CN105414492A - Double-station hot core machine - Google Patents
Double-station hot core machine Download PDFInfo
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- CN105414492A CN105414492A CN201610007646.1A CN201610007646A CN105414492A CN 105414492 A CN105414492 A CN 105414492A CN 201610007646 A CN201610007646 A CN 201610007646A CN 105414492 A CN105414492 A CN 105414492A
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- moving platen
- hot core
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- core
- assembly
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B22—CASTING; POWDER METALLURGY
- B22C—FOUNDRY MOULDING
- B22C15/00—Moulding machines characterised by the compacting mechanism; Accessories therefor
- B22C15/23—Compacting by gas pressure or vacuum
- B22C15/24—Compacting by gas pressure or vacuum involving blowing devices in which the mould material is supplied in the form of loose particles
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B22—CASTING; POWDER METALLURGY
- B22C—FOUNDRY MOULDING
- B22C11/00—Moulding machines characterised by the relative arrangement of the parts of same
- B22C11/10—Moulding machines characterised by the relative arrangement of the parts of same with one or more flasks forming part of the machine, from which only the sand moulds made by compacting are removed
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- Mechanical Engineering (AREA)
- Molds, Cores, And Manufacturing Methods Thereof (AREA)
Abstract
The invention discloses a double-station hot core machine. A mold device comprises a first hot core mold and a second hot core mold which are arranged left and right. The first hot core mold comprises a first fixed mold assembly and a first movable mold assembly. The second hot core mold comprises a second fixed mold assembly and a second movable mold assembly. A sand shooting device comprises a first sand shooting assembly and a second sand shooting assembly which are arranged left and right. The first sand shooting assembly comprises a first sand shooting mechanism, a first sand adding hopper and a first movable shooting head. The second sand shooting assembly comprises a second sand shooting mechanism, a second sand adding hopper and a second movable shooting head. Due to the fact that the hot core machine is arranged to be the double-station hot core machine, two hot core machines are integrated into one machine frame, motions of all components of the two hot core machines do not produce mutual interference, the space occupied by two traditional hot core machines is reduced, one operator can operate the two hot core machines, and labor is saved.
Description
Technical field
The present invention relates to casting field, be specifically related to a kind of double-station hot core machine.
Background technology
The usual automaticity of existing hot core machine is all higher, most action is all rely on the procedure auto-control that set, the hot core machine of general every platform needs outfit operating personnel to carry out production tracing and back work, such as, clear up core box venting plug, pick and place chill loose piece, manually get the work such as core.And existing hot core machine is generally single station, operating personnel's management and control equipment can produce a large amount of free time, does not substantially participate in any work hot core personnel's hardening time, and every platform equipment configuration operating personnel will waste a large amount of manpowers.
Summary of the invention
Goal of the invention of the present invention is to provide a kind of double-station hot core machine, not only allow equipment take up space minimizing, and operating personnel can be in charge of two coremaking stations simultaneously, save manpower.
To achieve the above object of the invention, the technical solution used in the present invention is: a kind of double-station hot core machine, comprise workbench, be arranged on the die device on described workbench, upper spider, to be connected on described upper spider and be positioned at the top of described die device penetrate sand device, base and to be fixed on base and be positioned at the below of described die device connect core apparatus, described die device comprises the first hot core mold and the second hot core mold of arranging left and right, described first hot core mold comprises the first cover half assembly and the first dynamic model assembly, described first dynamic model assembly is positioned at the left side of described first cover half assembly and the two is oppositely arranged, described second hot core mold comprises the second cover half assembly and the second dynamic model assembly, described second dynamic model assembly is positioned at the right side of described second cover half assembly and the two is oppositely arranged, described penetrate that sand device comprises that left and right arranges first penetrate sand assembly and second and penetrate sand assembly, described first penetrates sand assembly comprises the first She Sha mechanism, first adds sand hopper and first moves and penetrates head, described first She Sha mechanism and described first adds and to arrange before and after sand hopper and described first Jia Sha mechanism is positioned at the top of described first hot core mold, described first move to penetrate before and after head moveable arrange and be connected respectively add the lower end of sand hopper in described first She Sha mechanism and described first, described second penetrates sand assembly comprises the second She Sha mechanism, second adds sand hopper and second moves and penetrates head, described second She Sha mechanism and described second adds and to arrange before and after sand hopper and described second Jia Sha mechanism is positioned at the top of described second hot core mold, described second move to penetrate before and after head moveable arrange and be connected respectively add the lower end of sand hopper in described second She Sha mechanism and described second, the described core apparatus that connects comprises first and connects core apparatus and second and connect core apparatus, described first connects the below that core apparatus is positioned at described first hot core mold, described second connects the below that core apparatus is positioned at described second hot core mold.
