CN110303120A - A kind of V method moulding line - Google Patents

Abstract

The present invention relates to casting technology field more particularly to a kind of V method moulding lines.Design including Quick-moving type stripper apparatus, bracket need to be only moved to below torsion shaft by handle when overmolded, starting bridge motor can promote die box to certain altitude, and die box can be checked to mold area at this time, and bridge motor reversion can put down die box；Die box is promoted after sealer, the flip angle of die box can control by overturning motor, to realize overmolded movement；Its straight line can be dragged to molding land regions under die box promotion state, to can control the landing work of die box by bridge motor, realize cooperation molding movement；Without repeatedly carrying out suspension allocation and transportation to die box during entire Mold Making, it is time saving and energy saving that work efficiency is high, it solves and during putting sandbox, overturning sandbox, molding and molding platform and placing sandbox is required to that it is carried out by lifting machine repeatedly to hang allocation and transportation, time-consuming and laborious ineffective problem.

Description

A kind of V method moulding line

Technical field

The present invention relates to casting technology field more particularly to a kind of V method moulding lines.

Background technique

The casting of V method is to seal sandbox using plastic film, by air in vacuum-pumping system extraction type, has pressure inside and outside casting mold Power is poor, keeps dry sand closely knit, and type chamber needed for being formed, Jing Xiaxin, mould assembling, casting, which vacuumize, makes casting solidification, releases negative pressure, molding sand with It is defeated and dispersed and obtain casting.

Its processing is be covered on the film of softening on apperance surface layer, by airport, in 200~400mmHg Pull of vacuum under, so that film is tightly attached to model surface.

(1) sandbox is put

Stenciling coating and after drying (be not required in technique can also), special shape mo(u)lding box is placed on the model for being covered with film.

(2) add sand jolt ramming

By charging efficiency preferably, granularity be 100~200 mesh dry sand be added sandbox in, then carry out micro- vibration, make sand consolidation to compared with High density.

(3) cover mold

Sprue cup is opened, layer of sand surface is struck off, covers plastic film, to close sandbox.

(4) molding

Sandbox is vacuumized by means of covering the film on sandbox surface, hardens casting mold under the action of atmospheric pressure.When molding, release Negative pressure box vacuum is put, solves removing template to the adsorption capacity of film, a casting mold is completed in then top case molding.

The iron chains being required to during sandbox and molding through lifting machine is placed putting sandbox, overturning sandbox, molding platform It is allocated and transported；Wherein overturn sandbox when need first be maneuvered on tipper, after being overturn by tipper again by Lifting machine is maneuvered on molding platform, and above-mentioned allocation and transportation process needs repeatedly fixed suspension iron chains, and time-consuming and laborious working efficiency is low.

Summary of the invention

The technical problems to be solved by the invention are that it is raw to provide a kind of V method moulding for above-mentioned technical deficiency Bracket need to be only moved to below torsion shaft when overmolded by handle, be opened using the design of Quick-moving type stripper apparatus by producing line Dynamic bridge motor can promote die box to certain altitude, die box can be checked to mold area at this time, bridge motor reversion can Die box is put down；Die box is promoted after sealer, can control the flip angle of die box by overturning motor, thus real Overmolded movement is showed；Its straight line can be dragged to molding land regions, thus can by bridge motor under die box promotion state Cooperation molding movement is realized in the landing work for controlling die box；During entire Mold Making without repeatedly to die box into Row suspension allocation and transportation, time saving and energy saving work efficiency is high, solves and is putting sandbox, overturning sandbox, molding and molding platform placement sandbox It is required to that it is carried out by lifting machine repeatedly to hang allocation and transportation, time-consuming and laborious ineffective problem in the process.

