CN108500230B - Increase mould pressure and reduce alloy injection moulding equipment that bubble generated - Google Patents

Increase mould pressure and reduce alloy injection moulding equipment that bubble generated Download PDF

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Publication number
CN108500230B
CN108500230B CN201810466226.9A CN201810466226A CN108500230B CN 108500230 B CN108500230 B CN 108500230B CN 201810466226 A CN201810466226 A CN 201810466226A CN 108500230 B CN108500230 B CN 108500230B
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CN
China
Prior art keywords
rotary
rotary arm
swinging boom
injection molding
bearing
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Active
Application number
CN201810466226.9A
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Chinese (zh)
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CN108500230A (en
Inventor
杜浩津
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Dongyang Juntai Construction Engineering Co., Ltd.
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Dongyang Juntai Construction Engineering Co Ltd
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Priority to CN201810466226.9A priority Critical patent/CN108500230B/en
Publication of CN108500230A publication Critical patent/CN108500230A/en
Application granted granted Critical
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Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B22CASTING; POWDER METALLURGY
    • B22DCASTING OF METALS; CASTING OF OTHER SUBSTANCES BY THE SAME PROCESSES OR DEVICES
    • B22D13/00Centrifugal casting; Casting by using centrifugal force
    • B22D13/06Centrifugal casting; Casting by using centrifugal force of solid or hollow bodies in moulds rotating around an axis arranged outside the mould
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B22CASTING; POWDER METALLURGY
    • B22DCASTING OF METALS; CASTING OF OTHER SUBSTANCES BY THE SAME PROCESSES OR DEVICES
    • B22D13/00Centrifugal casting; Casting by using centrifugal force
    • B22D13/10Accessories for centrifugal casting apparatus, e.g. moulds, linings therefor, means for feeding molten metal, cleansing moulds, removing castings
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B22CASTING; POWDER METALLURGY
    • B22DCASTING OF METALS; CASTING OF OTHER SUBSTANCES BY THE SAME PROCESSES OR DEVICES
    • B22D13/00Centrifugal casting; Casting by using centrifugal force
    • B22D13/10Accessories for centrifugal casting apparatus, e.g. moulds, linings therefor, means for feeding molten metal, cleansing moulds, removing castings
    • B22D13/107Means for feeding molten metal
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B22CASTING; POWDER METALLURGY
    • B22DCASTING OF METALS; CASTING OF OTHER SUBSTANCES BY THE SAME PROCESSES OR DEVICES
    • B22D13/00Centrifugal casting; Casting by using centrifugal force
    • B22D13/12Controlling, supervising, specially adapted to centrifugal casting, e.g. for safety reasons
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B22CASTING; POWDER METALLURGY
    • B22DCASTING OF METALS; CASTING OF OTHER SUBSTANCES BY THE SAME PROCESSES OR DEVICES
    • B22D27/00Treating the metal in the mould while it is molten or ductile ; Pressure or vacuum casting
    • B22D27/09Treating the metal in the mould while it is molten or ductile ; Pressure or vacuum casting by using pressure
    • B22D27/11Treating the metal in the mould while it is molten or ductile ; Pressure or vacuum casting by using pressure making use of mechanical pressing devices

Abstract

The invention discloses an alloy injection molding device for reducing bubble generation by increasing the pressure intensity of a mold, which comprises a base, the base is positioned above the ground, a rotating mechanism is arranged above the base, a rotating arm mechanism is arranged on one side of the rotating mechanism, an injection molding mechanism is arranged above the rotating arm mechanism, a controller and a battery box are respectively arranged above the base, the power input end of the controller is electrically connected with the power output end of the battery box, the power output end of the controller is respectively electrically connected with the laser transmitter, the laser receiver, the rotary arm power motor, the multi-shaft sensor, the rotary arm linear motor and the injection molding mechanism, the signal output end of the controller is respectively and electrically connected with the laser emitter, the rotary arm power motor, the rotary arm linear motor and the injection molding mechanism, and the signal input end of the controller is respectively and electrically connected with the laser receiver and the multi-axis sensor. The invention has the advantages of simple structure and strong practicability.

