CN1406690A - Automatic aluminium piston casting machines - Google Patents

Automatic aluminium piston casting machines Download PDF

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Publication number
CN1406690A
CN1406690A CN 01127360 CN01127360A CN1406690A CN 1406690 A CN1406690 A CN 1406690A CN 01127360 CN01127360 CN 01127360 CN 01127360 A CN01127360 A CN 01127360A CN 1406690 A CN1406690 A CN 1406690A
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China
Prior art keywords
fixed
manipulator
external mold
gear
cylinder
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CN 01127360
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Chinese (zh)
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CN1212210C (en
Inventor
朱利民
牟俊东
阎汝辉
王沂蒙
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Shandong Binzhou Bohai Piston Co Ltd
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Shandong Binzhou Bohai Piston Co Ltd
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Priority to CN 01127360 priority Critical patent/CN1212210C/en
Publication of CN1406690A publication Critical patent/CN1406690A/en
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Publication of CN1212210C publication Critical patent/CN1212210C/en
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Abstract

A full-automatic casting machine for aluminium piston is composed of main body, external mould and edge core unit, mould pushing unit, manipulator for taking cast part, central core unit, rotating unit, manpulator for inlaying steel plates, steel plate chamber, filter net installing unit, and casting robot. Its advantages are high autoamtic level, productivity, and quality of castings.

Description

Automatic aluminium piston casting machines
Technical field
The invention provides a kind of full-automatic Casting Equipment of aluminum piston blank.
Background technology
Along with the continuous development of engine to low oil consumption, low noise and low emission, people are also more and more higher to the requirement of engine heart part aluminium piston.At present, domestic aluminium piston manufacturer when the casting aluminum piston blank, still generally adopt loose core on manual, the forging type of the big rising head of bilateral.It is bigger that this technology is influenced by human factor, usually causes the fluctuation of aluminum piston blank castability, and percent defective is higher.Because thick big top is unfavorable for realizing consecutive solidification down, so need to adopt the method that strengthens rising head and add subsidy, cause the blank technology yield rate low, high material consumption, production efficiency is low, has brought trouble also for simultaneously later machining.Though there is part producer to use aluminium casting for piston machine homemade or that introduce to cast aluminum piston blank, but all be simple folding mould, extraction core mechanism, compare the difference that does not have internal with original aluminium casting for piston technology, the obviously more and more large-scale production of incompatibility aluminium piston.
Summary of the invention
Technical problem to be solved by this invention provides a kind of aluminium piston automatic casting machine, to enhance productivity and the aluminum piston blank quality of stability.
The present invention realizes like this; automatic aluminium piston casting machines; there are external mold and limit core mechanism, mold pushing mechanism in lathe bed top, get the foundry goods manipulator mechanism; there are middle core mechanism, slew gear in the lathe bed middle and lower part; it also has inserted trick manipulator mechanism, steel disc feed bin mechanism, lets slip filter screen mechanism, and pouring robot mechanism.
Adopt the automatic aluminium piston casting machines of said mechanism, can realize the automated production of aluminum piston blank casting overall process, reduced the influence of human factor to aluminium casting for piston quality, blank quality is stable.Simultaneously, the automated production of overall process has also improved production efficiency greatly, has alleviated hand labor intensity.The following technology of loosing core that adopts meets aluminium piston consecutive solidification condition, has improved aluminium casting for piston quality, and product yield is improved greatly, has saved great deal of raw materials, has eliminated big rising head in both sides and subsidy, is convenient to later machining.
Description of drawings
Fig. 1 has represented the schematic diagram of pouring robot and casting machine host configuration among the present invention.Fig. 2 has represented that the master of casting machine main machine structure looks schematic diagram.Fig. 3 is its vertical view.Fig. 4 is the external mold in the utility model and the schematic diagram of limit core mechanism.Fig. 5 is that its A is to partial view.Fig. 6 is the right view of middle core mechanism.Fig. 7 is its front view.Fig. 8 is the schematic top plan view of mold pushing mechanism.Fig. 9 is its A-A profile.Figure 10 is a schematic diagram of getting the foundry goods manipulator mechanism.Figure 11 is the schematic diagram of inserted trick manipulator mechanism.Figure 12 is the front view of inserted trick feed bin mechanism.Figure 13 is its right view.Figure 14 is the schematic diagram of slew gear.Figure 15 is that schematic diagram is looked on the right side of letting slip filter screen mechanism.Figure 16 has represented that the left side of its part looks schematic diagram.Figure 17 is its main schematic diagram of looking.Figure 18 is the front view of pouring robot mechanism.Figure 19 is its I partial enlarged drawing.Figure 20 is the vertical view of pouring robot mechanism.Figure 21 is its II partial enlarged drawing.Figure 22 is the left pseudosection of pouring robot mechanism.Figure 23 is the schematic diagram of screen pack automatic clamping and placing apparatus structure.Figure 24 is the process chart of fully automatic working cyclic process of the present invention.