In technique scheme, described workbench is provided with the guide rail extended in left-right direction, described upper spider comprises the first upper spider and the second upper spider arranged left and right, described first upper spider and described second upper spider are connected to described in guide rail respectively by slider guide, described first upper spider is also connected with the first mobile device driving its side-to-side movement, and described second upper spider is also connected with the second mobile device driving its side-to-side movement.
In technique scheme, described first mobile device comprises the first screw mandrel, be threaded in first on described first screw mandrel revolves the first motor moving parts and drive described first screw mandrel to rotate, described first upper spider and described first revolves that to move parts relative fixing, described second mobile device comprises the second screw mandrel, be threaded in second on described second screw mandrel revolves the second motor moving parts and drive described second screw mandrel to rotate, and described second upper spider and described second revolves that to move parts relative fixing.
In technique scheme, described first cover half assembly comprises the first solid plate and is arranged on the first cover half on described first solid plate, described first dynamic model assembly comprises the first moving platen, be arranged on the first dynamic model on described first moving platen and drive the first folding mould matched moulds drive unit connecting described first moving platen, described second cover half assembly comprises the second solid plate and is arranged on the second cover half on described second solid plate, described second dynamic model assembly comprises the second moving platen, be arranged on the second dynamic model on described second moving platen and drive the second folding mould drive unit connecting described second moving platen.
In technique scheme, the right side of described first solid plate is also provided with the first rotary support and drives the first rotating driving device overturn before and after described first solid plate, described first solid plate is connected on described first rotary support by the first axis of rotation, described first rotating driving device drives and connects described first rotating shaft, the left side of described first moving platen is also disposed with the first returning face plate and the first mount pad, described first mount pad is fixedly installed on described workbench, described first folding mould drive unit is rotatably connected on described first mount pad, the drive rod of described first folding mould drive unit is through described first returning face plate and driving connects described first moving platen, between described first returning face plate and described first solid plate, support and connection have the first fixed bar, described first moving platen is also slidably connected on described first fixed bar, the left side of described second solid plate is also provided with the second rotary support and drives the second rotating driving device overturn before and after described second solid plate, described second solid plate is connected on described second rotary support by the second axis of rotation, described second rotating driving device drives and connects described second rotating shaft, the right side of described second moving platen is also disposed with the second returning face plate and the second mount pad, described second mount pad is fixedly installed on described workbench, described second folding mould drive unit is rotatably connected on described second mount pad, the drive rod of described second folding mould drive unit is through described second returning face plate and driving connects described second moving platen, between described second returning face plate and described second solid plate, support and connection have the second fixed bar, described second moving platen is also slidably connected on described second fixed bar.
In technique scheme, the first installing plate is also provided with between described first returning face plate and described first moving platen, described first fixed bar slidably connects the first sleeve, described first installing plate is relative fixing with described first sleeve, described first moving platen and described first sleeve are rotationally connected, described first installing plate is provided with the first upset cylinder/hydraulic cylinder overturn about driving described first moving platen, cylinder bar and described first moving platen of described first upset cylinder/hydraulic cylinder are articulated and connected, the second installing plate is also provided with between described second returning face plate and described second moving platen, described second fixed bar slidably connects the second sleeve, described second installing plate is relative fixing with described second sleeve, described second moving platen and described second sleeve are rotationally connected, described second installing plate is provided with the second upset cylinder/hydraulic cylinder overturn about driving described second moving platen, cylinder bar and described second moving platen of described second upset cylinder/hydraulic cylinder are articulated and connected.