Description

Increase mould pressure and reduce alloy injection moulding equipment that bubble generated
Technical Field
The invention relates to the field of alloy injection molding processing, in particular to alloy injection molding equipment for reducing bubble generation by increasing mold pressure.
Background
The traditional alloy is easy to generate bubbles due to small internal pressure during injection molding, and certain influence is caused on the production quality.
Disclosure of Invention
The invention aims to solve the problems and designs an alloy injection molding device which increases the pressure of a mold to reduce bubble generation.
The alloy injection molding equipment comprises a base, wherein the base is positioned above the ground, a rotating mechanism is arranged above the base and consists of a grating bearing seat fixedly connected above the base, a grating bearing arranged on the grating bearing seat, a grating shaft inserted on the grating bearing, a rotary driven wheel and a grating wheel sleeved on the grating shaft, a C-shaped grating block fixedly connected with the base and positioned on one side of the grating wheel, a laser transmitter and a laser receiver respectively arranged at the upper end and the lower end of the C-shaped grating block, a rotary support bearing fixing frame fixedly connected above the base, a rotary support bearing arranged on the rotary support bearing fixing frame, a rotary disk fixedly connected above the rotary support bearing, a rotary arm power motor mounting frame fixedly connected above the base, a rotary arm power motor mounting frame and a rotary arm power motor mounting frame, Install the swinging boom motor power on swinging boom motor power mounting bracket, suit rotatory power wheel, suit on the rotatory end of swinging boom motor power, suit are rotatory power wheel and rotatory from the driving belt on the driving wheel, with swinging boom motor power rotation fixed connection's swinging boom power shaft adapter, install the swinging boom power shaft on swinging boom power shaft adapter, both ends respectively with swinging boom power shaft and rotary disk fixed connection's swinging boom power shaft mount constitute jointly, rotary mechanism one side is equipped with the swinging boom mechanism, the swinging boom mechanism is by the swinging boom that is located the rotary disk top fixed connection one, install swinging boom one bearing and multiaxis sensor at swinging boom one end, the swinging boom two-axis of cartridge on swinging boom one bearing, the swinging boom two-axis fixed connection with swinging boom two-axis fixed connection, the swinging boom linear electric motor stiff end mount that is located swinging boom, A fixed end bearing of a rotary arm linear motor arranged on a fixed end fixing frame of the rotary arm linear motor, a fixed end shaft of the rotary arm linear motor inserted on the fixed end bearing of the rotary arm linear motor, a fixed end mounting frame of the rotary arm linear motor fixedly connected with the fixed end shaft of the rotary arm linear motor, a rotary arm linear motor arranged on the fixed end mounting frame of the rotary arm linear motor, a telescopic end mounting frame of the rotary arm linear motor fixedly connected with the telescopic end mounting frame of the rotary arm linear motor, a telescopic end shaft of the rotary arm linear motor sleeved on the telescopic end shaft of the rotary arm linear motor, and a telescopic end fixing frame of the rotary arm linear motor fixedly connected with the telescopic end bearing of the rotary arm linear motor and a telescopic end fixing frame of the rotary arm linear motor respectively, the utility model discloses a laser injection molding machine, including swinging boom mechanism, base, power input end, laser emitter, laser receiver, swinging boom motor, multiaxis sensor, swinging boom linear electric motor, the mechanism electric connection of moulding plastics, the signal output part of controller respectively with laser emitter, swinging boom motor, swinging boom linear electric motor, the mechanism electric connection of moulding plastics, the signal input part of controller respectively with laser receiver, multiaxis sensor electric connection.
The injection molding mechanism is composed of an injection molding fixing frame fixedly connected with the second upper rotating arm, an electromagnetic smelting furnace arranged on the injection molding fixing frame, a filler funnel fixedly connected with the upper side of the electromagnetic smelting furnace, a heating pipe fixedly connected with a discharge port of the electromagnetic smelting furnace, a heating coil sleeved on the outer side of the heating pipe, a mold fixedly connected with the heating pipe, and a mold fixing table fixedly connected with the mold and the injection molding fixing frame respectively, wherein the electromagnetic smelting furnace and the heating coil are respectively and electrically connected with a power output end and a signal output end of the controller.