In order to solve the above technical problems, the technical scheme adopted by the invention is that: including cement surface, cable, die box and Quick-moving type stripper apparatus；The perforation of middle part lower section is provided with casting gate on front side of the die box；The die box front and rear sides Davit has been fixedly installed above middle part；Described davit one end is provided with block；In length direction in the middle part of the cement surface On be provided with sliding rail；The Quick-moving type stripper apparatus is arranged inside sliding rail；It is set between sliding rail in the middle part of the cement surface It is equipped with mold slot；The Quick-moving type stripper apparatus includes track pedestal, bridge motor, control bat-handle switch, hoisting frame, connection Axis device, transmission key block and support；The track two sides of base is provided with support in the longitudinal direction；The support left end setting There is stull；The support bottom is provided with multiple pulleys；The pulley is slidably connected inside sliding rail；One end on the left of the stull It is fixedly installed pull rod；Handle is provided at the top of the pull rod.

The technical program is advanced optimized, two supports are internal to be fixedly installed guide holder；The guide holder two End is mounted on fixing seat；The first ball screw is provided in the middle part of two fixing seat of left side；In the middle part of two fixing seat of right side Second ball screw is installed；First ball screw and the second ball screw both ends pass through fixing seat respectively and connect through bearing It connects in the middle part of guide holder；Separate slot is provided in the middle part of first ball screw and the second ball screw；In the guide holder inside Between position be fixedly installed SKF bearing block；The SKF bearing block is connected with separate slot by bearing.

The technical program is advanced optimized, the separate slot leftward position of first ball screw is left hand thread；It is described The separate slot right positions of first ball screw are right-handed thread；The separate slot leftward position of second ball screw is left-handed spiral shell Line；The separate slot right positions of second ball screw are right-handed thread.

The technical program is advanced optimized, two lateral roof of guide holder is fixedly installed with guide rail；On the guide rail Slidably connect sliding block；First ball screw and the second ball screw on both sides of the middle are provided with ball jacket；It is described Fixed plate is fixedly installed at the top of ball jacket；Fixed plate bottom both ends are fixed with sliding block respectively.

The technical program is advanced optimized, is fixedly installed the first attachment base at the top of the fixed plate；The promotion Frame bottom both ends are provided with the first connecting shaft；First connecting shaft is connected with the first attachment base shaft；The hoisting frame top Portion middle position is fixedly installed the second connecting shaft；Shaft is connected to rest base both ends to second connecting shaft respectively.

The technical program is advanced optimized, the holder top is provided with pallet；Among the left side tray top Position is fixedly installed the first bracket；The right side tray top leftward position is fixedly installed the second bracket；The die box The first torsion shaft is fixedly installed in left side central portion；The first torsion shaft shaft is connected to inside the first bracket；The die box is right Middle side part is fixedly installed the second torsion shaft；The second torsion shaft shaft is connected to inside the second bracket.

The technical program is advanced optimized, the right side tray top right positions are fixedly installed with overturning motor；Institute It states overturning motor shaft end and is provided with splined shaft；The splined shaft is slidably connected inside transmission key block；Second torsion shaft is right Middle side part is provided with spline；The transmission key block left end is slidably connected inside spline；Right side in the middle part of the transmission key block It is provided with postive stop baffle.

The technical program is advanced optimized, the hoisting frame top side is fixedly installed fixing axle；The fixation Gear is fixedly installed on axis；It is intermeshed between adjacent two gear.

The technical program is advanced optimized, the stull both ends are fixedly installed the first right-angle steering device；Described The output shaft end of one right angle diverter is keyed with the first ball screw and the second ball screw left end respectively；In the middle part of the stull It is fixedly installed the second right-angle steering device；The second right-angle steering device both ends are keyed respectively transmission shaft；The transmission shaft The other end is connected with the input shaft end of the first right-angle steering device by shaft coupling respectively；The bridge motor is fixedly mounted on stull Left side central portion position；The bridge motor shaft end and the second right-angle steering device input shaft end key connection.