In technique scheme, described first moving platen is provided with the first dynamic model core ejection mechanism, described first dynamic model core ejection mechanism carries out plunger tip by cylinder/hydraulic cylinder, after described first dynamic model upset, described first dynamic model core ejection mechanism plunger tip, hot core is ejected to described first and connect core apparatus, described second moving platen is provided with the second dynamic model core ejection mechanism, described second dynamic model core ejection mechanism carries out plunger tip by cylinder/hydraulic cylinder, after described second dynamic model upset, described second dynamic model core ejection mechanism plunger tip, ejects hot core to described second and connects core apparatus.
In technique scheme, described double-station hot core machine also comprises the first recovery sandbox and second arranged left and right and reclaims sandbox, described first reclaims sandbox is arranged on below described first hot core mold, the first screw input feeder is also provided with between described first recovery sandbox and bucket elevator, described second reclaims sandbox is arranged on below described second hot core mold, is also provided with the second screw input feeder between described second recovery sandbox and bucket elevator.
Because technique scheme is used, the present invention compared with prior art has following advantages:
(1) by hot core machine being set to the hot core machine of double, achieving two hot core machines is integrated in a frame, and the action of each part of two stations can not be interfered mutually, mutual interval solidification is produced, not only save the space traditionally shared by two hot core machines, and the hot core machine of two stations can be equipped with operating personnel, saves manpower;
(2) two coremaking stations adopt a set of pneumatic/hydraulic control, adopt a set of electric control gear, and on an operation interface, realize double screen operation.Be equivalent to the hot core machine with two, save a set of controlling cost.
(3) by arranging the first solid plate, first moving platen, first folding mould drive unit, first rotary support, first rotating driving device, first returning face plate and the first mount pad, first fixed bar, first installing plate and the first sleeve, realize the die open/close movement of the first hot core mold along left and right horizontal direction simultaneously, perpendicular to the rotary motion in the perpendicular of left and right directions and perpendicular to the rotary motion in the perpendicular of fore-and-aft direction, matched moulds along left and right horizontal direction moves and can realize matched moulds coremaking, die sinking action along left and right horizontal direction and the rotary motion at the perpendicular perpendicular to fore-and-aft direction realize getting core, the sand that falls in coremaking process is realized in the rotary motion of the perpendicular perpendicular to left and right directions, first hot box turns over turnback, mould nozzle down, molding sand uncured in core box is poured out from nozzle hole, by arranging the second solid plate, second moving platen, second folding mould drive unit, second rotary support, second rotating driving device, second returning face plate and the second mount pad, second fixed bar, second installing plate and the second sleeve, realize the die open/close movement of the second hot core mold along left and right horizontal direction simultaneously, perpendicular to the rotary motion in the perpendicular of left and right directions and perpendicular to the rotary motion in the perpendicular of fore-and-aft direction, matched moulds along left and right horizontal direction moves and can realize matched moulds coremaking, die sinking action along left and right horizontal direction and the rotary motion at the perpendicular perpendicular to fore-and-aft direction realize getting core, realize the sand that falls in coremaking process in the rotary motion of the perpendicular perpendicular to left and right directions,
(4) reclaiming sandbox by arranging the first recovery sandbox and second, realizing the recycling of the molding sand after sand.
Accompanying drawing explanation
Fig. 1 is the front view of double-station hot core machine left part disclosed by the invention;
Fig. 2 is the front view of double-station hot core machine right part disclosed by the invention;
Fig. 3 is the top view of double-station hot core machine left part disclosed by the invention;
Fig. 4 is the top view of double-station hot core machine right part disclosed by the invention;
Fig. 5 is the side view of double-station hot core machine disclosed by the invention.