The heating pipe is made of high-temperature resistant materials.
The heating coil is made of a conductive material for electromagnetic heating.
and a dustproof and waterproof shell is sleeved outside the battery box.
The battery box has a charging function.
The controller has a wireless signal receiving and transmitting function.
The controller is provided with a capacitive touch screen.
And a dustproof and liquid-proof shell is sleeved outside the controller.
The MCU model of the controller is an ARM series single chip microcomputer.
The alloy injection molding equipment manufactured by the technical scheme of the invention can reduce the generation of bubbles by increasing the pressure of the mold, simulate a high gravity environment by using centrifugal force, increase the pressure inside the mold and reduce the generation of bubbles inside an injection molding piece.
Drawings
FIG. 1 is a schematic structural diagram of an alloy injection molding apparatus according to the present invention for increasing mold pressure to reduce bubble generation;
FIG. 2 is a schematic view of a rotary mechanism of the present invention;
FIG. 3 is a partially schematic view of a rotary mechanism of the present invention;
FIG. 4 is a schematic view of the rotating arm mechanism of the present invention;
FIG. 5 is a schematic view of an injection molding mechanism according to the present invention;
In the figure, 1, a base; 2. a grating bearing seat; 3. a grating bearing; 4. a grating axis; 5. rotating the driven wheel; 6. a grating wheel; 7. a C-shaped grating block; 8. a laser transmitter; 9. a laser receiver; 10. a rotary support bearing fixing frame; 11. a rotation support bearing; 12. rotating the disc; 13. a rotating arm power motor mounting rack; 14. a rotating arm power motor; 15. rotating the power wheel; 16. a transmission belt; 17. a rotating arm power shaft adapter; 18. a rotating arm power shaft; 19. a rotating arm power shaft fixing frame; 20. a first rotating arm; 21. a bearing for rotating the arm; 22. a multi-axis sensor; 23. rotating the arm two-axis; 24. a second rotating arm; 25. a fixed end fixing frame of a rotary arm linear motor; 26. a rotating arm linear motor fixed end bearing; 27. a rotating arm linear motor fixes an end shaft; 28. a mounting rack for the fixed end of the rotary arm linear motor; 29. a rotating arm linear motor; 30. a mounting rack for the telescopic end of the rotary arm linear motor; 31. a telescopic end shaft of a rotary arm linear motor; 32. a telescopic end bearing of a rotary arm linear motor; 33. a telescopic end fixing frame of a rotary arm linear motor; 34. a controller; 35. a battery case; 36. injection molding the fixing frame; 37. an electromagnetic furnace; 38. a filler hopper; 39. heating a tube; 40. a heating coil; 41. a mold; 42. and a mold fixing table.
Detailed Description
The invention is described in detail below with reference to the accompanying drawings, and as shown in fig. 1-5, an alloy injection molding apparatus for increasing mold pressure to reduce bubble generation comprises a base 1, wherein the base 1 is located above the ground, a rotating mechanism is arranged above the base 1, and the rotating mechanism comprises a grating bearing seat 2 fixedly connected above the base 1, a grating bearing 3 arranged on the grating bearing seat 2, a grating shaft 4 inserted on the grating bearing 3, a rotary driven wheel 5 and a grating wheel 6 sleeved on the grating shaft 4, a C-shaped grating block 7 fixedly connected with the base 1 at one side of the grating wheel 6, a laser emitter 8 and a laser receiver 9 respectively arranged at the upper end and the lower end of the C-shaped grating block 7, a rotary supporting bearing fixing frame 10 fixedly connected above the base 1, a rotary supporting bearing 11 arranged on the rotary supporting bearing fixing frame 10, a rotary supporting bearing 11 arranged on the rotary supporting bearing fixing, A rotary disk 12 fixedly connected above the rotary supporting bearing 11, a rotary arm power motor mounting bracket 13 fixedly connected above the base 1, a rotary arm power motor 14 mounted on the rotary arm power motor mounting bracket 13, a rotary power wheel 15 sleeved on the rotary end of the rotary arm power motor 14, a transmission belt 16 sleeved on the rotary