CN107537997A - Straight-line oscillation casting machine - Google Patents

Abstract

Straight-line oscillation casting machine of the present invention involves a need to broken ferroalloy apparatus field, such as ferrosilicon, silico-calcium, silicomanganese, the ferroalloys such as ferromanganese, ferrochrome series, and in particular to straight-line oscillation casting machine, including frame and the vibrating grid being arranged in frame, the vibrating grid is connected by several elastic vibration devices with frame；It is provided with connected water cooling shaping frid and cooling frid, the water cooling forming tank plate level on the vibrating grid to set, cooling frid is obliquely installed, and water cooling shaping frid and cold goes frid by elasticity adjustment support with vibrating grid to be connected；The water cooling shaping frid includes frid and is connected to the water cooling box of frid bottom, and the water cooling box adjusts support by the elasticity and is connected with vibrating grid, and circulating water pipeline is provided with water cooling box；The present invention improves yield rate, and product recovery rate is high, and production procedure is short, can improve work situation, improves operating efficiency, increases the service life, and improves alloy quality and reduce being produced into.

Description

Straight-line oscillation casting machine

Technical field

The present invention relates to need to pour into a mould the iron conjunction such as broken ferroalloy apparatus field, such as ferrosilicon, silico-calcium, silicomanganese, ferromanganese, ferrochrome Golden series, and in particular to straight-line oscillation casting machine, reach is beaten by the continuous coo1ing of straight-line oscillation casting machine, vibration, realized The cooling forming of ferroalloy, and ferroalloy iron water amount and vibration parameters are poured into reach different-thickness ferroalloy ingot by adjustment Control, realize production different grain size ferroalloy productor target.

Background technology

The present invention is the novel manufacturing process on inoculant alloy ingot, it is particularly advantageous to manufacture fine and close composition unbiased Analysis, the method for high-quality inoculant alloy ingot.In the production of spheroidal graphite cast-iron, added into molten iron containing Mg, Ca, Si, RE etc. The nodulizer of spheroidization of graphite element, the graphite in molten iron is set to become globulate so as to obtain spheroidal graphite cast-iron, this cast iron has very The property such as good intensity and toughness.It is widely used in cast tube, automobile engine and high strength machine parts etc..In this bulb In the manufacturing process of tampon iron, generally use pours method or sandwich, and the nodulizer of the suitable particle size of solid is put into molten iron Bottom is wrapped, reinjects molten iron, these nodulizers and molten iron carry out fusing reaction, and the nodularization element in nodulizer makes the stone in molten iron Spherical transformation occurs for ink.

Nodulizer (rare earth silicon and magnesium Silcaz) plays an important role.Centre of the nodulizer as production spheroidal graphite cast-iron Alloy, the fine or not production to spheroidal graphite cast-iron of its quality has the function that to hold the balance, therefore it is particularly heavy to improve nodulizer quality Will, high-quality nodulizer requires high consistency and without component segregation, the defects of no shrinkage cavity shrinkage porosity.Consistency is the height of nodulizer One embodiment of quality, and an important Judging index of nodulizer quality.Nodulizer density is low, its density with iron liquid of side Differ larger, the speed that nodulizer floats in iron liquid during spheroidising, be unfavorable for fully absorbing for nodulizer.In reality Nodulizer consistency is improved in production can make nodulizer reacting balance, extend the reaction time, improve absorptivity and extend again from nodularization To the time of cast, can relative reduction nodulizer addition, reduce the production cost of spheroidal graphite cast-iron.Therefore the project implementation It is in good time and very necessary.

At present, China's the ferroalloy industry is not formed also completely with the technological innovation system of enterprises as principal components, and it is big to influence face The key technologies such as great process innovation, comprehensive utilization of resources, environmental protection and the new product of the enhancing performance of enterprises and competitiveness are opened Hair etc. is more deficiency.