Wherein: 100, workbench; 200, upper spider; 301, the first solid plate; 302, the first cover half; 303, the first moving platen; 304, the first dynamic model; 305, the first dynamic model drive unit; 306, the first rotary support; 307, the first rotating driving device; 308, the first returning face plate; 309, the first mount pad; 310, the first fixed bar; 311, the first installing plate; 312, the first sleeve; 313, first upset cylinder/hydraulic cylinder; 401, the second solid plate; 402, the second cover half; 403, the second moving platen; 404, the second dynamic model; 405, the second dynamic model drive unit; 406, the second rotary support; 407, the second rotating driving device; 408, the second returning face plate; 409, the second mount pad; 410, the second fixed bar; 411, the second installing plate; 412, the second sleeve; 413, second upset cylinder/hydraulic cylinder; 501, the first She Sha mechanism; 502, first adds sand hopper; 503, first move and penetrate head; 601, the second She Sha mechanism; 602, second adds sand hopper; 603, second move and penetrate head; 710, the first molding sand collection box; 720, screw feeder; 730, bucket elevator; 800, base; 910, first connect core apparatus, 920, second connects core apparatus.
Detailed description of the invention
Below in conjunction with drawings and Examples, the invention will be further described:
Embodiment one
See Fig. 1 to Fig. 5, as shown in legend wherein, a kind of double-station hot core machine, comprise workbench 100, be arranged on the die device on workbench 100, upper spider 200, to be connected on upper spider 200 and be positioned at the top of above-mentioned die device penetrate sand device, base 800 and to be fixed on base and be positioned at the below of above-mentioned die device connect core apparatus, above-mentioned die device comprises the first hot core mold and the second hot core mold of arranging left and right, above-mentioned penetrate that sand device comprises that left and right arranges first penetrate sand assembly and second and penetrate sand assembly, the above-mentioned core apparatus that connects comprises first and connects core apparatus 910 and second and connect core apparatus 920, first connects the below that core apparatus 910 is positioned at above-mentioned first hot core mold, second connects the below that core apparatus 920 is positioned at above-mentioned second hot core mold.
Above-mentioned first hot core mold comprises the first cover half assembly and the first dynamic model assembly, above-mentioned first dynamic model assembly is positioned at the left side of above-mentioned first cover half assembly and the two is oppositely arranged, above-mentioned second hot core mold comprises the second cover half assembly and the second dynamic model assembly, above-mentioned second dynamic model assembly is positioned at the right side of above-mentioned second cover half assembly and the two is oppositely arranged, the first cover half 302 that above-mentioned first cover half assembly comprises the first solid plate 301 and is arranged on the first solid plate 301, above-mentioned first dynamic model assembly comprises the first moving platen 303, be arranged on the first dynamic model 304 on the first moving platen 303 and drive the first folding mould drive unit 305 of connection first moving platen 303, the right side of the first solid plate 301 is also provided with the first rotary support 306 and drives the first rotating driving device 307 of upset before and after the first solid plate 301, first solid plate 301 is connected on the first rotary support 306 by the first axis of rotation, first rotating driving device 307 drives and connects above-mentioned first rotating shaft, the left side of the first moving platen 303 is also disposed with the first returning face plate 308 and the first mount pad 309, first mount pad 309 is fixedly installed on workbench 100, first folding mould drive unit 305 is rotatably connected on the first mount pad 309, the drive rod of the first folding mould drive unit 305 passes the first returning face plate 308 and drives connection first moving platen 303, between first returning face plate 308 and the first solid plate 301, support and connection have the first fixed bar 310, first moving platen 303 is also slidably connected on the first fixed bar 310, the first installing plate 311 is also provided with between first returning face plate 308 and the first moving platen 303, first fixed bar 310 slidably connects the first sleeve 312, first installing plate 311 is relative fixing with the first sleeve 312, first moving platen 303 and the first sleeve 312 are rotationally connected, first installing plate 311 is provided with first upset cylinder/hydraulic cylinder 313 of driving first moving platen about 303 upset, cylinder bar and first moving platen 303 of first upset cylinder/hydraulic cylinder 313 are articulated and connected.