power wheel 15 and the rotary driven wheel 5, a rotary arm power shaft adapter 17 fixedly connected with the rotary end of the rotary arm power motor 14, a rotary arm power shaft 18 mounted on the rotary arm power shaft adapter 17, and a rotary arm power shaft mounting bracket 19 fixedly connected with the rotary arm power shaft 18 and the rotary disk 12 at both ends respectively, wherein a rotary arm mechanism is arranged on one side of the rotary mechanism and consists of a rotary arm unit 20 fixedly connected above the rotary disk 12, a rotary arm bearing 21 and a multi-axis sensor 22 mounted at one end of the rotary arm unit 20, A second pivot arm 23 mounted on the pivot arm bearing 21, a second pivot arm 24 fixedly connected to the second pivot arm 23, a first pivot arm linear motor fixed end mount 25 fixedly connected to the upper side of the first pivot arm 20, a pivot arm linear motor fixed end bearing 26 mounted on the pivot arm linear motor fixed end mount 25, a pivot arm linear motor fixed end shaft 27 mounted on the pivot arm linear motor fixed end bearing 26, a pivot arm linear motor fixed end mounting bracket 28 fixedly connected to the pivot arm linear motor fixed end shaft 27, a pivot arm linear motor 29 mounted on the pivot arm linear motor fixed end mounting bracket 28, a pivot arm linear motor telescopic end mounting bracket 30 fixedly connected to the pivot arm linear motor 29 telescopic end, a pivot arm linear motor telescopic end shaft 31 fixedly connected to the pivot arm linear motor telescopic end mounting bracket 30, a second pivot arm 24 fixedly connected to the pivot, Flexible end bearing 32 of swinging boom linear electric motor of suit on flexible end shaft 31 of swinging boom linear electric motor, respectively with flexible end bearing 32 of swinging boom linear electric motor and the flexible end mount 33 of swinging boom two 24 fixed connection's swinging boom linear electric motor constitute jointly, swinging boom mechanism top is equipped with the mechanism of moulding plastics, base 1 top is equipped with controller 34 and battery case 35 respectively, the power input end of controller and the power output end electric connection of battery case, the power output end of controller respectively with laser emitter, laser receiver, swinging boom motor power, multiaxis sensor, swinging boom linear electric motor, the mechanism electric connection of moulding plastics, the signal output part of controller respectively with laser emitter, swinging boom motor power, the mechanism electric connection of moulding plastics, the signal input part of controller respectively with laser receiver, The multi-axis sensors are electrically connected; the injection molding mechanism is composed of an electromagnetic smelting furnace 37, a filling funnel 38, a heating pipe 39, a heating coil 40, a mold 41 and a mold fixing table 42, wherein the electromagnetic smelting furnace 37 is fixedly connected above the rotating arm II 24, the injection molding fixing frame 36 is fixedly connected with the upper portion of the rotating arm II 24 and is arranged on the injection molding fixing frame 36, the filling funnel 38 is fixedly connected above the electromagnetic smelting furnace 37, the heating pipe 39 is fixedly connected with a discharge port of the electromagnetic smelting furnace 37, the heating coil 40 is sleeved on the outer side of the heating pipe 39, the mold 41 is fixedly connected with the heating pipe 39, and the mold fixing table 42 is; the heating pipe 39 is made of high-temperature resistant material; the heating coil 40 is made of a conductive material for electromagnetic heating; a dustproof and waterproof shell is sleeved outside the battery box 35; the battery box 35 has a charging function; the controller 34 has a wireless signal receiving and transmitting function; the controller 34 has a capacitive touch screen; a dustproof and liquid-proof shell is sleeved outside the controller 34; the MCU model of the controller 34 is an ARM series single chip microcomputer.