The specific embodiment
Below in conjunction with description of drawings concrete structure of the present invention and operation principle.
As Fig. 1, Fig. 2, shown in Figure 3; the present invention's automatic aluminium piston casting machines; there are external mold and limit core mechanism (1-1), mold pushing mechanism (1-2) in lathe bed (01) top, get foundry goods manipulator mechanism (1-3); there are middle core mechanism (1-6), slew gear (1-7) in the lathe bed middle and lower part; it also has inserted trick manipulator mechanism (1-4), steel disc feed bin mechanism (1-5), lets slip filter screen mechanism (1-8), and pouring robot mechanism (1-9).
As shown in Figure 4; on described external mold and limit core mechanism (1-1); be fixed with big slide unit (08) on the lathe bed (01); external mold slide unit (07) is installed on the big slide unit; big slide unit lower left is equipped with left side pellet (16) and little slide unit (13); left side pellet is installed in little slide unit the inside; the cushion block (12) that the right pellet (09) is arranged below the big slide unit right side and fuse with big slide unit; be fixed with external mold oil cylinder (02) and limit core cross cylinder (03) on external mold oil cylinder left socle (53) and the external mold oil cylinder right support (11) respectively; external mold oil cylinder (02) is by external mold pull bar (18); external mold connection piece (04); briquetting (05) and pin pellet (06) link to each other with the external mold slide unit; the external mold pull bar has external mold spring (17) outward; left side pellet (16) links to each other with limit core cross cylinder (03) by lower guideway (15) on the core of the left side; the right pellet (09) links to each other with the right core cross cylinder by the right core pulling block (10); be fixed with core oil cylinder (14) up and down in the left side under the lathe bed on the horizontal riser of left side of face; the left side core piston rod of oil cylinder up and down links to each other with little slide unit (13), and lower guideway on the core of the left side (15) is installed together by T type groove on the pellet of the left side and left side pellet.
The operation principle of external mold and limit core mechanism is that the external mold (166) that external mold oil cylinder (02) drives on the external mold slide unit (07) is finished open and close movement.Because external mold spring (17) is arranged outside the external mold pull bar (18); and with briquetting (05), the pin pellet (06) and the pin core (169) be connected; when closed external mold; the pin pellet is pressed onto on the external mold slide unit at the elastic force that overcomes the external mold spring under the promotion of external mold oil cylinder, makes external mold, pin core and inner core be in closure state.After cast aluminum liquid solidified end, during die sinking, the external mold oil cylinder piston rod drove external mold pull bar, briquetting, pin pellet and pin core and retreats, and external mold still is in closure state under the effect of spring force.Drive external mold slide unit and external mold retreat together to open external mold after briquetting is run into external mold connection piece.Because the pin core in the external mold is opened earlier than external mold, over not only having reduced mould firmly, also prevented the while die sinking of pin core and external mold and pulled blank.Limit core cross cylinder (03) drives the horizontal movement that left side pellet (16) realizes being installed in the left side core (167) on the pellet of the left side by lower guideway (15) on the core of the left side, simultaneously, left side core up and down oil cylinder (14) drive and finish left side core on the lower guideway (15) on little slide unit (13) the on the left side core and move up and down.Core (09) realized being installed in the right core (168) level advance and retreat on the pellet of the right on the right of the right core oil cylinder drove by limit core pulling block (10).
Limit core limited block (19) also is installed on limit core cross cylinder (03).
As Fig. 6, shown in Figure 7, on the core mechanism in described (1-6), SMIS (171) is fixed on the SMIS slide unit (20) by connecting pin (170), the SMIS slide unit links together by bearing pin (22) and contiguous block (21), contiguous block and SMIS oil cylinder (28) up and down link together, the SMIS slide unit is installed on the T type chute (27) by fixed thereon the bearing arrangement of being made up of bearing shaft (23), needle roller (24), bearing outer ring (25), and T type chute, SMIS oil cylinder up and down are fixed on vertical riser at lathe bed center.
The operation principle of middle core mechanism is that SMIS oil cylinder up and down drives SMIS under the guiding of T type chute (27) and bearing outer ring (25), finishes upper and lower action.T type chute bottom chute is designed to arc, when sliding into the bottom under the SMIS slide unit, under the guiding of arc chute, the SMIS slide unit is tilted, and the oblique side of SMIS has been avoided bumping when moving down with another side core (left side core) in less space.