The second cover half 402 that above-mentioned second cover half assembly comprises the second solid plate 401 and is arranged on the second solid plate 401, above-mentioned second dynamic model assembly comprises the second moving platen 403, be arranged on the second dynamic model 404 on the second moving platen 403 and drive the second folding mould drive unit 405 of connection second moving platen 403, the left side of the second solid plate 401 is also provided with the second rotary support 406 and drives the second rotating driving device 407 of upset before and after the second solid plate 401, second solid plate 401 is connected on the second rotary support 406 by the second axis of rotation, second rotating driving device 407 drives and connects above-mentioned second rotating shaft, the right side of the second moving platen 403 is also disposed with the second returning face plate 408 and the second mount pad 409, second mount pad 409 is fixedly installed on workbench 100, second folding mould drive unit 405 is rotatably connected on the second mount pad 409, the drive rod of the second folding mould drive unit 405 passes the second returning face plate 408 and drives connection second moving platen 403, between second returning face plate 408 and the second solid plate 401, support and connection have the second fixed bar 410, second moving platen 403 is also slidably connected on the second fixed bar 410, the second installing plate 411 is also provided with between second returning face plate 408 and the second moving platen 403, second fixed bar 410 slidably connects the second sleeve 412, second installing plate 411 is relative fixing with the second sleeve 412, second moving platen 403 and the second sleeve 412 are rotationally connected, second installing plate 411 is provided with second upset cylinder/hydraulic cylinder 413 of driving second moving platen about 403 upset, cylinder bar and second moving platen 403 of second upset cylinder/hydraulic cylinder 413 are articulated and connected.
Above-mentioned first penetrates sand assembly comprises the first She Sha mechanism 501, first and adds sand hopper 502 and first and move and penetrate 503, first She Sha mechanism 501 and first adds and to arrange before and after sand hopper 502 and the first Jia Sha mechanism 501 is positioned at the top of above-mentioned first hot core mold, first move penetrate 503 before and after moveable arrange and be connected respectively add the lower end of sand hopper 502 in the first She Sha mechanism 501 and first.
Above-mentioned second penetrates sand assembly comprises the second She Sha mechanism 601, second and adds sand hopper 602 and second and move and penetrate 603, second She Sha mechanism 601 and second adds and to arrange before and after sand hopper 602 and the second Jia Sha mechanism 601 is positioned at the top of above-mentioned second hot core mold, second move penetrate 603 before and after moveable arrange and be connected respectively add the lower end of sand hopper 602 in the second She Sha mechanism 601 and second.
First moving platen 303 is provided with the first dynamic model core ejection mechanism (depending on not going out in figure), above-mentioned first dynamic model core ejection mechanism carries out plunger tip by cylinder/hydraulic cylinder, after first dynamic model 304 overturns, above-mentioned first dynamic model core ejection mechanism plunger tip, hot core is ejected to first and connect core apparatus 910, shift out coremaking station along the longitudinal direction subsequently, conveniently get core, second moving platen 403 is provided with the second dynamic model core ejection mechanism (depending on not going out in figure), above-mentioned second dynamic model core ejection mechanism carries out plunger tip by cylinder/hydraulic cylinder, after second dynamic model 404 overturns, above-mentioned second dynamic model core ejection mechanism plunger tip, hot core is ejected to second and connect core apparatus 920, shift out coremaking station subsequently, conveniently get core.
Introduce first below respectively and penetrate the course of work that sand assembly, second penetrates sand assembly, the first hot core mold and the second hot core mold.
First course of work of penetrating sand assembly is: first moves and penetrate 503 and move to the below that first adds sand hopper 502 in the horizontal direction backward, first molding sand added in sand hopper 502 is injected towards first and moves and penetrate in 503, first moves and penetrates the below that 503 move forward to the first She Sha mechanism 501 in the horizontal direction, first She Sha mechanism 501 presses down, compress first to move and penetrate 503 and the first hot core mold, under compressed-air actuated effect, penetrate sand to the hot core mold of first after matched moulds subsequently.
Second course of work of penetrating sand assembly is: second moves and penetrate 603 and move to the below that second adds sand hopper 602 in the horizontal direction backward, second molding sand added in sand hopper 602 is injected towards second and moves and penetrate in 603, second moves and penetrates the below that 603 move forward to the second She Sha mechanism 601 in the horizontal direction, second She Sha mechanism 601 presses down, compress second to move and penetrate 603 and the second hot core mold, under compressed-air actuated effect, penetrate sand to the hot core mold of second after matched moulds subsequently.