The embodiment is characterized by comprising a base, wherein the base is positioned above the ground, a rotating mechanism is arranged above the base and consists of a grating bearing seat fixedly connected above the base, a grating bearing arranged on the grating bearing seat, a grating shaft inserted on the grating bearing, a rotary driven wheel and a grating wheel sleeved on the grating shaft, a C-shaped grating block fixedly connected with the base and positioned on one side of the grating wheel, a laser transmitter and a laser receiver respectively arranged at the upper end and the lower end of the C-shaped grating block, a rotary supporting bearing fixing frame fixedly connected above the base, a rotary supporting bearing arranged on the rotary supporting bearing fixing frame, a rotary disk fixedly connected above the rotary supporting bearing, a rotary arm power motor mounting frame fixedly connected above the base, a rotary arm power motor arranged on the rotary arm power motor mounting frame, a rotary arm power motor arranged on the, A rotary power wheel sleeved on the rotary end of the rotary arm power motor, a transmission belt sleeved on the rotary power wheel and the rotary driven wheel, a rotary arm power shaft adapter fixedly connected with the rotary arm power motor, a rotary arm power shaft installed on the rotary arm power shaft adapter, and a rotary arm power shaft fixing frame with two ends respectively fixedly connected with the rotary arm power shaft and the rotary disk, wherein one side of the rotary mechanism is provided with a rotary arm mechanism, and the rotary arm mechanism consists of a rotary arm I fixedly connected above the rotary disk, a rotary arm I bearing and a multi-shaft sensor installed at one end of the rotary arm I, a rotary arm II inserted on the rotary arm I bearing, a rotary arm II fixedly connected with the rotary arm II, a rotary arm linear motor fixing frame fixedly connected above the rotary arm I, a rotary arm linear motor fixing end bearing installed on the rotary arm linear motor, A fixed end shaft of a rotary arm linear motor inserted on a fixed end bearing of the rotary arm linear motor, a fixed end mounting frame of the rotary arm linear motor fixedly connected with the fixed end shaft of the rotary arm linear motor, a rotary arm linear motor arranged on the fixed end mounting frame of the rotary arm linear motor, a telescopic end mounting frame of the rotary arm linear motor fixedly connected with the telescopic end mounting frame of the rotary arm linear motor, a telescopic end shaft of the rotary arm linear motor fixedly connected with the telescopic end mounting frame of the rotary arm linear motor, a telescopic end bearing of the rotary arm linear motor sleeved on the telescopic end shaft of the rotary arm linear motor, a telescopic end fixing frame of the rotary arm linear motor fixedly connected with the telescopic end bearing of the rotary arm linear motor and a telescopic end fixing frame of the rotary arm linear motor respectively, an injection molding mechanism is arranged above the rotary arm mechanism, a controller and a battery, the power output end of the controller is respectively electrically connected with the laser transmitter, the laser receiver, the rotating arm power motor, the multi-axis sensor, the rotating arm linear motor and the injection molding mechanism, the signal output end of the controller is respectively electrically connected with the laser transmitter, the rotating arm power motor, the rotating arm linear motor and the injection molding mechanism, and the signal input end of the controller is respectively electrically connected with the laser receiver and the multi-axis sensor. The high-gravity environment is simulated by utilizing centrifugal force, the pressure inside the mold is increased, and the generation of air bubbles inside the injection molding part is reduced.
In this embodiment, open cell-phone APP activation equipment, from the filler funnel to the inside material of feeding of electromagnetism smelting pot, close pan feeding mouth and discharge gate through touch-sensitive screen control electromagnetism smelting pot, and heat the inside alloy, control swinging boom power motor and drive the rotary disk rotatory on the way of heating, utilize laser receiver and laser emitter to measure the rotation rate of rotary disk to the detection of grating wheel, utilize the multiaxis sensor to measure the centrifugal force that the mechanism of moulding plastics bore, through the ratio of analysis gravity and centrifugal force make the inside pressure of mould parallel with the mould venthole all the time through swinging boom linear electric motor angle of adjustment, when centrifugal force size is suitable, the discharge gate is opened to the electromagnetism smelting pot, flow into the mould through the heating pipe, fill up until the mould, the inside temperature of heating pipe heats the heat preservation through the heating coil during.
The technical solutions described above only represent the preferred technical solutions of the present invention, and some possible modifications to some parts of the technical solutions by those skilled in the art all represent the principles of the present invention, and fall within the protection scope of the present invention.