Inoculant alloy is cast with 3 kinds of methods both at home and abroad at present, specific as follows：

(1) direct casting method

Cast in combination or single open mould.To be poured into after the completion of smelting in ingot mould, cooling is to lean on cross-ventilation natural cooling, Cool time is grown, and mold is grown by high-temperature time, causes the material heat resistant requirements to traditional mold high, and for a long time exposed to sky Alloy oxidation is serious in gas.Due to bearing high temperature for a long time, mold service life is short, and cost is high, and working condition is poor.

(2) direct casting method is capped

Cover plate is pre-placed in single ingot mould, has casting gate on cover plate, is poured into after the completion of smelting by sprue gate in ingot mould, really Protect alloy to be grown by high-temperature time without natural cooling in the case of exposed area, cool time length, mold again, cause the material to mold Heat resistant requirements are high, typically cover more or more than ten sets larger with the use of input cost.The difference for the capacity cast, ingot mould used Size and material are also different.Ingot mould will carry out preheating and spray paint before, by wash away serious position also to pad and The alloy cast has the nodulizer of analogous components.The speed difference of alloy injection ingot mould can cause ingot mould intracavitary resident a large amount of empty Gas, phenomenon of feeling suffocated happen occasionally, and causing must potential safety hazard.Phenomenon of feeling suffocated can make alloy produce hole and layering, during casting Slag floats over sprue gate, increase cleaning difficulty.Alloy graining and after cooling after a while, take out alloy pig.Ingot mould After the preparations such as spray paint and parallels are carried out, it can come into operation again.Its labor productivity is relatively low, costly. Mold service life is short, and China largely uses this method ingot casting at present.

(3) water cooling mold ingot casting

In single and multiple water cooling group moulds, upper/lower die is passed through cooling water.Alloy is injected by guiding gutter after the completion of smelting In mould.Advantage alloy cool time is short, and alloy consistency is had some improvement；Mould need not put into too many group, but base Infrastructure input is larger,（Pond, water pump）Labor productivity and labor intensity have been alleviated.Shortcoming to hydraulic pressure and water requirement compared with Strictly, if water shortage or hydraulic pressure not enough cause cooling effect to decline, die deformation can be made or can not be used；If leak and Feeling suffocated has explosion danger, and remaining and capping ingot mould are similar.

The content of the invention

In order to solve the above problems, present invention offer is a kind of simple in construction, can improve work situation, improves work effect Rate, increase the service life, improve alloy quality and reduce the straight-line oscillation casting machine of production cost.

Straight-line oscillation casting machine of the present invention, including frame and the vibrating grid that is arranged in frame, if the vibrating grid by A dry elastic vibration device is connected with frame；

Connected water cooling shaping frid is provided with the vibrating grid and cooling frid, the water cooling forming tank plate level are set, Cooling frid be obliquely installed, water cooling shaping frid and it is cold go frid by elasticity adjustment support be connected with vibrating grid；

The water cooling shaping frid includes frid and is connected to the water cooling box of frid bottom, the water cooling box and frid stationary phase Even, the water cooling box adjusts support by the elasticity and is connected with vibrating grid, and circulating water pipeline is provided with water cooling box；

The frid removes the lateral edges being connected with cooling frid, and water cooling damper for forming is provided with remaining edge, described cold But refrigerated baffle is provided with the corresponding two edges of frid, refrigerated baffle connects to forming material cooling with water cooling damper for forming Passage；

The water cooling shaping frid and the cooling equal synchronous vibration of frid.

Preferably, flexible adjustment support includes adjusting seat and stacker, and the adjusting seat is arranged on vibrating grid, described to hold Joint chair is arranged on water cooling shaping frid or cooling frid, and adjusting seat and stacker are oppositely arranged, and adjusting seat and stacker Be provided with a connecting pin on end face, in adjusting seat and stacker the central axis of connecting pin on the same line, two connecting pins It is connected by spring, the both ends of the spring is socketed on two connecting pins respectively, and regulation gap is provided between two connecting pins.