The course of work of the first hot core mold is: under the driving of the first folding mould drive unit 305, first moving platen 303 and the first dynamic model 304 move right in the horizontal direction, first dynamic model 304 and the first cover half 302 matched moulds, first penetrates sand assembly penetrates sand in die cavity, carry out primary solidification, first rotating driving device 307 drives core box rotating perpendicular in the perpendicular of left and right directions, uncured molding sand is poured out, continue solidification, first folding mould drive unit 305 drives the first moving platen 303 and the first dynamic model 304 to move left in the horizontal direction to carry out die sinking, first upset cylinder/hydraulic cylinder 313 drives the first moving platen 303 and the first dynamic model 304 rotating perpendicular in the perpendicular of fore-and-aft direction, above-mentioned first dynamic model core ejection mechanism carries out plunger tip by cylinder/hydraulic cylinder, after first dynamic model 304 overturns, above-mentioned first dynamic model core ejection mechanism plunger tip, hot core is ejected to first and connect core apparatus 910, shift out coremaking station along the longitudinal direction subsequently, take out core.
The course of work of the second hot core mold is: under the driving of the second folding mould drive unit 405, second moving platen 403 and the second dynamic model 404 are in the horizontal direction to left movement, ear dynamic model 404 and the second cover half 402 matched moulds, second penetrates sand assembly penetrates sand in die cavity, carry out primary solidification, second rotating driving device 407 drives core box rotating perpendicular in the perpendicular of left and right directions, uncured molding sand is poured out, continue solidification, second folding mould drive unit 405 drives the second moving platen 403 and the second dynamic model 404 to move right in the horizontal direction to carry out die sinking, second upset cylinder/hydraulic cylinder 413 drives the second moving platen 403 and the second dynamic model 404 rotating perpendicular in the perpendicular of fore-and-aft direction, above-mentioned second dynamic model core ejection mechanism carries out plunger tip by cylinder/hydraulic cylinder, after second dynamic model 404 overturns, above-mentioned second dynamic model core ejection mechanism plunger tip, hot core is ejected to second and connect core apparatus 920, shift out coremaking station subsequently, take out core.
In order to save material further, above-mentioned double-station hot core machine also comprises the first recovery sandbox 710 and second arranged left and right and reclaims sandbox (depending on not going out in figure), first reclaims sandbox 710 is arranged on below above-mentioned first hot core mold, the first screw input feeder 720 is also provided with between first recovery sandbox 710 and bucket elevator 730, above-mentioned second reclaims sandbox is arranged on and above-mentionedly states below the second hot core mold, and above-mentioned second reclaims between sandbox and bucket elevator and be also provided with the second screw input feeder.
Embodiment two
All the other are identical with embodiment one, difference is, above-mentioned workbench is provided with the guide rail extended in left-right direction, above-mentioned upper spider comprises the first upper spider and the second upper spider arranged left and right, above-mentioned first upper spider and above-mentioned second upper spider are connected to above-mentioned in guide rail respectively by slider guide, above-mentioned first upper spider is also connected with the first mobile device driving its side-to-side movement, above-mentioned second upper spider is also connected with the second mobile device driving its side-to-side movement, above-mentioned first mobile device comprises the first screw mandrel, be threaded in first on described first screw mandrel and revolve the first motor moving parts and drive described first screw mandrel to rotate, above-mentioned first upper spider and above-mentioned first revolves that to move parts relative fixing, above-mentioned second mobile device comprises the second screw mandrel, be threaded in second on above-mentioned second screw mandrel and revolve the second motor moving parts and drive above-mentioned second screw mandrel to rotate, above-mentioned second upper spider and described second revolves that to move parts relative fixing.