On bearing arrangement, also has lubricator cup (26).
As Fig. 8, shown in Figure 9; on described mold pushing mechanism (1-2); backform horizontal air cylinder (34) is fixed on the fixed mount (35); the piston rod of backform horizontal air cylinder and bumper bracket (36) are fixed together; bumper bracket links together by the axis of guide (33) and backform support (32), and backform slide bar (31) top is installed in backform support upper and lower part backform (63) is installed.Fixed mount (35) and the big arm of getting in the foundry goods manipulator mechanism (1-6) of manipulator (41) are fixed together, and the big arm of manipulator is fixed on the gyroaxis (91) in the slew gear (1-7).
The operation principle of mold pushing mechanism is; under the guiding of the external mold oil cylinder left socle (53) of this mechanism in external mold and limit core mechanism (1-1); by the gyroaxis (91) in the slew gear (1-7) be fixed in lathe bed bottom, the slew gear backform up and down oil cylinder (92) link together; about backform, under the drive of oil cylinder, realized moving up and down of mold pushing mechanism.Horizontal rotation by 90 ° of realization mold pushing mechanisms such as the angling cylinder in the slew gear (86).Drive backform support (32) by backform horizontal air cylinder (34) and drive backform is finished backform under the guiding of the fixed mount (35) and the axis of guide (33) level advance and retreat.Can reduce the rotating radius of gyration of mold pushing mechanism like this.When the backform on the backform slide bar (63) moves downward under the driving of oil cylinder (92) up and down when running into external mold at backform; backform slide bar (31) is outer, backform support (32) cushions with buffer spring between the block (29) and reduced the impact of backform to external mold, can prevent to break mould.External mold slide bar this moment (31) is sliding up and down in backform support (32) on the guiding of feather key (30).
As shown in figure 10, get on the foundry goods manipulator mechanism (1-3) described, big arm (41) one ends of manipulator are fixed on that gyroaxis (91) in the slew gear is gone up, the other end is fixed with manipulator cylinder (44), the piston rod of manipulator cylinder is installed together by contiguous block (46) and connecting rod (47), connecting rod (47) is installed together with manipulator forearm (50), is fixed with manipulator (49) on the manipulator forearm.
The operation principle of getting the foundry goods manipulator mechanism is, about oil cylinder realizes that revolution reaches up and down by slew gear, backform.Manipulator cylinder (44) is by contiguous block (46) drivening rod (47), and then drives manipulator forearm (50) and go up to rotate in rotating shaft (48) and finish manipulator (49) and clamp good foundry goods of cast and the action of unclamping foundry goods.
The big arm of manipulator (41) is fixed together by retainer plate (40) and gyroaxis (91).Retainer plate is positioned at external mold oil cylinder left socle (53) top.Bearing pin (43) is arranged on the connecting rod (47).There is travel switch collision block (45) the manipulator top.
For rotating reliability of foundry goods manipulator mechanism and precision are got in raising, the big arm of manipulator bottom also is equipped with locating shaft (52) by fixed head (39) and fixed cover (38), locating shaft cooperates with fairlead (51) on the leading truck (37), has guaranteed the positional precision of the big arm of manipulator.
Get foundry goods manipulator mechanism and mold pushing mechanism and be 90 ° of layouts, divide on the upper and lower gyroaxis (91) that is installed in external mold oil cylinder left socle (53) top.
As shown in figure 11, on described inserted trick manipulator mechanism (1-4), big arm (62) one ends of manipulator are fixed on the gyroaxis (61) of external mold oil cylinder right support (11) top, the other end is fixed with adjustable plate (59), be fixed with manipulator cylinder (57) and guide post (56) on the adjustable plate, the piston rod of manipulator cylinder and manipulator forearm (55) link together, and are fixed with inserted trick manipulator (54) on the fairlead, and fairlead (69) is arranged between manipulator forearm and the guide post.
The principle of inserted trick manipulator mechanism is that it is the same to get the foundry goods manipulator mechanism together, about oil cylinder (174) realizes that revolution reaches up and down by the inserted trick manipulator under gyroaxis slew gear, the slew gears such as (61) in the external mold oil cylinder right support (11).Piston rod drive fairlead (69) by manipulator cylinder (57) upward moves at guide post (56), realizes being fixed on the clamping of the inserted trick manipulator on the fairlead and the action of unclamping steel disc.