Preferably, adjusting seat is connected by two bolts with vibrating grid, and bolt, which is each passed through, to be arranged on vibrating grid Sliding groove is connected with adjusting seat, and two sliding grooves are set in herringbone, and its angle is 85-95 degree.

Preferably, elastic vibration device includes vibrating motor and main vibration spring, and the vibrating motor is symmetricly set on vibration Frame both sides, the revolution of two vibrating motor synchronous backwards；The main vibration spring sets promising eight groups, and every group of main vibration spring passes through upper spring Seat is connected with vibrating grid, is connected by lower spring cup with frame, and eight groups of main vibration springs are distributed in vibrating grid both ends, and on vibration The barycenter setting in a center of symmetry of frame.

Preferably, cooling frid is arranged to three, and three cooling frids are sequentially connected, and cool down the trapezoidal setting of frid.

Preferably, water cooling shaping frid bottom is provided with multichannel bosh, is leaned on per the water inlet of bosh all the way Nearly cooling frid, delivery port is away from cooling frid；

Water cooling shaping frid is divided into two parts, is molded frid close to one end of cooling frid for end water cooling, the other end is head end Water cooling is molded frid, and the bosh of end water cooling shaping frid bottom is arranged to S-shaped, and head end water cooling is molded the cold of frid bottom But tank sets rectilinear.

Preferably, water cooling shaping frid is connected by six flexible adjustment supports with vibrating grid, and adjusting seat is along cooling duct Axis or so is uniformly arranged in pairs, and the adjusting seat is arranged on local barycenter, and the local barycenter is that water cooling is molded frid six Mass centre after decile on every equal portions.

Preferably, it is connected on each cooling frid by four flexible adjustment supports with vibrating grid, the cooling of adjusting seat edge Passage axis or so is uniformly arranged in pairs, and the adjusting seat is arranged on local barycenter, and the local barycenter is cooling frid four After decile, the mass centre on every decile.

Preferably, it is additionally provided with a forming tank plate temperature detector on water cooling shaping frid.

Preferably, disengaging hydraulic pressure detector is provided with circulating water pipeline.

The present invention improves yield rate, and product recovery rate is high, and production procedure is short, can improve work situation, improves work effect Rate, increase the service life, improve alloy quality and reduce being produced into.

The present invention can continuous production, without prepare it is a few set or more than ten complete equipments, while reduce ingot mould consumption, reduce to workshop The requirement of usable floor area, process solve heavy and dangerous front and rear preparation, substantially reduce work well without manual operation People's labor intensity.Vibrating grid is driven to vibrate by elastic vibration device, so as to promote positioned at water cooling shaping frid and cooling frid On aluminium alloy make sling movement, reduce requirement of the cooling frid to cooling water channel, improve process safety.

Drive water cooling to be molded frid and cool down frid by vibrating grid to make aluminium alloy thereon sling movement, reduce alloy The time of contact of liquid and cooling frid and water cooling shaping frid, frid is molded to cooling frid and water cooling so as to reduce aluminium alloy Corrode and wear.

Alloy, again to solid-state, can gradually increase density from liquid to solid solution state by sling movement and self gravitation effect, Residual gas in alloy is reduced so that thinning solidification structure.

Due to vibrating grid so as to driving cooling frid and water cooling forming tank plate shape into synchronous vibration so that make disposed thereon Liquid metal intermolecular force is strengthened and heat release is accelerated, and is significantly improved by vibrating Cool density, solution strengthening crystal grain Obvious refinement and produce that refined crystalline strengthening separates out primary silicon and Eutectic Silicon in Al-Si Cast Alloys size is obviously reduced；Inoculant alloy solidified structure primary phase Refinement and nodularization, the generation of external nucleus when improving spheroidal graphite cast-iron nodularization；It is simultaneously solidifying away from determining from solidification theory, interdendritic Radiating condition on liquid/solid interface, heat-sinking capability are stronger.Then the influence for the latent heat that each branch is separated out is smaller, and interdendritic is away from more Small, consistency is higher.Therefore condition is provided for production high-quality spheroidal graphite cast-iron.