Compared with prior art, the invention has the following advantages that the design of 1, Quick-moving type stripper apparatus, when overmolded only Bracket need to be moved to below torsion shaft by handle；2, starting bridge motor can promote die box to certain altitude, at this time Die box can be checked to mold area, bridge motor reversion can put down die box；3, die box is promoted after sealer, is led to Crossing overturning motor can control the flip angle of die box, to realize overmolded movement；4, nothing during entire Mold Making Need suspension allocation and transportation repeatedly are carried out to die box, it is time saving and energy saving that work efficiency is high, solve put sandbox, overturning sandbox, molding and Molding platform is required to carry out repeatedly hanging allocation and transportation to it by lifting machine during placing sandbox, and time-consuming and laborious working efficiency is low The problem of；5, it can realize by stirring the postive stop baffle in transmission key block to the left and will overturn the splined shaft of motor and turning over for die box Shaft combines；6, the torsion shaft power cut that can will overturn the splined shaft and die box of motor by stirring postive stop baffle to the right； 7, entire patternmaking process is not necessarily to carry out die box suspension allocation and transportation, and die box is relatively more steady during shifting allocation and transportation；8, pass through Single bridge motor power source drives two lateral brackets to be promoted simultaneously, it is ensured that the horizontal of die box is promoted, and can prevent die box Lateral deviation phenomenon occurs.

Detailed description of the invention

Fig. 1 is a kind of integral installation status diagram of V method moulding line.

Fig. 2 is a kind of overmolded status diagram of V method moulding line.

Fig. 3 is a kind of die box structure chart of V method moulding line.

Fig. 4 is that a kind of Quick-moving type stripper apparatus of V method moulding line promotes status diagram.

Fig. 5 is a kind of bottom driving portion structure schematic diagram of V method moulding line.

Fig. 6 is a kind of right side transmission portion structural schematic diagram of V method moulding line.

Fig. 7 is a kind of overmolded portion structure schematic diagram of V method moulding line.

Fig. 8 is a kind of hoisting frame connecting portion structure partial cross-sectional view of V method moulding line.

Fig. 9 is a kind of left side transmission portion structural schematic diagram of V method moulding line.

In figure: 1, cement surface；101, sliding rail；102, mold slot；2, cable；3, die box；301, casting gate；302, it lifts by crane Column；303, block；304, the first torsion shaft；305, the second torsion shaft；306, spline；4, Quick-moving type stripper apparatus； 401, track pedestal；402, bridge motor；403, bat-handle switch is controlled；404, hoisting frame；405, shaft coupling；406, driving key Block；407, it supports；408, stull；409, pulley；410, pull rod；411, handle；412, guide holder；413, fixing seat；414, One ball screw；415, the second ball screw；416, separate slot；417, SKF bearing block；418, guide rail；419, sliding block；420, ball Sleeve；421, fixed plate；422, the first attachment base；423, the first connecting shaft；424, the second connecting shaft；425, support；426, it holds in the palm Disk；427, the first bracket；428, the second bracket；429, motor is overturn；430, splined shaft；431, postive stop baffle；432, fixing axle； 433, gear；434, the first right-angle steering device；435, the second right-angle steering device；436, transmission shaft.

Specific embodiment

In order to make the objectives, technical solutions and advantages of the present invention clearer, With reference to embodiment and join According to attached drawing, the present invention is described in more detail.It should be understood that these descriptions are merely illustrative, and it is not intended to limit this hair Bright range.In addition, in the following description, descriptions of well-known structures and technologies are omitted, to avoid this is unnecessarily obscured The concept of invention.

