air cylinder 201, a right guide air cylinder 201, a front guide air.

Detailed Description

The automatic numerical control mold machining center device provided by the embodiment has a structure as shown in fig. 1-6, and comprises,

the box body 1 is provided with a groove at the top part of the box body 1, a cavity in the front-back direction is formed in the middle part of the box body 1, the top part of the box body 1 is connected with a support 2, the bottom part of the box body 1 is connected with universal wheels 10, and the box body 1 plays a role in protection and support;

the numerical control electric cabinet 16 is arranged in a hollow hole in the middle of the box body 1, the numerical control electric cabinet 16 is connected with a driving motor, an air cylinder and a power supply in the equipment, and the numerical control electric cabinet 16 controls the operation of the control equipment;

the conveying device structurally comprises a conveying belt 9, a driving motor and a pulley, is arranged in a groove in the top of the box body 1, and conveys the metal blocks 6 from left to right for processing;

the cutting device 4 structurally comprises a driving motor and a cutting knife, the cutting device 4 is connected with a movable box 20 in the top wall of the right part of the bracket 2, and the cutting device 4 cuts a processed die 61 from a support 62;

the electric drill device 3 is arranged at the bottom of the moving box 20 at the left side of the bracket 2, the electric drill device 3 comprises,

the drill bit 31 is arranged at the bottommost end of the electric drill device 3, the drill bit 31 is connected with a first driving motor 32 through a power shaft, and the drill bit 31 is used for drilling a hole on the die 61;

a first driving motor 32, wherein the first driving motor 32 is fixed in a first protective shell 33, and the first driving motor 32 drives the drill 31 to rotate;

the two ends of the first air cylinder 35 are respectively connected to the bottom end of the second air cylinder 36 and the outer wall of the first protective shell 33 through rotating shafts, and the first air cylinder 35 stretches and retracts to change the angle between the first protective shell 33 and the second air cylinder 36;

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 fixedly connected with a second driving motor 37, the bottom of the second air cylinder 36 is connected with the first protective shell 33 through a rotating shaft 34, and the second air cylinder 36 stretches to enable the drill bit 31 to move up and down;

no. two driving motor 37, No. two driving motor 37 are fixed in No. two protecting sheathing 38 recesses, No. two driving motor 37 connects the top of No. two cylinders 36, No. two driving motor 37 drive No. two cylinders 36 horizontal rotation.

The conveying belt 9 is provided with a partition plate 91, the base is clamped by the two partition plates 91, the metal block 6 is prevented from moving left and right during processing, and the partition plates 91 push the metal block 6 to move right.

A through hole 92 is formed in the central axis position between the group of partition plates 91, and the through hole 92 is aligned with the threaded hole 64 of the metal block 6, so that the first power shaft 81 of the rotating device is connected with the threaded hole 64.

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 support sliding track 13, 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 63 to prevent the metal block 6 from moving back and forth or falling off during processing.

The box body 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 15, the fixed supports 15 are connected with the box body 1 through rotating shafts, the fixed supports 15 can rotate up and down around the rotating shafts, and the fixed supports 15 fix equipment to prevent the equipment from sliding randomly.

The outer wall of the box body 1 at the top of each fixing support 15 is connected with a wrench 14, the wrench 14 is connected with the outer wall of the box body 1 through a bearing, the wrench 14 can rotate around the bearing, and the wrench 14 can fix the fixing supports 15 on the outer wall of the box body 1, so that the equipment can be conveniently moved.

The support 2 is a U-shaped long plate, two bottom ends of the U-shaped support 2 are connected to the front side and the rear side of the top of the box body 1 respectively, and the support 2 supports an electric drill device 3 and a cutting device 4.

Two cavities are formed in the top plate of the support 2, a moving box 20 is respectively placed in the two cavities, each moving box 20 comprises a left guiding cylinder 201 and a right guiding cylinder 201, the lower side of the right end of each left guiding cylinder 201 is fixedly connected with an electric drill device 3 or a cutting device 4, and the left guiding cylinder 201 extends and retracts to move the devices left and right; and the rear end of the front and rear guide cylinder 202 is fixedly connected with the left end of the left and right guide cylinder 201, the front end of the front and rear guide cylinder 202 is fixed on the movable box 20, and the front and rear guide cylinder 202 extends and retracts to move the device back and forth.

The rear side wall of the support 2 is provided with a hole, the inner side of the hole is communicated with a blast port 5, an air guide pipe 7 penetrates through the hole and is connected with the blast port 5, the blast port 5 guides air to the die 61, and waste slag generated after the die 61 is processed is blown out from a slag outlet.