Brief description of the drawings

Fig. 1 is schematic structural view of the invention.

Fig. 2 is Fig. 1 right view.

Fig. 3 is water cooling forming tank plate structure schematic diagram.

Fig. 4 is cooling bath plate structure schematic diagram.

Fig. 5 is flexible adjustment supporting structure schematic diagram.

Fig. 6 is adjusting seat and vibrating grid connection diagram.

Reference：1- vibrating motors, 2- frames, 3- elastic vibration devices, 4- water coolings shaping frid, 5- cooling frids, 7- stackers, 8- vibrating grids, 9- springs, 10- adjusting seats, 11- water cooling boxes, 12- connecting pins, 13- frids, 14- water coolings shaping gear Plate, 15- refrigerated baffles, 17- bolts, 18- sliding grooves.

Embodiment

Straight-line oscillation casting machine of the present invention, including frame 2 and the vibrating grid 8 that is arranged in frame 2, the vibrating grid 8 are logical Several elastic vibration devices 3 are crossed with frame 2 to be connected；

Connected water cooling shaping frid 4 and cooling frid 5 are provided with the vibrating grid 8, the water cooling shaping level of frid 4 is set Put, cooling frid 5 is obliquely installed, and water cooling shaping frid 4 and cold goes frid 13 by the elasticity adjustment support and phase of vibrating grid 8 Even；

The water cooling shaping frid 4 includes frid 13 and is connected to the water cooling box 11 of the bottom of frid 13, the water cooling box 11 and groove Plate 13 is fixedly linked, and the water cooling box 11 adjusts support by the elasticity and is connected with vibrating grid 8, is provided with and follows on water cooling box 11 Ring water cooling pipeline；

The frid 13 removes the lateral edges being connected with cooling frid 5, and water cooling damper for forming 14, institute are provided with remaining edge State and be provided with refrigerated baffle 15 on the corresponding two edges of cooling frid 5, refrigerated baffle 15 connects with water cooling damper for forming 14 Form material cooling duct；

The water cooling shaping frid 4 and cooling 5 equal synchronous vibration of frid.

Flexible adjustment support includes adjusting seat 10 and stacker 7, and the adjusting seat 10 is arranged on vibrating grid 8, described to hold Joint chair 7 is arranged on water cooling shaping frid 4 or cooling frid 5, and adjusting seat 10 and stacker 7 are oppositely arranged, and the He of adjusting seat 10 It is provided with a connecting pin 12 on the end face of stacker 7, the central axis of connecting pin 12 is same in adjusting seat 10 and stacker 7 On straight line, two connecting pins 12 are connected by spring 9, and the both ends of spring 9 are socketed on two connecting pins 12 respectively, two connecting pins 12 Between be provided with regulation gap.

Adjusting seat 10 is connected by two bolts 17 with vibrating grid 8, and bolt 17, which is each passed through, to be arranged on vibrating grid 8 Sliding groove 18 is connected with adjusting seat 10, and two sliding grooves 18 are set in herringbone, and its angle is 85-95 degree.

Elastic vibration device 3 includes vibrating motor 1 and main vibration spring 9, and the vibrating motor 1 is symmetricly set on vibrating grid 8 Both sides, the revolution of the synchronous backward of two vibrating motor 1；The main vibration spring 9 sets promising eight groups, and every group of main vibration spring 9 passes through upper bullet Spring 9 is connected with vibrating grid 8, and by lower spring, 9 are connected with frame 2, and eight groups of main vibration springs 9 are distributed in the both ends of vibrating grid 8, and Barycenter setting in a center of symmetry on vibrating grid 8.Vibrating grid 8 is connected with frame 2 by main vibration spring 9, and by vibrating electricity Machine 1 does synchronous backward gyration and produces exciting force so as to drive vibrating grid 8 to do reciprocating linear motion.

