CN106964765A - Multistation die-casting system based on rotation - Google Patents
Multistation die-casting system based on rotation Download PDFInfo
- Publication number
- CN106964765A CN106964765A CN201710187526.9A CN201710187526A CN106964765A CN 106964765 A CN106964765 A CN 106964765A CN 201710187526 A CN201710187526 A CN 201710187526A CN 106964765 A CN106964765 A CN 106964765A
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- station
- rotation
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- lifting
- die
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Classifications
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B22—CASTING; POWDER METALLURGY
- B22D—CASTING OF METALS; CASTING OF OTHER SUBSTANCES BY THE SAME PROCESSES OR DEVICES
- B22D17/00—Pressure die casting or injection die casting, i.e. casting in which the metal is forced into a mould under high pressure
- B22D17/002—Pressure die casting or injection die casting, i.e. casting in which the metal is forced into a mould under high pressure using movable moulds
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B22—CASTING; POWDER METALLURGY
- B22D—CASTING OF METALS; CASTING OF OTHER SUBSTANCES BY THE SAME PROCESSES OR DEVICES
- B22D17/00—Pressure die casting or injection die casting, i.e. casting in which the metal is forced into a mould under high pressure
- B22D17/20—Accessories: Details
- B22D17/2015—Means for forcing the molten metal into the die
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B22—CASTING; POWDER METALLURGY
- B22D—CASTING OF METALS; CASTING OF OTHER SUBSTANCES BY THE SAME PROCESSES OR DEVICES
- B22D17/00—Pressure die casting or injection die casting, i.e. casting in which the metal is forced into a mould under high pressure
- B22D17/20—Accessories: Details
- B22D17/26—Mechanisms or devices for locking or opening dies
- B22D17/266—Mechanisms or devices for locking or opening dies hydraulically
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- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Moulds For Moulding Plastics Or The Like (AREA)
Abstract
The invention provides a kind of multistation die-casting system based on rotation, including firm banking, swivel base, some mold closing mechanisms, and at least one pressing structure, the swivel base is on the upside of the firm banking, and mould can be provided with the mold closing mechanism along the axle center rotation of itself;The mold closing mechanism is moved by being rotated between different station, and the station includes die casting station, washes away station, cleaning station and discharge station;The rotation position of the pressing structure and the firm banking is relatively fixed, and can push the mold closing mechanism in the die casting station, and the mold closing mechanism in the die casting station can connect injection mechanism;Also include lifting mechanism and rotary drive mechanism, the swivel base is installed on the lifting mechanism, the lifting mechanism and swivel base thereon are driven by the rotary drive mechanism and rotated, and the rotary drive mechanism is installed on the firm banking.
Description
Technical field
The present invention relates to die casting field, more particularly to a kind of multistation die-casting system based on rotation.
Background technology
Die casting machine is exactly that molten metal bath injection is cooled and shaped into mould under pressure, and solid is obtained after die sinking
A series of industrial foundry machineries of metal casting, are used primarily for die casting font.With scientific and technical and industrial progress, especially
It is that, with industrial expansions such as automobile, motorcycle and household electrical appliance, aspects sets out, and die-casting technique has obtained extremely rapid
Development.
During existing die casting machine running, molten metal is injected into the mould in mold closing mechanism by injection device, so that
It is molded, however, the construction and function mode of existing die casting machine cause time cost and the people of whole press casting procedure consuming
Power cost is all higher, and operating efficiency is low.
The content of the invention
The technical problem to be solved in the present invention is how to improve the operating efficiency of die casting.
In order to solve the above technical problems, the invention provides a kind of multistation die-casting system based on rotation, including it is solid
Determine base, swivel base, some mold closing mechanisms, and at least one pressing structure, the swivel base is located at the fixed bottom
Seat upside, and mould can be provided with the mold closing mechanism along the axle center rotation of itself;The mold closing mechanism is by being rotated in not
Moved between station, the station includes die casting station, washes away station, cleaning station and discharge station;It is described wash away station, it is clear
Science and engineering position, discharge station and die casting station are sequentially arranged along direction of rotation;
The rotation position of the pressing structure and the firm banking is relatively fixed, and can be pushed in the die carter
The mold closing mechanism of position, the mold closing mechanism in the die casting station can connect injection mechanism;
Also include lifting mechanism and rotary drive mechanism, the swivel base is installed on the lifting mechanism, the lifting
Mechanism and swivel base thereon are driven by the rotary drive mechanism to be rotated, and the rotary drive mechanism is installed on described solid
Determine base;
Different moulds is provided with the different mold closing mechanisms.