The left side of the cavity in the middle of the box body 1 is provided with an air blower 17, an air outlet of the air blower 17 is connected with the bottom end of the air guide pipe 7, the top end of the air guide pipe 7 is connected with the blast port 5, and the air blower 17 blows air into the blast port 5.

The top of the box body 1 right below the electric drill device 3 is provided with a groove, a rotating device 8 is arranged in the groove, the rotating device 8 comprises a third air cylinder 84, the third air cylinder 84 is arranged in the groove of the third protective shell 82, the top of the third air cylinder 84 is fixedly connected with a third driving motor 83, and the third air cylinder 84 stretches and retracts to enable the third driving motor 83 to move up and down; no. three driving motor 83, No. three driving motor 83 set up in No. three protecting sheathing 82's recess, No. three driving motor 83 bottom fixed connection No. three cylinders 84, No. three driving motor 83 top connection power shaft 81, No. three driving motor 83 drive a power shaft 81 and rotate.

The surface of the first power shaft 81 is provided with threads, the threads correspond to the threads on the wall of the threaded hole 64, and the first power shaft 81 is fixed with the threaded hole 64 so as to fix or rotate the metal block 6 and facilitate fine machining of the die 61.

The top of the box body 1 at the rear side below the cutting device 4 is fixedly provided with a sliding plate 11, the sliding plate 11 is communicated with a die outlet 19, the left end and the right end of the top of the sliding plate 11 are respectively connected with a coaming 12, the sliding plate 11 guides a cut and processed die 61 out of the device, and the coamings 12 prevent the die 61 from falling off in the sliding process.

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 support columns respectively, and the universal wheels 10 facilitate movement of equipment when supporting the box body 1.

The utility model discloses a theory of operation: when in use, a user operates the numerical control electric cabinet 16 to operate the equipment; the base 63 of the metal block 6 is clamped between the partition boards 91, and the support 62 of the metal block 6 is inserted into the support sliding rail 13; the conveyor belt 9 operates to drive the metal block 6 to move rightwards, and the metal block 6 is conveyed to the lower part of the electric drill device 3; the third cylinder 84 extends long, and the third cylinder 84 drives the third driving motor 83 to move upwards, so that the first power shaft 81 passes through the through hole and contacts the threaded hole 64; the third driving motor 83 operates, the third driving motor 83 drives the first power shaft 81 to rotate, and the first power shaft 81 is screwed into the threaded hole 64, so that the first power shaft 81 is fixed with the metal block 6; during drilling, the second cylinder 36 extends, the first protective shell 33 connected with the second cylinder 36 moves downwards, and the drill 31 moves downwards to attach to the die 61; the first driving motor 32 drives the power shaft to rotate, the drill 31 connected with the power shaft rotates, and drilling processing is carried out on the die 61; the first air cylinder contracts 35, the second air cylinder 36 and the first protective shell 33 are in different angles through the first air cylinder 35, and the drill 31 is in different angles to process the die 61; the second driving motor 37 operates, the second driving motor 37 drives the second air cylinder 36 to horizontally rotate, and the drill 31 horizontally rotates to align with the drilling part of the mold 61; the left and right guide cylinders 201 contract to drive the electric drill device 3 to horizontally move leftwards; the front and rear guide cylinders 202 contract to drive the electric drill device 3 to move forwards and horizontally; the third driving motor 83 drives the first power shaft 81 to rotate, the metal block 6 rotates, and the drill 31 finely processes the rotating die 61; the blower 17 is operated, the blower 17 blows air from the guide pipe 7 into the tuyere 5, the tuyere 5 guides the air to the mold 61 being processed, and the flowing air flow blows the slag generated during processing out of the apparatus from the slag outlet 18; after the die 61 is machined, the third driving motor 83 and the third air cylinder 84 operate to separate the first power shaft 81 from the threaded hole 64; the conveyor belt 9 continues moving rightwards, the metal block 6 is conveyed to the position below the cutting device 4, the cutting device 4 is tightly attached to the connecting position of the die 61 and the support column 62, the front guide cylinder 202 and the rear guide cylinder 202 extend, and the die 61 is cut off from the support column 62 by the cutting device 4; the machined die 61 slides off the slide plate 11 to the die outlet 19 and finally falls into a collection box below the die outlet 19; the front and rear guide cylinders 202 contract and the cutting device 4 leaves the pillar 62; the conveyor 9 continues to move to the right, conveying the pillar 62 and the base 63 to the right end of the conveyor 9, and the pillar 62 and the base 63 fall off the conveyor 9 into a collection box placed at the lower end. The utility model discloses an electric drill device 3 and cutting device 4 of 16 controls of numerical control electric cabinets realize automatic processing mould.