Cooling frid 5 is arranged to three, and three cooling frids 5 are sequentially connected, and cool down 5 trapezoidal setting of frid.

Water cooling shaping frid 4 bottom is provided with multichannel bosh, is close to cool down per the water inlet of bosh all the way Frid 5, delivery port is away from cooling frid 5；

Water cooling shaping frid 4 divides for two parts, frid 4 is molded close to one end of cooling frid 5 for end water cooling, headed by the other end Water cooling shaping frid 4 is held, the bosh of end water cooling shaping frid 4 bottom is arranged to S-shaped, head end water cooling shaping frid 4 bottom The bosh in portion sets rectilinear.

Water cooling shaping frid 4 is connected by six flexible adjustment supports with vibrating grid 8, and adjusting seat 10 is along cooling duct axis Left and right is uniformly arranged in pairs, and the adjusting seat 10 is arranged on local barycenter, and the local barycenter is that water cooling is molded frid 4 six etc. Mass centre after point on every equal portions.

It is connected on each cooling frid 5 by four flexible adjustment supports with vibrating grid 8, adjusting seat 10 is along cooling duct Axis or so is uniformly arranged in pairs, and the adjusting seat 10 is arranged on local barycenter, and the local barycenter is the cooling fourth class of frid 5 After point, the mass centre on every decile.The temperature detector of a shaping frid 13 is additionally provided with water cooling shaping frid 4.Recirculated water Disengaging hydraulic pressure detector is provided with cooling pipe.

Cooling water recirculation system is opened before casting, makes hydraulic pressure close to 0.2MP2, by manual operation by alloy in stove slowly Rebound is poured into, water cooling shaping frid 4 is flowed into through rebound, is filled by exciting force caused by vibrating motor 1 by elastic vibration Put 3 to pass to vibrating grid 8 and drive water cooling shaping frid 4 and cooling frid 5 to vibrate, by the established angle for setting vibrating motor 1 Degree, so as to realize that exciting force forces material to be done in certain direction in each frid 13 by certain angle through the vibration of principal earthquake spring 9 Simple harmonic motion.When its movement velocity reaches certain value, i.e., more than acceleration of gravity, material is just molded frid 4 and cold in water cooling But small continuous sling movement is done in frid 5.By being molded frid 4 with water cooling and cooling down the contact of frid 5 so that flow through Water cooling is molded frid 4 and the alloy of cooling frid 5 gradually cools down, and heat mainly passes through the copper frid that water cooling is molded on frid 4 13 heat conduction are taken away by cooling water again, finally cool down blocking alloy and fall into recovering hopper, complete casting cycle.Alloy compact density and Granular size is determined that shake frequency and amplitude can effectively be changed by changing the supply frequency of vibrating motor 1 by shake frequency, amplitude.

Claims (9)

1. a kind of straight-line oscillation casting machine, including frame（2）Be arranged on frame（2）On vibrating grid（8）, it is characterised in that The vibrating grid（8）Pass through several elastic vibration devices（3）With frame（2）It is connected；

The vibrating grid（8）On be provided with connected water cooling shaping frid（4）With cooling frid（5）, the water cooling shaping frid （4）It is horizontally disposed, cool down frid（5）It is obliquely installed, water cooling shaping frid（4）Frid is removed with cold（13）Pass through elasticity adjustment branch Frame and vibrating grid（8）It is connected；

The water cooling is molded frid（4）Including frid（13）Be connected to frid（13）The water cooling box of bottom（11）, the water cooling Case（11）With frid（13）It is fixedly linked, the water cooling box（11）Support and vibrating grid are adjusted by the elasticity（8）It is connected, water Ice chest（11）On be provided with circulating water pipeline；

The frid（13）Except with cooling down frid（5）A connected lateral edges, water cooling damper for forming is provided with remaining edge （14）, the cooling frid（5）Refrigerated baffle is provided with corresponding two edges（15）, refrigerated baffle（15）With water cooling into Type baffle plate（14）Connect to forming material cooling duct；