Claims (10)

1. The utility model provides an increase mould pressure and reduce alloy injection moulding equipment that bubble generated, includes base (1), its characterized in that, base (1) is located the ground top, base (1) top is equipped with rotary mechanism, rotary mechanism by be located base (1) top fixed connection's grating bearing frame (2), install grating bearing (3) on grating bearing frame (2), cartridge grating axle (4) on grating bearing (3), the rotation of suit on grating axle (4) from driving wheel (5) and grating wheel (6), be located grating wheel (6) one side and base (1) fixed connection's C shape grating piece (7), install respectively at both ends laser emitter (8) and laser receiver (9) about C shape grating piece (7), be located base (1) top fixed connection's rotation support bearing mount (10), A rotary support bearing (11) arranged on a rotary support bearing fixing frame (10), a rotary disc (12) fixedly connected above the rotary support bearing (11), a rotary arm power motor mounting frame (13) fixedly connected above the base (1), a rotary arm power motor (14) arranged on the rotary arm power motor mounting frame (13), a rotary power wheel (15) sleeved on the rotary end of the rotary arm power motor (14), a transmission belt (16) sleeved on the rotary power wheel (15) and the rotary driven wheel (5), a rotary arm power shaft adapter (17) fixedly connected with the rotary end of the rotary arm power motor (14), a rotary arm power shaft (18) arranged on the rotary arm power shaft adapter (17), and a rotary arm power shaft fixing frame (19) with two ends respectively and fixedly connected with the rotary arm power shaft (18) and the rotary disc (12), rotary mechanism one side is equipped with swinging boom mechanism, swinging boom mechanism is by the swinging boom (20) that is located rotary disk (12) top fixed connection, install swinging boom bearing (21) and multiaxis sensor (22) in swinging boom (20) one end, cartridge swinging boom biax (23) on swinging boom bearing (21), with swinging boom biax (23) fixed connection's swinging boom II (24), be located swinging boom (20) top fixed connection's swinging boom linear electric motor stiff end mount (25), install swinging boom linear electric motor fixed end bearing (26) on swinging boom linear electric motor stiff end mount (25), cartridge swinging boom linear electric motor fixed end axle (27) on swinging boom linear electric motor fixed end bearing (26), with swinging boom linear electric motor fixed end mount (28) fixed connection's swinging boom linear electric motor fixed end axle (27), A rotary arm linear motor (29) arranged on a rotary arm linear motor fixed end mounting frame (28), a rotary arm linear motor telescopic end mounting frame (30) fixedly connected with the rotary arm linear motor (29), a rotary arm linear motor telescopic end shaft (31) fixedly connected with the rotary arm linear motor telescopic end mounting frame (30), a rotary arm linear motor telescopic end bearing (32) sleeved on the rotary arm linear motor telescopic end shaft (31), and a rotary arm linear motor telescopic end fixing frame (33) fixedly connected with the rotary arm linear motor telescopic end bearing (32) and a rotary arm II (24) respectively, wherein an injection molding mechanism is arranged above the rotary arm mechanism, a controller (34) and a battery box (35) are respectively arranged above the base (1), and the power input end of the controller is electrically connected with the power output end of the battery box, the power output end of the controller is respectively electrically connected with the laser transmitter, the laser receiver, the rotating arm power motor, the multi-axis sensor, the rotating arm linear motor and the injection molding mechanism, the signal output end of the controller is respectively electrically connected with the laser transmitter, the rotating arm power motor, the rotating arm linear motor and the injection molding mechanism, and the signal input end of the controller is respectively electrically connected with the laser receiver and the multi-axis sensor.