Specific embodiment 1: in conjunction with shown in Fig. 1-9, a kind of V method moulding line it is characterized by comprising cement surface 1, Cable 2, die box 3 and Quick-moving type stripper apparatus 4；The 3 front side middle part lower section perforation of die box is provided with casting gate 301；Top has been fixedly installed davit 302 in the middle part of 3 front and rear sides of die box；Described 302 one end of davit is provided with Block 303；1 middle part of cement surface is provided with sliding rail 101 in the longitudinal direction；The Quick-moving type stripper apparatus 4 is arranged Inside sliding rail 101；1 middle part of cement surface is provided with mold slot 102 between sliding rail 101；The Quick-moving type demoulding Device 4 includes track pedestal 401, bridge motor 402, control bat-handle switch 403, hoisting frame 404, shaft coupling 405, transmission key block 406 and support 425；401 two sides of track pedestal are provided with support 407 in the longitudinal direction；407 left ends of the support are set It is equipped with stull 408；407 bottoms of the support are provided with multiple pulleys 409；The pulley 409 is slidably connected in sliding rail 101 Portion；Described 408 left side one end of stull is fixedly installed pull rod 410；Handle 411 is provided at the top of the pull rod 410；Described two Guide holder 412 is fixedly installed inside support 407；412 both ends of guide holder are mounted on fixing seat 413；The left side two The first ball screw 414 is provided in the middle part of fixing seat 413；The second ball screw is installed in the middle part of two fixing seat 413 of right side 415；First ball screw 414 and 415 both ends of the second ball screw pass through fixing seat 413 respectively and are connected to and lead through bearing To 412 middle part of seat；Separate slot 416 is provided in the middle part of first ball screw 414 and the second ball screw 415；The guide holder 412 bosom positions are fixedly installed SKF bearing block 417；The SKF bearing block 417 is connected with separate slot 416 by bearing； 416 leftward position of separate slot of first ball screw 414 is left hand thread；The separate slot 416 of first ball screw 414 is right Side position is right-handed thread；416 leftward position of separate slot of second ball screw 415 is left hand thread；Second ball 416 right positions of separate slot of screw rod 415 are right-handed thread；412 liang of lateral roofs of the guide holder are fixedly installed with guide rail 418； Sliding block 419 is slidably connected on the guide rail 418；415 on both sides of the middle of first ball screw 414 and the second ball screw It is provided with ball jacket 420；Fixed plate 421 is fixedly installed at the top of the ball jacket 420；421 bottom of fixed plate Both ends are fixed with sliding block 419 respectively；421 top of fixed plate is fixedly installed the first attachment base 422；The hoisting frame 404 bottoms both ends are provided with the first connecting shaft 423；First connecting shaft 423 is connected with 422 shaft of the first attachment base；Institute It states 404 top center position of hoisting frame and is fixedly installed the second connecting shaft 424；Second connecting shaft 424 distinguishes shaft connection At 425 bottom both ends of support；Pallet 426 is provided at the top of the support 425；The 426 top center position of left side pallet It is fixedly installed the first bracket 427；The 426 top left side position of right side pallet is fixedly installed the second bracket 428；The mould Have 3 left side central portion of case and the first torsion shaft 304 is fixedly installed；First torsion shaft, 304 shaft is connected in the first bracket 427 Portion；3 right side central of die box is fixedly installed the second torsion shaft 305；Second torsion shaft, 305 shaft is connected to second Inside bracket 428；The 426 top right side position of right side pallet is fixedly installed with overturning motor 429；The overturning motor 429 Shaft end is provided with splined shaft 430；The splined shaft 430 is slidably connected inside transmission key block 406；Second torsion shaft 305 Right side central is provided with spline 306；406 left end of transmission key block is slidably connected inside spline 306；The driving key 406 middle part right side of block is provided with postive stop baffle 431；404 top side of hoisting frame is fixedly installed fixing axle 432；Institute It states and is fixedly installed gear 433 in fixing axle 432；It is intermeshed between adjacent two gear 433；408 liang of the stull End is fixedly installed the first right-angle steering device 434；The output shaft end of the first right-angle steering device 434 respectively with the first ball Screw rod 414 and 415 left end of the second ball screw key connection；The second right-angle steering device is fixedly installed in the middle part of the stull 408 435；Second right-angle steering device, 435 both ends are keyed respectively transmission shaft 436；436 other end of transmission shaft respectively and The input shaft end of first right-angle steering device 434 is connected by shaft coupling 405；The bridge motor 402 is fixedly mounted on stull 408 Left side central portion position；402 shaft end of bridge motor and 435 input shaft end of the second right-angle steering device key connection.