Optionally, it is described to wash away station, cleaning station, and be respectively equipped with the outside of discharge station wash away mechanical arm, it is clear
Manage mechanical arm and blanking mechanical arm, the position for washing away mechanical arm, cleaning mechanical arm and blanking mechanical arm
Relatively described firm banking is put to fix.
Optionally, the blanking mechanical hand, clear up manipulator and wash away at least one manipulator including manipulator base,
Manipulator rotating disk, first rotating arm, the second turning arm, first are from pivoted arm, the 3rd turning arm and second from pivoted arm, the manipulator
Rotating disk is located on the upside of the manipulator base, and around to rotation, the lower end of first rotating arm is connected to institute around first rotating shaft vertically
Manipulator rotating disk is stated, the head end of second turning arm is connected to the lower end of the first rotating arm, described around the second rotating shaft
One rotating shaft and second rotating shaft are parallel to each other, and horizontally set, and described first is connected to second rotation from pivoted arm
The end of pivoted arm, described first is coaxial with the second turning arm in the first coaxial axle center from pivoted arm, and described first can from pivoted arm
Around the described first coaxial axle center rotation, the head end of the 3rd turning arm is rotatably connected in described first from pivoted arm around the 3rd rotating shaft
End, the 3rd rotating shaft is connected to the 3rd turning arm perpendicular to the described first coaxial axle center, described second from pivoted arm
End, described second is coaxial with the 3rd turning arm in the second coaxial axle center from pivoted arm, and described second can be around institute from pivoted arm
State the second coaxial axle center rotation.
Optionally, each mold closing mechanism includes stereotyped structure, ejector half structure and lifting driving structure;
The stereotyped structure is on the swivel base, and the ejector half structure is located at institute by the lifting driving structure
State on swivel base, each ejector half structure is correspondingly arranged on the upside of a stereotyped structure, and the ejector half structure is by rising
Drop driving structure driving is lifted;
The rotation position of the pressing structure and the firm banking is relatively fixed, and can be pushed in the die carter
Injection mechanism, the institute in the die casting station are provided with ejector half structure in the mold closing mechanism of position, the firm banking
The injection mechanism can be connected by stating mold closing mechanism.
Optionally, the ejector half structure includes lifting body and mobile, and the lifting body is driven by the lifting
Lifting is realized in structure driving, and the lifting body is provided with the upside of some perforation, the mobile provided with some vertical to setting
Ennation, the ennation is arranged in the perforation;It is provided between the lifting body and mobile to lock the liter
The locking device of lifting position between body and mobile drops;
Under the locking device lock-out state, the lifting body is realized with mobile by the lifting driving structure driving
Synchronization lifting;Under the locking device released state, the mobile has a descending stroke relative to the lifting body.
Optionally, the mold closing mechanism also includes fixed stopping means, and the descending stroke is limited device restriction.
Optionally, the injection structure edge is injected into the mould to by molten metal vertically.
Optionally, the injection structure includes vertical pressure chamber and is communicated to pouring for the pressure chamber by guide channel
Mold closing mechanism of the connection in die casting position on the upside of Kou Dao holes, the pouring head hole.
Optionally, the injection structure also include can along pressure chamber vertical shift injection punch head and piston, the work
Plug can block the pouring head hole by the vertical shift along the pressure chamber, and the piston does not block the position in the pouring head hole
Put down, the injection punch head can be vertical to note by molten metal edge through the guide channel by the molten metal in the pressure chamber
Project the pouring head hole
The working method of multistation is introduced into by the present invention on the basis of existing die casting machine, only real in die casting station
Existing die casting work, other work are carried out in other stations, such as can be blankings, wash away, clear up etc., of the invention based on this
The mode how die casting station carries out die casting is improved emphatically, and the lifting action that its one side has mold closing mechanism carries out matched moulds,
In order to improve the active force of matched moulds, the present invention also further arranges pushing when hold-down devices carry out die casting in die casting station.
Further, the present invention is when being rotated, and swivel base has been lifted, when not rotating, and swivel base is fallen in fixing device
On.
In preferred embodiments of the present invention, detailed design can be also carried out to manipulator, to realize the change of multi-angle various dimensions
Change, with the change of adaptation mechanical hand multiple angles and position.