This mechanism with get the foundry goods robot manipulator structure and be symmetric arrangement with respect to host center.The inserted trick manipulator is an electromagnetism casing.The big arm of manipulator (62) is fixed together by retainer plate (60) and gyroaxis (61).Be fixed with travel switch collision block (58) on the adjustable plate.
For improving rotating reliability of inserted trick manipulator mechanism and precision, also locating shaft (65) is installed in the big arm of manipulator bottom by fixed head (68) and fixed cover (67), locating shaft cooperates with fairlead (66) on being installed in leading truck (64), plays positioning action.
As Figure 12, shown in Figure 13, in described steel disc feed bin mechanism (1-5), steel disc feed bin support (82) top that is fixed on lathe bed (01) side is fixed with steel disc material road (77), the push pedal (78) of pushing block (70) and pushing block front is arranged in the steel disc material road, pushing block links to each other with pulling block (84) through steel wire rope and pulley (83), there is pressing plate (75) at middle part, steel disc material road, steel disc feed bin support bottom is fixed with heater oil cylinder (81) up and down, be fixed with heater fixed head (80) on the piston rod of oil cylinder about the heater, be fixed with steel disc heater holder (73) on the heater fixed head, steel disc heater (74) is installed in the heater holder.
The operation principle of steel disc feed bin mechanism is, during steel disc in the inserted trick manipulator need extract steel disc material road, heater oil cylinder (81) up and down promotes heater fixed head (80) and steel disc heater (74) moves upward.Under the effect of pulling block (84) deadweight, steel wire rope drives pushing block (70) and push pedal (78) is moved to the centre position, and each steel disc that push pedal promptly promotes in the steel disc material road (77) moves to the centre position, and innermost left and right two steel discs abut on the heater.Gap between heater of adjusting in advance and the pressing plate (75) only allows left and right each a slice steel disc upwards to pass through.Therefore, heater is up, warmed-up left and right each a slice steel disc band be up to the precalculated position, has realized extracting the process of steel disc.Inserted trick manipulator on the inserted trick manipulator mechanism (electromagnetism casing) clamps steel disc then, and the electromagnet in the electromagnetism casing gets electric, holds the steel disc on the heater.Heater is descending, and inserted trick manipulator band to go downwards to after 90 ° of the steel disc revolutions and is put the steel disc position, close dead electromagnetism casing, steel disc is put on the inner core, this moment the electromagnet dead electricity, after this steel disc is inhaled on inner core, by the permanent-magnet steel on the piston inner core, up being turned back to of inserted trick manipulator got the steel disc position, finishes the actuation cycle that picks and places steel disc.Heater goes downwards to initial position, and innermost left and right two steel discs in the steel disc material road abut again on the heater, and heater heats it, for inserted trick process is next time prepared.
Steel disc material road is fixed on the steel disc feed bin support (82) by positioning key (71).Buffer unit (72) also is installed on the heater fixed head (80).The heater fixed head is finished knee-action under the guiding of guide post (79).The steel disc feed bin support outside is fixed with buffering locating support (76).Steel disc is anti-the expand steel disc of castingin at piston blank pin-and-hole position.
As shown in figure 14, on described slew gear (1-7), angling cylinder (86) is installed on the angling cylinder support (85), the angling cylinder support is fixed on the lathe bed (01), the piston rod of angling cylinder links together through contiguous block (87) and floating bearing cylinder (89), gyroaxis (91) is installed in the floating bearing cylinder (89) by feather key (90), and revolution shaft lower end and backform oil cylinder (92) up and down link together.
The operation principle of slew gear is; angling cylinder (86) drives floating bearing cylinder (89) revolution; under the effect of feather key (90); gyroaxis and its together turn round; the stroke of angling cylinder is by travel switch and collision block adjustment; to guarantee 90 ° of gyroaxis revolutions, to finish to get the action of 90 ° of foundry goods manipulator mechanisms, mold pushing mechanism revolution.Backform oil cylinder drive gyroaxis is up and down finished the knee-action of these two kinds of mechanisms up and down.
The floating bearing cylinder hangs on the lathe bed (01).Contiguous block (87) links together by hinge (88) and floating bearing cylinder (89).The lathe bed and arranged on left and right sides respectively has a cover slew gear.The slew gear top on right side is equipped with the inserted trick manipulator mechanism, and bottom and inserted trick manipulator oil cylinder up and down link to each other.The slew gear on right side and inserted trick manipulator oil cylinder up and down drive revolution and the knee-action that gyroaxis is finished the inserted trick manipulator.