In use, step 1 places 3 process of die box, passes through fork truck or other tools in conjunction with shown in Fig. 1-6 and Fig. 9 Die box 3 is placed on to the progressive die area at rear, the two sides torsion shaft of die box 3 is laterally disposed, and the casting gate of die box 3 301 forward, after placement, because ' 407 bottoms of the support are provided with multiple pulleys 409；The pulley 409 is slidably connected at Inside sliding rail 101；Described 408 left side one end of stull is fixedly installed pull rod 410；Handle is provided at the top of the pull rod 410 411 ', so handle 411 can pull track pedestal 401 to be moved forward and backward by pull rod 410, track pedestal when pulling handle 411 Band movable pulley 409 drives pallet in 101 internal slide of sliding rail, while in 401 moving process of track pedestal in 401 moving process The first bracket 427 and the second bracket 428 of 426 tops move together, by handle 411 by the first bracket 427 and the first bracket 427 are moved to 305 lower section of the first torsion shaft 304 of die box 3 and the second torsion shaft.

Start bridge motor 402 by control bat-handle switch 403, because ' it is straight to be fixedly installed second in the middle part of the stull 408 Angle diverter 435；Second right-angle steering device, 435 both ends are keyed respectively transmission shaft 436；The transmission shaft 436 is another End is connected with the input shaft end of the first right-angle steering device 434 by shaft coupling 405 respectively；The bridge motor 402 is fixedly mounted In 408 left side central portion position of stull；402 shaft end of bridge motor and 435 input shaft end of the second right-angle steering device key connection ' institute To drive the input shaft end of the second right-angle steering device 435 to rotate together when the rotation of bridge motor 402, the second right-angle steering device 435 Deflecting can realize that right side output shaft rotates clockwise, and left side output shaft rotates counterclockwise；So passing through the second right-angle steering device 435 Output shaft drive two sides transmission shaft 436 rotate backward.

Because ' 408 both ends of stull are fixedly installed the first right-angle steering device 434；The first right-angle steering device 434 Output shaft end be keyed respectively with the first ball screw 414 and 415 left end of the second ball screw ' so working as right side transmission shaft The first right-angle steering device 434 of right side is driven to rotate clockwise together by shaft coupling 405 when 436 rotation, thus straight by first Diverter 434 deflecting in angle drives the second ball screw 415 to rotate clockwise；Left side is driven when similarly left side drive shafts 436 rotate The first right-angle steering device 434 rotate counterclockwise together, thus by 434 deflecting of the first right-angle steering device drive the first ball wire Bar 414 take advantage of a situation together needle rotation；First ball screw 414 is identical with 415 rotation direction of the second ball screw, and revolving speed phase Deng.

Step 2, in conjunction with shown in Fig. 1-9, because ' being fixedly installed guide holder 412 inside two support 407；It is described to lead Fixing seat 413 is mounted on to 412 both ends of seat；The first ball screw 414 is provided in the middle part of two fixing seat 413 of left side；Institute It states and the second ball screw 415 is installed in the middle part of two fixing seats 413 of right side；First ball screw 414 and the second ball screw 415 both ends pass through fixing seat 413 respectively and are connected to 412 middle part of guide holder through bearing；State the first ball screw 414 and the second rolling Separate slot 416 is provided in the middle part of ballscrew 415；The 412 bosom position of guide holder is fixedly installed SKF bearing block 417；Institute SKF bearing block 417 is stated to connect with separate slot 416 by bearing ' so the first ball screw 414 and the second ball screw 415 are propping up Support 407 inner rotations, the setting of SKF bearing block 417 can play leading for the first ball screw 414 and the second ball screw 415 To fixed function, prevent because torque it is excessive caused by the first ball screw 414 and the second ball screw 415 deformation.

Because ' first ball screw 414 and 415 on both sides of the middle of the second ball screw are provided with ball jacket 420；Institute It states and is fixedly installed fixed plate 421 at the top of ball jacket 420；The 421 bottom both ends of fixed plate are fixed with sliding block 419 respectively ' So the first ball screw 414 and the second ball screw 415 drive ball jacket 420 to be moved forward and backward when rotating, thus by solid Fixed board 421 drives the sliding block 419 of two sides to be moved forward and backward together along sliding rail 101, and displacement guiding is played in the setting of sliding block 419 Effect.