Claims (8)
1. a double-station hot core machine, comprise workbench, be arranged on the die device on described workbench, upper spider, to be connected on described upper spider and be positioned at the top of described die device penetrate sand device, base and to be fixed on base and be positioned at the below of described die device connect core apparatus, it is characterized in that, described die device comprises the first hot core mold and the second hot core mold of arranging left and right, described first hot core mold comprises the first cover half assembly and the first dynamic model assembly, described first dynamic model assembly is positioned at the left side of described first cover half assembly and the two is oppositely arranged, described second hot core mold comprises the second cover half assembly and the second dynamic model assembly, described second dynamic model assembly is positioned at the right side of described second cover half assembly and the two is oppositely arranged, described penetrate that sand device comprises that left and right arranges first penetrate sand assembly and second and penetrate sand assembly, described first penetrates sand assembly comprises the first She Sha mechanism, first adds sand hopper and first moves and penetrates head, described first She Sha mechanism and described first adds and to arrange before and after sand hopper and described first Jia Sha mechanism is positioned at the top of described first hot core mold, described first move to penetrate before and after head moveable arrange and be connected respectively add the lower end of sand hopper in described first She Sha mechanism and described first, described second penetrates sand assembly comprises the second She Sha mechanism, second adds sand hopper and second moves and penetrates head, described second She Sha mechanism and described second adds and to arrange before and after sand hopper and described second Jia Sha mechanism is positioned at the top of described second hot core mold, described second move to penetrate before and after head moveable arrange and be connected respectively add the lower end of sand hopper in described second She Sha mechanism and described second, the described core apparatus that connects comprises first and connects core apparatus and second and connect core apparatus, described first connects the below that core apparatus is positioned at described first hot core mold, described second connects the below that core apparatus is positioned at described second hot core mold.
2. double-station hot core machine according to claim 1, it is characterized in that, described workbench is provided with the guide rail extended in left-right direction, described upper spider comprises the first upper spider and the second upper spider arranged left and right, described first upper spider and described second upper spider are connected to described in guide rail respectively by slider guide, described first upper spider is also connected with the first mobile device driving its side-to-side movement, and described second upper spider is also connected with the second mobile device driving its side-to-side movement.
3. double-station hot core machine according to claim 2, it is characterized in that, described first mobile device comprises the first screw mandrel, be threaded in first on described first screw mandrel revolves the first motor moving parts and drive described first screw mandrel to rotate, described first upper spider and described first revolves that to move parts relative fixing, described second mobile device comprises the second screw mandrel, be threaded in second on described second screw mandrel revolves the second motor moving parts and drive described second screw mandrel to rotate, and described second upper spider and described second revolves that to move parts relative fixing.
4. double-station hot core machine according to claim 1, it is characterized in that, described first cover half assembly comprises the first solid plate and is arranged on the first cover half on described first solid plate, described first dynamic model assembly comprises the first moving platen, be arranged on the first dynamic model on described first moving platen and drive the first folding mould drive unit connecting described first moving platen, described second cover half assembly comprises the second solid plate and is arranged on the second cover half on described second solid plate, described second dynamic model assembly comprises the second moving platen, be arranged on the second dynamic model on described second moving platen and drive the second folding mould drive unit connecting described second moving platen.
5. double-station hot core machine according to claim 4, it is characterized in that, the right side of described first solid plate is also provided with the first rotary support and drives the first rotating driving device overturn before and after described first solid plate, described first solid plate is connected on described first rotary support by the first axis of rotation, described first rotating driving device drives and connects described first rotating shaft, the left side of described first moving platen is also disposed with the first returning face plate and the first mount pad, described first mount pad is fixedly installed on described workbench, described first folding mould drive unit is rotatably connected on described first mount pad, the drive rod of described first folding mould drive unit is through described first returning face plate and driving connects described first moving platen, between described first returning face plate and described first solid plate, support and connection have the first fixed bar, described first moving platen is also slidably connected on described first fixed bar, the left side of described second solid plate is also provided with the second rotary support and drives the second rotating driving device overturn before and after described second solid plate, described second solid plate is connected on described second rotary support by the second axis of rotation, described second rotating driving device drives and connects described second rotating shaft, the right side of described second moving platen is also disposed with the second returning face plate and the second mount pad, described second mount pad is fixedly installed on described workbench, described second folding mould drive unit is rotatably connected on described second mount pad, the drive rod of described second folding mould drive unit is through described second returning face plate and driving connects described second moving platen, between described second returning face plate and described second solid plate, support and connection have the second fixed bar, described second moving platen is also slidably connected on described second fixed bar.