As Figure 15,16,17, shown in Figure 23, let slip in the filter screen mechanism (1-8) described, screen pack upper and lower air cylinders (106) bottom end cover is fixed on to be got on the big arm of foundry goods manipulator (41), the piston rod of screen pack upper and lower air cylinders (106) and screen pack slide block (100) up and down link to each other, slide block links together by guide post (101) and support (95) up and down, be fixed with screen pack material road (93) on the support, screen pack feed bin (96), be fixed with the fixed mount (99) of screen pack automatic clamping and placing device (98), in the rotating shaft (97) about being fixed on the slide block (100), screen pack pivoted lever (103) is fixed in the rotating shaft (97), the piston rod upper end of the screen pack rotary cylinder (107) about bottom end cover is hinged on the slide block (100) is fixedly coupled bar (104), is hinged on the screen pack pivoted lever (103) by bearing pin (105).
Screen pack material road (93) is fixed on the support (95) by trip bolt (94).Guide post (101) top is equipped with pressing plate (102).
The operation principle of letting slip filter screen mechanism is, when needs are got screen pack, the piston rod of screen pack rotary cylinder (107) spurs screen pack pivoted lever (103) downwards, the screen pack pivoted lever promptly drives rotating shaft (97) and then drives screen pack automatic clamping and placing device (98) by fixed mount (99) and rotates 90 °, makes the center line of screen pack automatic clamping and placing device vertical with horizontal line.Subsequently, screen pack automatic clamping and placing device is under the drive of screen pack upper and lower air cylinders (106), coexist under the guiding of guide post (101) with slide block (100) up and down, be displaced downwardly to screen pack feed bin (96), after getting screen pack, go upward to and upwards turn round 90 ° again to center line and horizontal line parastate after upper.To coming downwards to lower position shown in Figure 14 is near the screen pack material road, unclamp screen pack, screen pack falls in the filter screen device of Piston mould by the effect of screen pack material road (93) in deadweight, and screen pack automatic clamping and placing device goes upward to upper limit position then, finishes to pick and place the action of running channel screen pack.
As shown in figure 23, on screen pack automatic clamping and placing device (98), cylinder body (159) one ends have cylinder bottom (158), the other end of band pore that the cylinder cap (162) of band pore is arranged, the tapered piston rod of front end (160) is arranged in the cylinder body, the screen pack hand (165) of getting of band fine needle is installed in the gathering sill on the cylinder cap (162), getting between screen pack hand and this groove bottom land has spring (163), and cylinder cap has protective cover (164) outward.Between cylinder body (159) and cylinder bottom (158), the cylinder cap (162) O-ring seals (161) is arranged.The home position of this device is a shown position.When needs are got screen pack, from the pore of cylinder bottom, in cylinder body, send into compressed air by PLC control system control magnetic valve, promote piston rod and shift to the cylinder cap position forward.Because the piston rod front end is tapered, in piston rod when reach, promote to get the screen pack hand and contract and move to oblique the place ahead in the gathering sill of spring in cylinder cap, make the fine needle of getting the screen pack hand stretch out protective cover outer (stretching out 0.5mm approximately), fine needle penetrates in the mesh on the screen pack below the protective cover, and screen pack is taken away.When need the running channel place on mould letting slip filter screen,, promote piston rod and get back to initial position by in cylinder body, sending into compressed air in the pore on the cylinder cap.Get the screen pack hand and reset under the effect of spring this moment, gets screen pack fine needle on hand and get back in the protective cover, and screen pack drops to mould running channel place by deadweight, finishes an actuation cycle.
Such as Figure 18~shown in Figure 22; In described pouring robot mechanism (1-9); Be fixed with base (109) on the column (108); AC servo motor (113) is by motor cabinet (111); Reductor (114) under the AC servo motor (113); Bearing and lid (110) are installed on the base (109); Transition disc (115) is fixed together with lid (110); AC servo motor (156) is fixed on the transition disc (115); AC servo motor (156) is through reductor (155); Connect dish (154); Axis (147) is fixed together with casing (116); Be fixed with big arm (119) on the casing (116); Be hinged with forearm (129) by joint shaft (145) on the big arm; Be fixed with head (134) on the forearm; AC servo motor (149) is by motor cabinet (150); Reductor (151) is fixed on the transition disc (152); Be fixed with gear (153) on the semiaxis (148) of fixing on the reductor; The tooth bar (117) of transmission tube (121) one ends in gear (153) and the big arm (119) meshes together; Gear on the tooth bar (123) of transmission tube (121) other end and the joint shaft (145) meshes together; Be fixed with gear (139) on the joint shaft all-in-one-piece gear shaft (140); The tooth bar (143) of transmission tube (128) one ends in gear (139) and the forearm (129) meshes together; Gear (130) in the tooth bar (133) of transmission tube (128) other end and the hand (134) meshes together; Between gear (132) and the gear (130) gear (131) is arranged, be fixed with pony ladle (172) on the axle (142) of gear (132).