In optional embodiment of the present invention, the ejector half structure is included in lifting body and mobile, the mobile
Side is provided with some vertical ennations to setting, and then, ejector half structure has two strokes, and one is that will lift body and mobile
A stroke is moved to, also further declines another stroke pressed with mobile, when pushing, it is possible to use push
Structure pushes lifting body and mobile simultaneously, and the limitation that lifting driving structure is acted to pressing can be made up to a certain extent.
In optional scheme of the invention, vertical injection is also achieved, it is contemplated that the change of station turns to horizontal direction rotation
Turn, the press casting procedure of the die casting machine based on procedure can be beneficial to by vertical injection.
Brief description of the drawings
Fig. 1 is the schematic diagram of the multistation die-casting system based on rotation in an alternate embodiment of the present invention;
Fig. 2 is the schematic diagram of mold closing mechanism in an alternate embodiment of the present invention;
Fig. 3 is the schematic diagram of injection mechanism in an alternate embodiment of the present invention;
Fig. 4 is station schematic diagram in an alternate embodiment of the present invention;
Fig. 5 is the schematic diagram of manipulator in an alternate embodiment of the present invention;
In figure, 1- firm bankings;2- swivel bases;3- lifting mechanisms;4- rotary drive mechanisms;5- mold closing mechanisms;Under 6-
Laminated structure;7- fluid pressure drive devices;9- injection mechanisms;
51- lifts driving structure;52- stereotyped structures;53- mobiles;54- lifts body;55- ennations;56- locking dresses
Put;
80- manipulator bases;81- manipulator rotating disks;82- first rotating arms;The turning arms of 83- second;The rotations of 84- first
Arm;The turning arms of 85- the 3rd;86- second is from pivoted arm;
91- pressure chambers;92- injection punch heads;93- pistons;94- pouring heads hole;95- guide channels;96- perforation holes;
101- die casting stations;102- discharge stations;103- clears up station;104- washes away station.
Embodiment
Being described in detail for the multistation die-casting system based on rotation that Fig. 1 to Fig. 5 is provided the present invention is refer to,
It is optional embodiment of the present invention, it is believed that those skilled in the art are not changing the scope of spirit of the invention and content
It is interior, it can be modified and polished.
Fig. 1 and Fig. 4 are refer to, the invention provides a kind of multistation die-casting system based on rotation, including firm banking
1st, swivel base 2, some mold closing mechanisms 5, and at least one pressing structure 6, the swivel base 2 are located at the firm banking
1 upside, and can along the axle center rotation of itself,
The mold closing mechanism 5 by being rotated in motion between different station, the station include die casting station, wash away station,
Clear up station and discharge station;
It is described wash away station 104, cleaning station 103, discharge station 102 and die casting station 101 along direction of rotation according to
Secondary arrangement;It is described to wash away station 104, clear up to be respectively equipped with the outside of station 103, and discharge station 102 and wash away mechanical arm
803rd, cleaning mechanical arm 802 and blanking mechanical arm 801, it is described wash away mechanical arm 803, cleaning mechanical arm 802 with
And the relatively described firm banking 1 in the position of blanking mechanical arm 201 is fixed;
The rotation position of the pressing structure 6 and the firm banking 1 is relatively fixed, and can be pushed in the die casting
Ejector half structure in the mold closing mechanism 5 of station 101, the pressing structure 6 is hydraulically driven the driving realization of device 7 and pushed;
Injection mechanism is provided with the firm banking 1, the mold closing mechanism 5 in the die casting station 101 can connect the pressure
Penetrate mechanism.Different moulds is provided with the different mold closing mechanisms.
In the present invention, the multistation die-casting system based on rotation also includes lifting mechanism 3 and rotary drive mechanism
4, the swivel base 2 is installed on the lifting mechanism 3, and the lifting mechanism 3 and swivel base 2 thereon are by the rotation
Drive mechanism driving rotation, the rotary drive mechanism is installed on the firm banking 1.Certainly, lifting mechanism 3 is installed on rotation
Turn on chassis 2 or the optional scheme of the present invention, the equivalent substitution of above scheme should be considered as.When being rotated, rotation
Turn chassis 2 to be lifted, when not rotating, swivel base 2 is fallen in fixing device 1.