6. double-station hot core machine according to claim 5, it is characterized in that, the first installing plate is also provided with between described first returning face plate and described first moving platen, described first fixed bar slidably connects the first sleeve, described first installing plate is relative fixing with described first sleeve, described first moving platen and described first sleeve are rotationally connected, described first installing plate is provided with the first upset cylinder/hydraulic cylinder overturn about driving described first moving platen, cylinder bar and described first moving platen of described first upset cylinder/hydraulic cylinder are articulated and connected, the second installing plate is also provided with between described second returning face plate and described second moving platen, described second fixed bar slidably connects the second sleeve, described second installing plate is relative fixing with described second sleeve, described second moving platen and described second sleeve are rotationally connected, described second installing plate is provided with the second upset cylinder/hydraulic cylinder overturn about driving described second moving platen, cylinder bar and described second moving platen of described second upset cylinder/hydraulic cylinder are articulated and connected.
7. the double-station hot core machine according to claim the 6, it is characterized in that, described first moving platen is provided with the first dynamic model core ejection mechanism, described first dynamic model core ejection mechanism carries out plunger tip by cylinder/hydraulic cylinder, after described first dynamic model upset, described first dynamic model core ejection mechanism plunger tip, hot core is ejected to described first and connect core apparatus, described second moving platen is provided with the second dynamic model core ejection mechanism, described second dynamic model core ejection mechanism carries out plunger tip by cylinder/hydraulic cylinder, after described second dynamic model upset, described second dynamic model core ejection mechanism plunger tip, hot core is ejected to described second and connect core apparatus.
8. double-station hot core machine according to claim 1, it is characterized in that, described double-station hot core machine also comprises the first recovery sandbox and second arranged left and right and reclaims sandbox, described first reclaims sandbox is arranged on below described first hot core mold, the first screw input feeder is also provided with between described first recovery sandbox and bucket elevator, described second reclaims sandbox is arranged on below described second hot core mold, is also provided with the second screw input feeder between described second recovery sandbox and bucket elevator.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201610007646.1A CN105414492B (en) | 2016-01-07 | 2016-01-07 | A kind of double-station hot core machine |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201610007646.1A CN105414492B (en) | 2016-01-07 | 2016-01-07 | A kind of double-station hot core machine |
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Cited By (5)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN107552741A (en) * | 2017-11-06 | 2018-01-09 | 禹州市昆仑模具有限公司 | A kind of large-scale pair is driven automatic turning core shooter |
| CN107695307A (en) * | 2017-09-30 | 2018-02-16 | 开平市季诺卫浴有限公司 | A kind of efficient production equipment of core |
| CN112191810A (en) * | 2020-09-24 | 2021-01-08 | 无锡皖中精密机械有限公司 | Full-automatic core shooter |
| CN115582518A (en) * | 2022-10-24 | 2023-01-10 | 台州誉迎科技有限公司 | Control system and control method of core shooter |
| CN116851726A (en) * | 2023-09-04 | 2023-10-10 | 泊头市亚奇铸业有限公司 | Casting device and process of compressor shell |
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| CN107695307A (en) * | 2017-09-30 | 2018-02-16 | 开平市季诺卫浴有限公司 | A kind of efficient production equipment of core |
| CN107552741A (en) * | 2017-11-06 | 2018-01-09 | 禹州市昆仑模具有限公司 | A kind of large-scale pair is driven automatic turning core shooter |
| CN112191810A (en) * | 2020-09-24 | 2021-01-08 | 无锡皖中精密机械有限公司 | Full-automatic core shooter |
| CN115582518A (en) * | 2022-10-24 | 2023-01-10 | 台州誉迎科技有限公司 | Control system and control method of core shooter |
| CN115582518B (en) * | 2022-10-24 | 2023-11-28 | 台州誉迎科技有限公司 | Control system and control method of core shooter |
| CN116851726A (en) * | 2023-09-04 | 2023-10-10 | 泊头市亚奇铸业有限公司 | Casting device and process of compressor shell |
| CN116851726B (en) * | 2023-09-04 | 2023-11-24 | 泊头市亚奇铸业有限公司 | Casting device and process of compressor shell |
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| CN105414492B (en) | 2017-11-03 |
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