The operation principle of pouring robot is, by AC servo motor (113), (149), (156), driving pony ladle moves in three degree of freedom, realize pony ladle dip aluminium liquid, quantitatively, action such as cast, substitute artificial cast aluminum piston blank, to reduce the influence of human factor to aluminium casting for piston quality.AC servo motor (113) drives the revolution of motor cabinet (111), transition disc (115) and whole big arm (119) and hand assembly along continuous straight runs such as (134), 300 ° of angle of revolution scopes after slowing down by reductor (114); After AC servo motor (156) slows down by reductor (155), drive casing (116), big arm, forearm, hand and axis (147) etc. and between level-20 °~+ 65 °, face upward the motion of bowing; After AC servo motor (149) slows down by reductor (151), driving semiaxis (148) rotates, the gear shaft (140) that the tooth bar (117) at the gear on semiaxis, transmission tube (121) two ends, (123) transmission are given joint shaft (145) and fused with it, give gear (130), (131), (132) through tooth bar (143), (133) transmission at gear (139), transmission tube (128) two ends again, final transmission is given on the axle (142) with gear (132), drive pony ladle (172) and rotate, thereby finish actions such as dipping aluminium liquid, cast.
Upward probe (127) is installed at forearm (129), binding post (124) is arranged on the probe by probe column (126), probe base (125).Probe has two.When two probes entered aluminium liquid simultaneously, conducting between two probes was to PLC control system sender, so that the control pony ladle enters the position in the aluminium liquid.The angle of PLC control system control pony ladle rotation is finished the quantitative of aluminium liquid, and cast can be chosen rational cast step and poring rate by teaching, and the position is remembered automatically by the absolute light code disc, operates very simple, intuitive.
Motor cover (112), (135), (136) are arranged respectively outside AC servo motor (113), (156), (149).Tooth bar (117) is fixed on the transmission tube (121) by joint (118).On casing (141) and big arm (119), be connected with pull bar (120).Pull bar (120) is connected on the casing (141) by gear shaft (137), little axle (138).Tooth bar (123) etc. is positioned at casing (122).Tooth bar (143) etc. is positioned at casing (141).There is bearing (144) at joint shaft (145) two ends.Pull bar (146) is connected on the big arm (119).Spacer (157) is arranged outside the semiaxis (148).Axle sleeve (173) is arranged outside the axle (142).Connecing dish (154) reductor (155) shell links together.
The present invention also comprises hydraulic system, pneumatic system and electric control system.Electric control system is the PLC control system, promptly adopts programmable controller (PLC) to control the action of each motor.Control panel (175) is arranged on lathe bed top.
Fully automatic working cyclic process of the present invention as shown in figure 24.This cyclic process is an initial state with the blank curdled appearance.In this cyclic process, taking mechanical hand refers to get the foundry goods manipulator, and screen pack refers to screen pack automatic clamping and placing device, and heater refers to the steel disc heater, and two actions that have vertical line to link to each other are synchronization action.

Claims (9)

1, automatic aluminium piston casting machines; there are external mold and limit core mechanism (1-1), mold pushing mechanism (1-2) in lathe bed (01) top, get foundry goods manipulator mechanism (1-3); there are middle core mechanism (1-6), slew gear (1-7) in the lathe bed middle and lower part; it is characterized in that; it also has inserted trick manipulator mechanism (1-4), steel disc feed bin mechanism (1-5), lets slip filter screen mechanism (1-8), and pouring robot mechanism (1-9).
2, automatic aluminium piston casting machines as claimed in claim 1, it is characterized in that, on described inserted trick manipulator mechanism (1-4), big arm (62) one ends of manipulator are fixed on the gyroaxis (61) of external mold oil cylinder right support (11) top, the other end is fixed with adjustable plate (59), be fixed with manipulator cylinder (57) and guide post (56) on the adjustable plate, the piston rod of manipulator cylinder and manipulator forearm (55) link together, be fixed with inserted trick manipulator (54) on the fairlead, fairlead (69) is arranged between manipulator forearm and the guide post.
3, automatic aluminium piston casting machines as claimed in claim 1, it is characterized in that, in described steel disc feed bin mechanism (1-5), steel disc feed bin support (82) top that is fixed on lathe bed (01) side is fixed with steel disc material road (77), the push pedal (78) of pushing block (70) and pushing block front is arranged in the steel disc material road, pushing block links to each other with pulling block (84) through steel wire rope and pulley (83), there is pressing plate (75) at middle part, steel disc material road, steel disc feed bin support bottom is fixed with heater oil cylinder (81) up and down, be fixed with heater fixed head (80) on the piston rod of oil cylinder about the heater, be fixed with steel disc heater holder (73) on the heater fixed head, steel disc heater (74) is installed in the heater holder.