Each mold closing mechanism 5 includes stereotyped structure, ejector half structure and lifting driving structure 51;
The stereotyped structure 52 is on the swivel base 2, and the ejector half structure passes through the lifting driving structure 51
On the swivel base 2, so that the mold closing mechanism 5 is moved by being rotated between different station, the station bag
Include die casting station 101;Each ejector half structure is correspondingly arranged at a upside of stereotyped structure 52, and the ejector half structure passes through
The lifting driving of driving structure 51 is lifted, and mould is provided between the ejector half structure and stereotyped structure 52;
Fig. 2 is refer to, the ejector half structure includes lifting body 54 and mobile 53, and the lifting body 54 is described
Lift the driving of driving structure 51 and realize lifting, the lifting body 54 is provided with some perforation, and the upside of mobile 53 is provided with
Some vertical ennations 55 to setting, the ennation 55 is arranged in the perforation;The lifting body 54 and mobile 53
Between be provided with to lock it is described lifting body 54 and mobile 53 between lifting position locking device 56;
Under the lock-out state of locking device 56, the lifting body 54 is with mobile 53 by the lifting driving structure 51
Synchronization lifting is realized in driving;Under the released state of locking device 56, the mobile 53 has relative to the lifting body 54
There is a descending stroke.Further, the mold closing mechanism 5 also includes fixed stopping means (not shown), and the descending stroke
It is limited device restriction.In alternative, some ennations 55, which are centrosymmetric, is distributed in the upside of the mobile 53
Surface.The mould is removably mounted to the upside of the stereotyped structure 52 and/or the downside of the ejector half structure.
In optional embodiment of the present invention, the ejector half structure includes lifting sheet 54 and mobile 53, the mobile
53 upsides provided with some vertical ennations 55 to setting, and then, ejector half structure has two strokes, one be will lifting body with
Mobile is moved to a stroke, also further declines another stroke pressed with mobile 53, when pushing, can be with
Lifting body 54 and mobile 53 are pushed simultaneously using pressing structure 6, and lifting driving structure can be made up to a certain extent to pressure
The limitation of conjunction action.Such as, if lift drive mechanism uses hydraulic pressure, further push, need to overcome the effect of hydraulic pressure, if
Using motor feed screw nut component, then further push, need to overcome the restriction between leading screw and nut.
In other of the invention optional schemes, the injection structure is along vertical to molten metal is injected into the mould upwards
Tool.It can be seen that, alternative also achieves vertical injection, it is contemplated that the change of station turns to horizontal direction rotation, by vertical
To injection can be beneficial to the die casting machine based on procedure press casting procedure.
Fig. 4 is refer to, the station also includes washing away station 104, cleaning station 103 and discharge station 102, described to wash away
Station 104, cleaning station 103, discharge station 102 and die casting station 101 are sequentially arranged along direction of rotation;It is described to wash away work
Position 104, cleaning station 103, and the outside of discharge station 102, which are respectively equipped with, washes away mechanical arm (not shown), cleaning manipulator
Arm (not shown) and blanking mechanical arm (not shown), the mechanical arm (not shown), cleaning mechanical arm of washing away (are schemed not
Show) and the relatively described firm banking 1 in position of blanking mechanical arm (not shown) fix.
, can be real successively for each in four mold closing mechanisms 5 by arranging different manipulators in multistation
Existing die casting, blanking, clear up and wash away, and four mold closing mechanisms 5 carry out die casting, blanking, clear up and wash away respectively simultaneously, effectively section
About flow.Further, when washing away position, mold closing mechanism 5 is closed up and declined, and the OQ t body 54 of mobile 53
Structure 56 is locked after rising to lock, and then goes to die casting station 101, after die casting station die casting, goes to discharge station 102,
Locking is untied in discharge station 102, mobile 53 can be declined with OQ t body 54, then go to cleaning station 103 and carried out clearly
Reason, goes to after cleaning and washes away station 104 and washed away.Washing away here can be washed away using gas injection, and cleaning can be used
Dust suction mode.Specific blanking, wash away, manner of cleaning up, the equipment that can be used according to those skilled in the art changes,
But change anyway without departure from protection scope of the present invention, and be all that those skilled in the art can think according to above description
The scheme seen.In other alternative embodiments of the invention, detailed design can be also carried out to manipulator, to realize multi-angle various dimensions
Change, with the change of adaptation mechanical hand multiple angles and position.