Because ' 416 leftward position of separate slot of first ball screw 414 is left hand thread；First ball screw 414 416 right positions of separate slot be right-handed thread；416 leftward position of separate slot of second ball screw 415 is left hand thread；Institute 416 right positions of separate slot for stating the second ball screw 415 are right-handed thread ' so when the first ball screw 414 rotates clockwise When, the fixed plate 421 on the first ball screw 414 is moved to middle part simultaneously；With should the first 414 counter motion of ball screw when The counter motion that two fixed plates 421 can be achieved, because the first ball screw 414 is identical with 415 structure of the second ball screw, and root It is equal according to the steering and revolving speed of above-mentioned the first ball screw 414 and the second ball screw 415, so on Left-side support 407 Fixed plate 421 it is synchronous with the movement of fixed plate 421 on Right side support 407.

Because ' 421 top of fixed plate is fixedly installed the first attachment base 422；The 404 bottom both ends of hoisting frame are equal It is provided with the first connecting shaft 423；First connecting shaft 423 is connected with 422 shaft of the first attachment base ' thus left end fixed plate 421 can push 404 bottom of the hoisting frame synchronization of left end to move to the right when moving to the right by the first attachment base 422, left end First attachment base 422 of the hoisting frame 404 around bottom rotate counterclockwise opening, similarly the fixed plate 421 of right end moves to the left 404 bottom of hoisting frame of right end is pushed to move to the left by the first attachment base 422 of top, the hoisting frame 404 of right end is the bottom of around First attachment base 422 in portion rotates clockwise opening.

Because ' the 404 top center position of hoisting frame is fixedly installed the second connecting shaft 424；Second connecting shaft 424 Shaft is connected to 425 bottom both ends of support respectively ' thus when hoisting frame 404 is flipped up opening drive support 425 simultaneously to Upper movement, because ' 404 top side of hoisting frame is fixedly installed fixing axle 432；Fixation is set in the fixing axle 432 It is equipped with gear 433；It is intermeshed between adjacent two gear 433 ', so support 425 uses place during moving upwards In horizontality.

Step 3 drives the first bracket by the pallet 426 of top when support 425 moves upwards as shown in figs 1-9 respectively 427 and second bracket 428 move upwardly together, the first support when the first bracket 427 and the second bracket 428 are promoted to certain altitude Frame 427 and the second bracket 428 respectively on die box 3 the first torsion shaft 304 and the second torsion shaft 305 be in contact, lifting electricity The die box 3 that works on of machine 402 starts to lift；Release on control handle switch 403 at this time, the shutdown of bridge motor 402 is simultaneously self-locking, the Two torsion shafts 305 are just concentric with the splined shaft 430 of overturning motor 429.

Because ' the 426 top right side position of right side pallet is fixedly installed with overturning motor 429；429 axis of overturning motor End is provided with splined shaft 430；The splined shaft 430 is slidably connected inside transmission key block 406；Second torsion shaft 305 is right Middle side part is provided with spline 306；406 left end of transmission key block is slidably connected inside spline 306；The transmission key block 406 middle parts right side are provided with postive stop baffle 431 ', so postive stop baffle 431 drives transmission when pushing postive stop baffle 431 to the left Key block 406 moves to the left together, and transmission 406 left end of key block is inserted into inside the spline 306 of the second torsion shaft 305, driving key Block 406 is connected with motor shaft spline, and is driven key block 406 and is connected with 305 spline of the second torsion shaft, to stir limit to the left Position baffle 431 can be connected the second torsion shaft 305 of the splined shaft 430 and die box 3 that overturn motor 429 by transmission key block 406 It connects；So driven mold case 3 turns together when overturning motor 429 rotates by the control starting overturning motor 429 of bat-handle switch 403 It is dynamic；Die box 3 is adjusted by control bat-handle switch 403 and turns to horizontal position and release on control handle switch 403, is overturn at this time The shutdown of motor 429 is simultaneously self-locking, and die box 3 is fixed to certain altitude and is horizontally arranged.