2. The alloy injection molding device for increasing the mold pressure to reduce the generation of bubbles according to claim 1, wherein the injection molding mechanism is composed of an electromagnetic melting furnace (37) which is fixedly connected with an injection fixing frame (36) positioned above the second rotating arm (24) and is installed on the injection fixing frame (36), a filling funnel (38) which is fixedly connected with the upper side of the electromagnetic melting furnace (37), a heating pipe (39) which is fixedly connected with a discharge port of the electromagnetic melting furnace (37), a heating coil (40) which is sleeved outside the heating pipe (39), a mold (41) which is fixedly connected with the heating pipe (39), and a mold fixing table (42) which is respectively fixedly connected with the mold (41) and the injection fixing frame (36), and the electromagnetic melting furnace and the heating coil are respectively and electrically connected with a power supply output end and a signal output end of the controller.
3. An alloy injection molding apparatus for increasing mold pressure to reduce bubble formation as claimed in claim 2, wherein said heating tube (39) is a high temperature resistant material.
4. An alloy injection molding apparatus for increasing mold pressure to reduce bubble generation as recited in claim 2, wherein said heating coil (40) is a conductive material for electromagnetic heating.
5. An alloy injection molding apparatus for increasing mold pressure to reduce bubble formation as claimed in claim 1, wherein said battery compartment (35) is externally covered with a dust and water proof enclosure.
6. An alloy injection molding apparatus for increasing mold pressure to reduce bubble formation as claimed in claim 1, wherein said battery compartment (35) has a charging function.
7. An alloy injection molding apparatus for increasing mold pressure to reduce bubble generation as recited in claim 1, wherein said controller (34) has wireless signal transmission and reception capability.
8. An alloy injection molding apparatus for increasing mold pressure to reduce bubble generation as recited in claim 1, wherein said controller (34) has a capacitive touch screen.
9. An alloy injection molding apparatus for increasing mold pressure to reduce bubble formation as recited in claim 1 wherein said controller (34) is externally jacketed with a dust and liquid proof enclosure.
10. An alloy injection molding apparatus for increasing mold pressure to reduce bubble generation as recited in claim 1, wherein the MCU model of the controller (34) is an ARM series single chip microcomputer.
CN201810466226.9A 2018-05-16 2018-05-16 Increase mould pressure and reduce alloy injection moulding equipment that bubble generated Active CN108500230B (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201810466226.9A CN108500230B (en) 2018-05-16 2018-05-16 Increase mould pressure and reduce alloy injection moulding equipment that bubble generated

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201810466226.9A CN108500230B (en) 2018-05-16 2018-05-16 Increase mould pressure and reduce alloy injection moulding equipment that bubble generated

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CN108500230B true CN108500230B (en) 2019-12-17

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CN110538977B (en) * 2019-09-17 2021-04-16 北京科技大学 Multidimensional shear flow casting device and method for weakening alloy segregation
CN111922312A (en) * 2020-07-29 2020-11-13 许益波 Cast aluminum part machining process

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CN1063691C (en) * 1994-08-30 2001-03-28 冠裕铸造股份有限公司 Horizontal centrifugal-force pressure casting method
CN103160715B (en) * 2011-12-19 2016-08-03 中国兵器科学研究院宁波分院 A kind of Gradient Aluminium Alloy cylinder jacket material and preparation method thereof
CN105081258A (en) * 2015-08-24 2015-11-25 浙江格兰德机械有限公司 Rotor forming machining method
JP6433446B2 (en) * 2016-02-24 2018-12-05 株式会社栗本鐵工所 Centrifugal casting trough
CN106001491A (en) * 2016-06-14 2016-10-12 重庆瑞方渝美压铸有限公司 Die casting method of die castings

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