The water cooling is molded frid（4）With cooling frid（5）Equal synchronous vibration；

The flexible adjustment support includes adjusting seat（10）And stacker（7）, the adjusting seat（10）It is arranged on vibrating grid（8） On, the stacker（7）It is arranged on water cooling shaping frid（4）Or cooling frid（5）On, adjusting seat（10）And stacker（7）Phase To setting, and adjusting seat（10）And stacker（7）End face on be provided with a connecting pin（12）, adjusting seat（10）And stacker （7）Upper connecting pin（12）Central axis on the same line, two connecting pins（12）Pass through spring（9）It is connected, the spring（9） Both ends are socketed in two connecting pins respectively（12）On, two connecting pins（12）Between be provided with regulation gap.

2. straight-line oscillation casting machine as claimed in claim 1, it is characterised in that the adjusting seat（10）Pass through two bolts （17）With vibrating grid（8）It is connected, bolt（17）It is each passed through and is arranged on vibrating grid（8）On sliding groove（18）With adjusting seat（10） It is connected, and two sliding grooves（18）Set in herringbone, its angle is 85-95 degree.

3. straight-line oscillation casting machine as claimed in claim 1, it is characterised in that the elastic vibration device（3）Including vibration electricity Machine（1）And main vibration spring（9）, the vibrating motor（1）It is symmetricly set on vibrating grid（8）Both sides, two vibrating motors（1）It is synchronous anti- To revolution；The main vibration spring（9）Promising eight groups are set, every group of main vibration spring（9）Pass through upper spring（9）Seat and vibrating grid（8） It is connected, passes through lower spring（9）Seat and frame（2）It is connected, eight groups of main vibration springs（9）It is distributed in vibrating grid（8）Both ends, and on shaking Moving frame（8）Barycenter setting in a center of symmetry.

4. the straight-line oscillation casting machine as described in claim 1 or 2 or 3, it is characterised in that the cooling frid（5）It is arranged to three It is individual, and three cooling frids（5）It is sequentially connected, cools down frid（5）Trapezoidal setting.

5. straight-line oscillation casting machine as claimed in claim 4, it is characterised in that the water cooling is molded frid（4）Bottom is provided with Multichannel bosh, it is close to cool down frid per the water inlet of bosh all the way（5）, delivery port is away from cooling frid（5）；

Water cooling is molded frid（4）It is divided into two parts, close to cooling frid（5）One end for end water cooling be molded frid（4）, it is another Hold and be molded frid for head end water cooling（4）, end water cooling shaping frid（4）The bosh of bottom is arranged to S-shaped, head end water cooling into Type groove plate（4）The bosh of bottom sets rectilinear.

6. straight-line oscillation casting machine as claimed in claim 5, it is characterised in that the water cooling is molded frid（4）Pass through six bullets Property adjusting bracket and vibrating grid（8）It is connected, adjusting seat（10）It is uniformly arranged in pairs along cooling duct axis or so, the adjusting seat （10）It is arranged on local barycenter, the local barycenter is that water cooling is molded frid（4）Mass centre after six deciles on every equal portions.

7. straight-line oscillation casting machine as claimed in claim 6, it is characterised in that each cooling frid（5）On pass through four bullets Property adjusting bracket and vibrating grid（8）It is connected, adjusting seat（10）It is uniformly arranged in pairs along cooling duct axis or so, the adjusting seat （10）It is arranged on local barycenter, the local barycenter is cooling frid（5）After the quartering, the mass centre on every decile.

8. straight-line oscillation casting machine as claimed in claim 7, it is characterised in that the water cooling is molded frid（4）On be additionally provided with One shaping frid（13）Temperature detector.

9. straight-line oscillation casting machine as claimed in claim 8, it is characterised in that be provided with disengaging on the circulating water pipeline Hydraulic pressure detector.