Step 4, it is shown in conjunction with figure-, die box 3 is declined by bridge motor 402, is higher than the rack of its gaza mouthful 3 top of die box, and 3 bottom of die box is higher than the upper surface of gaza's fixed platform；At this time mold can be pulled by handle 411 The top of case 3 is located at gaza mouthful, and die box 3 is placed on gaza's platform by bridge motor 402, and die box 3 is fixed On gaza's platform, the film laying at the top of the mold inside die box 3, by negative pressure by film cures, and above film Spray paint；Mould sand is finally poured at the top of die box 3, and top is struck off into sealer, to seal die box 3.

When molding, negative pressure box vacuum, adsorption capacity of the solution removing template to film are discharged；By bridge motor 402 by die box 3 Certain altitude is promoted, its 3 bottom of die box and die head are completely disengaged, moves die box 3 finally by handle 411 Out, continue die box 3 promoting (height and position can guarantee that the switching process of die box 3 is not interfered)；By overturning motor 429, by 3 degree of turning clockwise of die box, realize overmolded process at this time.

It, will by bridge motor 402 finally by it by pulling handle 411 that die box 3 is moved to above mold platform Die box 3 is placed on above mold platform, and flower of the key block 406 from the second torsion shaft 305 will be driven by stirring postive stop baffle 431 to the right It is released inside keyway 306,305 transmission portion of the second torsion shaft of the splined shaft 430 and die box 3 that overturn motor 429 is cut It is disconnected, pallet 426 is adjusted finally by bridge motor 402 and arrives extreme lower position, Quick-moving type stripper apparatus 4 is moved to most right End carries out secondary molding.

In conclusion the design of Quick-moving type stripper apparatus 4, bracket need to be only moved to by when overmolded by handle 411 Below torsion shaft；Starting bridge motor 402 can promote die box 3 to certain altitude, die box 3 can be checked mold at this time Area, the reversion of bridge motor 402 can put down die box 3；Die box 3 is promoted after sealer, it is controllable by overturning motor 429 The flip angle of molding jig case 3, to realize overmolded movement；Without repeatedly to die box 3 during entire Mold Making Suspension allocation and transportation are carried out, time saving and energy saving work efficiency is high, solves and is putting sandbox, overturning sandbox, molding and molding platform placement sand It is required to that it is carried out by lifting machine repeatedly to hang allocation and transportation, time-consuming and laborious ineffective problem during case.

Control mode of the invention is automatically controlled by controller, the skill that the control circuit of controller passes through this field Art personnel's simple programming can be realized, and belong to the common knowledge of this field, and the present invention is mainly used to protect mechanical device, institute Control mode and circuit connection are not explained with the present invention.

It should be understood that above-mentioned specific embodiment of the invention is used only for exemplary illustration or explains of the invention Principle, but not to limit the present invention.Therefore, that is done without departing from the spirit and scope of the present invention is any Modification, equivalent replacement, improvement etc., should all be included in the protection scope of the present invention.In addition, appended claims purport of the present invention Covering the whole variations fallen into attached claim scope and boundary or this range and the equivalent form on boundary and is repairing Change example.

Claims (9)

1. a kind of V method moulding line, it is characterised in that: including cement surface (1), cable (2), die box (3) and fast move Formula stripper apparatus (4)；The perforation of middle part lower section is provided with casting gate (301) on front side of the die box (3)；Before the die box (3) Davit (302) have been fixedly installed above two middle side parts afterwards；Described davit (302) one end is provided with block (303)；It is described It is provided with sliding rail (101) in the longitudinal direction in the middle part of cement surface (1)；The Quick-moving type stripper apparatus (4) is arranged in sliding rail (101) internal；Mold slot (102) are provided between sliding rail (101) in the middle part of the cement surface (1)；The Quick-moving type is de- Mold device (4) includes track pedestal (401), bridge motor (402), control bat-handle switch (403), hoisting frame (404), shaft coupling (405), key block (406) and support (425) are driven；Track pedestal (401) two sides are provided with support in the longitudinal direction (407)；Described support (407) left end is provided with stull (408)；Described support (407) bottom is provided with multiple pulleys (409)； It is internal that the pulley (409) is slidably connected at sliding rail (101)；One end is fixedly installed pull rod on the left of the stull (408) (410)；Handle (411) are provided at the top of the pull rod (410).