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 (6)

1. An automatic numerical control die machining center device is characterized by comprising,

the device comprises a box body (1), wherein a groove is formed in the top of the box body (1), a cavity in the front-back direction is formed in the middle of the box body (1), a support (2) is connected to the top of the box body (1), universal wheels (10) are connected to the bottom of the box body (1), and the box body (1) plays a role in protection and support;

the numerical control electric cabinet (16) is arranged in a hollow hole in the middle of the box body (1), the numerical control electric cabinet (16) is connected with a driving motor, an air cylinder and a power supply in the equipment, and the numerical control electric cabinet (16) controls the operation of the control equipment;

the conveying device structurally comprises a conveying belt (9), a driving motor and a pulley, is arranged in a groove in the top of the box body (1), and conveys the metal blocks (6) from left to right for processing;

the cutting device (4) structurally comprises a driving motor and a cutting knife, the cutting device (4) is connected with a movable box (20) in the top wall of the right part of the support (2), and the cutting device (4) cuts the processed die (61) from the support (62);

the electric drill device (3) is arranged at the bottom of the left moving box (20) of the bracket (2), the electric drill device (3) comprises,

the drill bit (31) is arranged at the bottommost end of the electric drill device (3), the drill bit (31) is connected with a first driving motor (32) through a power shaft, and the drill bit (31) drills a mold (61);

the first driving motor (32), the first driving motor (32) is fixed in the first protective shell (33), and the first driving motor (32) drives the drill bit (31) to rotate;

the two ends of the first air cylinder (35) are respectively connected to the bottom end of the second air cylinder (36) and the outer wall of the first protective shell (33) through rotating shafts, and the first air cylinder (35) stretches and retracts to change the angle between the first protective shell (33) and the second air cylinder (36);

the second cylinder (36) is arranged in a groove of a second protective shell (38), the top of the second cylinder (36) is fixedly connected with a second driving motor (37), the bottom of the second cylinder (36) is connected with a first protective shell (33) through a rotating shaft (34), and the second cylinder (36) stretches to enable the drill bit (31) to move up and down;

no. two driving motor (37), No. two driving motor (37) are fixed in No. two protecting sheathing (38) recesses, the top of No. two cylinder (36) is connected in No. two driving motor (37), No. two driving motor (37) drive No. two cylinder (36) horizontal rotation.

2. The automated numerical control mold machining center apparatus of 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 (15), the fixed supports (15) are connected with the box body (1) through rotating shafts, the fixed supports (15) can rotate up and down around the rotating shafts, and the fixed supports (15) fix equipment and prevent the equipment from sliding randomly.

3. The automated numerical control mold machining center apparatus of claim 2, wherein: be connected with one spanner (14) on box (1) outer wall at each fixed bolster (15) top, spanner (14) pass through bearing and box (1) outer wall connection, spanner (14) can rotate around the bearing, spanner (14) can be fixed bolster (15) on box (1) outer wall, make things convenient for the removal of equipment.

4. The automated numerical control mold machining center apparatus of claim 1, wherein: two cavities are formed in the top plate of the support (2), a moving box (20) is respectively placed in the two cavities, each moving box (20) comprises a left guiding cylinder (201) and a right guiding cylinder (201), the lower side of the right end of each left guiding cylinder (201) is fixedly connected with an electric drill device (3) or a cutting device (4), and the left guiding cylinder (201) and the right guiding cylinder extend and retract to move the devices left and right; the rear end of the front and rear guide cylinder (202) is fixedly connected with the left end of the left and right guide cylinder (201), the front end of the front and rear guide cylinder (202) is fixed on the movable box (20), and the front and rear guide cylinder (202) stretches and retracts to move the device back and forth.

5. The automated numerical control mold machining center apparatus of claim 1, wherein: the top of the box body (1) right below the electric drill device (3) is provided with a groove, a rotating device (8) is arranged in the groove, the rotating device (8) comprises a third air cylinder (84), the third air cylinder (84) is arranged in the groove of the third protective shell (82), the top of the third air cylinder (84) is fixedly connected with a third driving motor (83), and the third air cylinder (84) stretches to enable the third driving motor (83) to move up and down; no. three driving motor (83), No. three driving motor (83) set up in the recess of No. three protecting sheathing (82), No. three driving motor (83) bottom fixed connection No. three cylinder (84), No. three driving motor (83) top is connected power shaft (81), No. three driving motor (83) drive a power shaft (81) and rotate.

6. The automated numerical control mold machining center apparatus of claim 1, wherein: the box (1) top of cutting device (4) below rear side is fixed with slide (11), slide (11) intercommunication mould export (19), both ends are respectively connected a bounding wall (12) about slide (11) top, slide (11) will cut mould (61) that the processing is good and derive equipment down, bounding wall (12) prevent that mould (61) from droing at the in-process that slides.

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