It refer in Fig. 5, the preferred embodiment of the invention, the blanking mechanical hand, clear up manipulator and wash away machinery
At least one hand includes manipulator base 80, manipulator rotating disk 81, first rotating arm 82, the second turning arm 83, first from pivoted arm
84th, the 3rd turning arm 85 and second is from pivoted arm 86, and the manipulator rotating disk 81 is located at the upside of manipulator base 80, and around perpendicular
Directly to rotation, the lower end of first rotating arm 82 is connected to the manipulator rotating disk 81, second turning arm 83 around first rotating shaft
Head end the lower end of the first rotating arm 82 is connected to around the second rotating shaft, the first rotating shaft and second rotating shaft are mutually equal
OK, and horizontally set, described first is connected to the end of second turning arm 83, first rotation from pivoted arm 84
Arm 84 is coaxial with the second turning arm 83 in the first coaxial axle center, and described first can be around the described first coaxial axle center from pivoted arm 84
Rotation, the head end of the 3rd turning arm 85 is rotatably connected in described first from the end of pivoted arm 84 around the 3rd rotating shaft, and described
Three rotating shafts are connected to the end of the 3rd turning arm 85, institute from pivoted arm 86 perpendicular to the described first coaxial axle center, described second
State second coaxial with the 3rd turning arm 85 in the second coaxial axle center from pivoted arm 86, and described second can be around described from pivoted arm 86
Two coaxial axle center rotations.
Optionally, if the blanking mechanical hand includes the base, the first rotating arm 82, second turning arm
83rd, described first from pivoted arm 84, the 3rd turning arm 85 and described second from the of pivoted arm 86, then the blanking machine manipulator
Two are provided with connecting portion from the end of pivoted arm 86, and the blanking machine connects die cast part by the connecting portion.
Optionally, if the mechanical hand of the cleaning includes the base, the first rotating arm 82, second turning arm
83rd, described first from pivoted arm 84, the 3rd turning arm 85 and described second from pivoted arm 86, then described to clear up the second of manipulator
It is described to wash away part and be connected to by washing away pump and flexible pipe and wash away source of the gas from the end of pivoted arm 86 provided with washing away part.
Optionally, if the mechanical hand of the cleaning includes the base, the first rotating arm 82, second turning arm
83rd, described first from pivoted arm 84, the 3rd turning arm 85 and described second from pivoted arm 86, then described to clear up the second of manipulator
Cleaning member is provided with from the end of pivoted arm 86.
In summary, the working method of multistation is introduced into by the present invention on the basis of existing die casting machine, only in pressure
Foundry work position realizes that die casting works, and other work are carried out in other stations, such as can be blanking, wash away, clear up etc., be based on
This, the present invention improves the mode how die casting station carries out die casting emphatically, and its one side has the lifting action of mold closing mechanism
Matched moulds is carried out, in order to improve the active force of matched moulds, the present invention also further arranges hold-down devices in die casting station and carries out die casting
When push.Further, the present invention is when being rotated, and swivel base has been lifted, when not rotating, and swivel base is fallen
In fixing device.
Claims (9)
1. a kind of multistation die-casting system based on rotation, it is characterised in that:Including firm banking, swivel base, some matched moulds
Device, and at least one pressing structure, the swivel base are located on the upside of the firm banking, and can be along the axle center of itself
Mould is provided with rotation, the mold closing mechanism;The mold closing mechanism is moved by being rotated between different station, and the station includes
Die casting station, wash away station, cleaning station and discharge station;It is described to wash away station, cleaning station, discharge station and die carter
Position is sequentially arranged along direction of rotation;
The rotation position of the pressing structure and the firm banking is relatively fixed, and can be pushed in the die casting station
The mold closing mechanism, the mold closing mechanism in the die casting station can connect injection mechanism;
Also include lifting mechanism and rotary drive mechanism, the swivel base is installed on the lifting mechanism, the lifting mechanism
And swivel base thereon is driven by the rotary drive mechanism and rotated, the rotary drive mechanism is installed on the fixed bottom
Seat;
Different moulds is provided with the different mold closing mechanisms.
2. the multistation die-casting system as claimed in claim 1 based on rotation, it is characterised in that:It is described to wash away station, cleaning
It is respectively equipped with the outside of station, and discharge station and washes away mechanical arm, cleaning mechanical arm and blanking mechanical arm, the punching
The relatively described firm banking in position of brush mechanical arm, cleaning mechanical arm and blanking mechanical arm is fixed.