2. a kind of V method moulding line according to claim 1, it is characterised in that: two support (407) is internal solid Surely guide holder (412) are provided with；Guide holder (412) both ends are mounted on fixing seat (413)；Two fixing seat of left side (413) middle part is provided with the first ball screw (414)；The second ball screw is installed in the middle part of two fixing seat of right side (413) (415)；First ball screw (414) and the second ball screw (415) both ends pass through fixing seat (413) through bearing respectively It is connected in the middle part of guide holder (412)；Separate slot is provided in the middle part of first ball screw (414) and the second ball screw (415) (416)；Guide holder (412) the bosom position is fixedly installed SKF bearing block (417)；The SKF bearing block (417) It is connected with separate slot (416) by bearing.

3. a kind of V method moulding line according to claim 2, it is characterised in that: first ball screw (414) Separate slot (416) leftward position is left hand thread；Separate slot (416) right positions of first ball screw (414) are dextrorotation spiral shell Line；Separate slot (416) leftward position of second ball screw (415) is left hand thread；Second ball screw (415) Separate slot (416) right positions are right-handed thread.

4. a kind of V method moulding line according to claim 2, it is characterised in that: (412) two lateral roof of guide holder It is fixedly installed with guide rail (418)；Sliding block (419) are slidably connected on the guide rail (418)；First ball screw (414) and the second ball screw (415) on both sides of the middle is provided with ball jacket (420)；It is solid at the top of the ball jacket (420) Surely fixed plate (421) are provided with；Fixed plate (421) the bottom both ends are fixed with sliding block (419) respectively.

5. a kind of V method moulding line according to claim 4, it is characterised in that: solid at the top of the fixed plate (421) Surely the first attachment base (422) are provided with；Hoisting frame (404) the bottom both ends are provided with the first connecting shaft (423)；Described One connecting shaft (423) is connected with the first attachment base (422) shaft；Hoisting frame (404) the top center position is fixedly installed Second connecting shaft (424)；Shaft is connected to support (425) bottom both ends to second connecting shaft (424) respectively.

6. a kind of V method moulding line according to claim 1, it is characterised in that: be respectively provided at the top of the support (425) There are pallet (426)；Left side pallet (426) the top center position is fixedly installed the first bracket (427)；The right side pallet (426) top left side position is fixedly installed the second bracket (428)；Die box (3) the left side central portion fixed setting first is turned over Shaft (304)；It is internal that first torsion shaft (304) shaft is connected to the first bracket (427)；In on the right side of the die box (3) Portion is fixedly installed the second torsion shaft (305)；It is internal that second torsion shaft (305) shaft is connected to the second bracket (428).

7. a kind of V method moulding line according to claim 6, it is characterised in that: right side pallet (426) top right Side position is fixedly installed with overturning motor (429)；Overturning motor (429) shaft end is provided with splined shaft (430)；The spline It is internal that axis (430) is slidably connected at transmission key block (406)；Second torsion shaft (305) right side central is provided with spline (306)；It is internal that transmission key block (406) left end is slidably connected at spline (306)；It is right in the middle part of the transmission key block (406) Side is provided with postive stop baffle (431).

8. a kind of V method moulding line according to claim 1, it is characterised in that: hoisting frame (404) top side It is fixedly installed fixing axle (432)；Gear (433) are fixedly installed on the fixing axle (432)；Adjacent two gear (433) it is intermeshed between.

9. a kind of V method moulding line according to claim 2, it is characterised in that: stull (408) both ends are fixed It is provided with the first right-angle steering device (434)；The output shaft end of the first right-angle steering device (434) respectively with the first ball screw (414) it is keyed with the second ball screw (415) left end；The second right-angle steering device is fixedly installed in the middle part of the stull (408) (435)；Second right-angle steering device (435) both ends are keyed respectively transmission shaft (436)；The transmission shaft (436) is another End is connected with the input shaft end of the first right-angle steering device (434) by shaft coupling (405) respectively；The bridge motor (402) is solid Dingan County is mounted in stull (408) left side central portion position；Bridge motor (402) shaft end and the input of the second right-angle steering device (435) Shaft end key connection.