4, automatic aluminium piston casting machines as claimed in claim 1, it is characterized in that, let slip in the filter screen mechanism (1-8) described, screen pack upper and lower air cylinders (106) bottom end cover is fixed on to be got on the big arm of foundry goods manipulator (41), the piston rod of screen pack upper and lower air cylinders (106) and screen pack slide block (100) up and down link to each other, slide block links together by guide post (101) and support (95) up and down, be fixed with screen pack material road (93) on the support, screen pack feed bin (96), be fixed with the fixed mount (99) of screen pack automatic clamping and placing device (98), in the rotating shaft (97) about being fixed on the slide block (100), screen pack pivoted lever (103) is fixed in the rotating shaft (97), the piston rod upper end of the screen pack rotary cylinder (107) about bottom end cover is hinged on the slide block (100) is fixedly coupled bar (104), is hinged on the screen pack pivoted lever (103) by bearing pin (105).
5; Automatic aluminium piston casting machines as claimed in claim 1; It is characterized in that; In described pouring robot mechanism (1-9); Be fixed with base (109) on the column (108); AC servo motor (113) is by motor cabinet (111); Reductor (114) under the AC servo motor (113); Bearing and lid (110) are installed on the base (109); Transition disc (115) is fixed together with lid (110); AC servo motor (156) is fixed on the transition disc (115); AC servo motor (156) is through reductor (155); Connect dish (154); Axis (147) is fixed together with casing (116); Be fixed with big arm (119) on the casing (116); Be hinged with forearm (129) by joint shaft (145) on the big arm; Be fixed with head (134) on the forearm; AC servo motor (149) is by motor cabinet (150); Reductor (151) is fixed on the transition disc (152); Be fixed with gear (153) on the semiaxis (148) of fixing on the reductor; The tooth bar (117) of transmission tube (121) one ends in gear (153) and the big arm (119) meshes together; Gear on the tooth bar (123) of transmission tube (121) other end and the joint shaft (145) meshes together; Be fixed with gear (139) on the joint shaft all-in-one-piece gear shaft (140); The tooth bar (143) of transmission tube (128) one ends in gear (139) and the forearm (129) meshes together; Gear (130) in the tooth bar (133) of transmission tube (128) other end and the hand (134) meshes together; Between gear (132) and the gear (130) gear (131) is arranged, be fixed with pony ladle (172) on the axle (142) of gear (132).
6; automatic aluminium piston casting machines as claimed in claim 1; it is characterized in that; on described external mold and limit core mechanism (1-1); be fixed with big slide unit (08) on the lathe bed (01); external mold slide unit (07) is installed on the big slide unit; big slide unit lower left is equipped with left side pellet (16) and little slide unit (13); left side pellet is installed in little slide unit the inside; the cushion block (12) that the right pellet (09) is arranged below the big slide unit right side and fuse with big slide unit; be fixed with external mold oil cylinder (02) and limit core cross cylinder (03) on external mold oil cylinder left socle (53) and the external mold oil cylinder right support (11) respectively; external mold oil cylinder (02) is by external mold pull bar (18); external mold connection piece (04); briquetting (05) and pin pellet (06) link to each other with the external mold slide unit; the external mold pull bar has external mold spring (17) outward; left side pellet (16) links to each other with limit core cross cylinder (03) by lower guideway (15) on the core of the left side; the right pellet (09) links to each other with the right core cross cylinder by the right core pulling block (10); be fixed with core oil cylinder (14) up and down in the left side under the lathe bed on the horizontal riser of left side of face; the left side core piston rod of oil cylinder up and down links to each other with little slide unit (13), and lower guideway on the core of the left side (15) is installed together by T type groove on the pellet of the left side and left side pellet.
7, automatic aluminium piston casting machines as claimed in claim 1, it is characterized in that, on the core mechanism in described (1-6), SMIS (171) is fixed on the SMIS slide unit (20) by connecting pin (170), the SMIS slide unit links together by bearing pin (22) and contiguous block (21), contiguous block and SMIS oil cylinder (28) up and down link together, the SMIS slide unit by fixed thereon by bearing shaft (23), needle roller (24), the bearing arrangement that bearing outer ring (25) is formed is installed on the T type chute (27) T type chute, SMIS oil cylinder up and down is fixed on vertical riser at lathe bed center.