3. the multistation die-casting system as claimed in claim 2 based on rotation, it is characterised in that:It is the blanking mechanical hand, clear
Managing manipulator and washing away at least one manipulator includes manipulator base, manipulator rotating disk, first rotating arm, the second rotation
Arm, first are from pivoted arm, the 3rd turning arm and second from pivoted arm, and the manipulator rotating disk is located on the upside of the manipulator base, and
Around to rotation, the lower end of first rotating arm is connected to the manipulator rotating disk around first rotating shaft, second turning arm vertically
Head end is connected to the lower end of the first rotating arm around the second rotating shaft, and the first rotating shaft and second rotating shaft are parallel to each other,
And horizontally set, described first is connected to the end of second turning arm from pivoted arm, and described first from pivoted arm and
Two turning arms are coaxial in the first coaxial axle center, and described first can be around the described first coaxial axle center rotation, described from pivoted arm
The head end of three turning arms is rotatably connected in described first from the end of pivoted arm around the 3rd rotating shaft, and the 3rd rotating shaft is perpendicular to described
First coaxial axle center, described second is connected to the end of the 3rd turning arm from pivoted arm, and described second revolves from pivoted arm and the 3rd
Pivoted arm is coaxial in the second coaxial axle center, and described second can be around the described second coaxial axle center rotation from pivoted arm.
4. the multistation die-casting system as claimed in claim 1 based on rotation, it is characterised in that:Each mold closing mechanism bag
Include stereotyped structure, ejector half structure and lifting driving structure;
The stereotyped structure is on the swivel base, and the ejector half structure is located at the rotation by the lifting driving structure
Turn on chassis, each ejector half structure is correspondingly arranged on the upside of a stereotyped structure, and the ejector half structure is driven by lifting
Dynamic structure driving is lifted;
The rotation position of the pressing structure and the firm banking is relatively fixed, and can be pushed in the die casting station
Injection mechanism, the conjunction in the die casting station are provided with ejector half structure in the mold closing mechanism, the firm banking
Die device can connect the injection mechanism.
5. the multistation die-casting system as claimed in claim 4 based on rotation, it is characterised in that:The ejector half structure includes rising
Body and mobile are dropped, and the lifting body is realized by the lifting driving structure driving and set on lifting, the lifting body
Have provided with some vertical ennations to setting on the upside of some perforation, the mobile, the ennation is arranged in the perforation;
The locking to lock lifting position between the lifting body and mobile is provided between the lifting body and mobile to fill
Put;
Under the locking device lock-out state, the lifting body is synchronous by the lifting driving structure driving realization with mobile
Lifting;Under the locking device released state, the mobile has a descending stroke relative to the lifting body.
6. the multistation die-casting system as claimed in claim 5 based on rotation, it is characterised in that:The mold closing mechanism also includes
Fixed stopping means, and the descending stroke is limited device restriction.
7. the multistation die-casting system as claimed in claim 1 based on rotation, it is characterised in that:The injection structure is along vertically
The mould is injected into by molten metal.
8. the multistation die-casting system as claimed in claim 7 based on rotation, it is characterised in that:The injection structure includes perpendicular
It is straight to pressure chamber and be communicated to by guide channel the pouring head hole of the pressure chamber, connection is in pressure on the upside of the pouring head hole
Cast the mold closing mechanism of position.
9. the multistation die-casting system as claimed in claim 8 based on rotation, it is characterised in that:The injection structure also includes
Can along pressure chamber vertical shift injection punch head and piston, the piston can be blocked by the vertical shift along the pressure chamber
The pouring head hole, the piston is not blocked under the position in the pouring head hole, and the injection punch head can be by the pressure chamber
Molten metal through the guide channel by the molten metal along vertical to injecting the pouring head hole.
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CN113714483A (en) * | 2021-08-26 | 2021-11-30 | 东莞市鸿威精密五金制品有限公司 | Die casting die of quick die change |
CN117884601A (en) * | 2024-03-06 | 2024-04-16 | 东莞市润盟精密五金有限公司 | High heat conduction magnesium alloy material die casting forming device |
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CN108568504A (en) * | 2017-12-06 | 2018-09-25 | 上海百阳精密汽车零件有限公司 | A kind of automation multiple station vertical die casting machine |
CN109177295A (en) * | 2018-09-19 | 2019-01-11 | 彭婷 | A kind of active carbon rapid forming equipment and active carbon quick molding method |
CN109228490A (en) * | 2018-09-19 | 2019-01-18 | 彭婷 | A kind of automatic extrusion forming system of active carbon and the automatic extrusion forming process of active carbon |
CN113714483A (en) * | 2021-08-26 | 2021-11-30 | 东莞市鸿威精密五金制品有限公司 | Die casting die of quick die change |
CN117884601A (en) * | 2024-03-06 | 2024-04-16 | 东莞市润盟精密五金有限公司 | High heat conduction magnesium alloy material die casting forming device |
CN117884601B (en) * | 2024-03-06 | 2024-06-14 | 东莞市润盟精密五金有限公司 | High heat conduction magnesium alloy material die casting forming device |
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