8, automatic aluminium piston casting machines as claimed in claim 1; it is characterized in that; on described mold pushing mechanism (1-2); backform horizontal air cylinder (34) is fixed on the fixed mount (35); the piston rod of backform horizontal air cylinder and bumper bracket (36) are fixed together; bumper bracket links together by the axis of guide (33) and backform support (32), and backform slide bar (31) top is installed in backform support upper and lower part backform (63) is installed.Fixed mount (35) and the big arm of getting in the foundry goods manipulator mechanism (1-6) of manipulator (41) are fixed together, and the big arm of manipulator is fixed on the gyroaxis (91) in the slew gear (1-7).
9, automatic aluminium piston casting machines as claimed in claim 1, it is characterized in that, get on the foundry goods manipulator mechanism (1-3) described, big arm (41) one ends of manipulator are fixed on that gyroaxis (91) in the slew gear is gone up, the other end is fixed with manipulator cylinder (44), the piston rod of manipulator cylinder is installed together by contiguous block (46) and connecting rod (47), connecting rod (47) is installed together with manipulator forearm (50), is fixed with manipulator (49) on the manipulator forearm.
CN 01127360 2001-08-29 2001-08-29 Automatic aluminium piston casting machines Expired - Fee Related CN1212210C (en)

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CN 01127360 CN1212210C (en) 2001-08-29 2001-08-29 Automatic aluminium piston casting machines

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CN1212210C CN1212210C (en) 2005-07-27

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Cited By (10)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102962437A (en) * 2012-10-22 2013-03-13 山东双港活塞有限公司 Automatic pouring device and method for piston
CN103008555A (en) * 2013-01-16 2013-04-03 邵宏 Full-automatic casting head dumping and screen adding equipment
CN104625011A (en) * 2015-02-26 2015-05-20 沈阳远大科技园有限公司 Strainer release unit for use in high-temperature environments
CN106694858A (en) * 2016-12-30 2017-05-24 安庆雅德帝伯活塞有限公司 Equipment for automatically assembling wear-resisting rings
CN106694852A (en) * 2016-12-16 2017-05-24 山东滨州渤海活塞股份有限公司 High-rigidity frame bed body for aluminum piston blank casting machine
CN106735142A (en) * 2016-12-16 2017-05-31 山东滨州渤海活塞股份有限公司 Produce the automatic casting machine of aluminum piston blank
CN107812909A (en) * 2017-12-18 2018-03-20 滨州博海精工机械有限公司 A kind of Novel diesel engine aluminum piston automatic casting machine
CN109332600A (en) * 2018-12-06 2019-02-15 安庆雅德帝伯活塞有限公司 A kind of automatic assembling salt neutron system and method
CN113245539A (en) * 2021-05-13 2021-08-13 马鞍山奥特佳机电有限公司 Full-automatic casting system of scroll compressor
CN116984585A (en) * 2023-09-26 2023-11-03 福建有福新能源科技有限公司 Full-automatic casting machine for piston blank

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Cited By (11)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102962437A (en) * 2012-10-22 2013-03-13 山东双港活塞有限公司 Automatic pouring device and method for piston
CN103008555A (en) * 2013-01-16 2013-04-03 邵宏 Full-automatic casting head dumping and screen adding equipment
CN104625011A (en) * 2015-02-26 2015-05-20 沈阳远大科技园有限公司 Strainer release unit for use in high-temperature environments
CN106694852A (en) * 2016-12-16 2017-05-24 山东滨州渤海活塞股份有限公司 High-rigidity frame bed body for aluminum piston blank casting machine
CN106735142A (en) * 2016-12-16 2017-05-31 山东滨州渤海活塞股份有限公司 Produce the automatic casting machine of aluminum piston blank
CN106694858A (en) * 2016-12-30 2017-05-24 安庆雅德帝伯活塞有限公司 Equipment for automatically assembling wear-resisting rings
CN107812909A (en) * 2017-12-18 2018-03-20 滨州博海精工机械有限公司 A kind of Novel diesel engine aluminum piston automatic casting machine
CN109332600A (en) * 2018-12-06 2019-02-15 安庆雅德帝伯活塞有限公司 A kind of automatic assembling salt neutron system and method
CN113245539A (en) * 2021-05-13 2021-08-13 马鞍山奥特佳机电有限公司 Full-automatic casting system of scroll compressor
CN116984585A (en) * 2023-09-26 2023-11-03 福建有福新能源科技有限公司 Full-automatic casting machine for piston blank
CN116984585B (en) * 2023-09-26 2023-12-01 福建有福新能源科技有限公司 Full-automatic casting machine for piston blank

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