CN108620556A - Aluminium alloy quantitative compensation material-pouring device - Google Patents

Abstract

The present invention discloses a kind of combination of both aluminium alloy quantitative compensation material-pouring devices, including heat preservation melt, heat preservation melt upper cover and forms quantitative furnace；Electric cabinet is located at the outer wall of heat preservation melt；Elevating mechanism is located at the outer bottom of quantitative furnace, and elevating mechanism is equipped with the supporting rack that quantitative furnace can be made to turn on one's side；The side of elevating mechanism is equipped with control hydraulic station；The input terminal of control hydraulic station is connect with electric cabinet, and the output end for controlling hydraulic station extends to the inner wall of quantitative furnace；The interior bottom of quantitative furnace is equipped with heating device and output device；Output device is equipped with quantitative delivery pipe and batch turning chute；Quantitative delivery pipe is located at the inside of quantitative furnace, and batch turning chute is located at the outer wall of quantitative furnace；The top right side of quantitative furnace is equipped with feeding equipment, and feeding equipment is connect with the screw top of heat preservation melt upper cover；The present invention is not only improved batch turning quantitative accuracy, greatly reduces die-cast product due to quantifying the mass defect that not smart, molten aluminum is unclean and occurs, improves product qualification rate, while accomplishing energy conservation and environmental protection.

Description

Aluminium alloy quantitative compensation material-pouring device

Technical field

The invention belongs to the technical fields of aluminium alloy quantifying feed in die-casting process, quantitative more particularly to a kind of aluminium alloy Compensate material-pouring device.

Background technology

Be molded in industry in aluminium alloy compression casting, the aluminum melt batch turning in each period is stablized and it is constant be a kind of guarantee die casting The necessary means of product weight and quality, the multi-recycling amount formulated according to its size and weight by each shaped article and The batch turning time is unmodifiable parameter, so this relative constant feeding quantity must be completed within the temperature drop time of permission. That is, no matter being fed with which kind of mode, the batch turning weight and temperature drop of die casting will permit in fixed processing range, so industry In frequently refer to so-called quantitative, refer to just that the weight that is set according to product requirement is consistent with the weight really to feed.Cause It is to define finally quantitative deciding factor that this, which improves the batch turning precision and repeatability that temperature drop allows in shot cycle,.

Material-pouring device is that the heat preservation volume by splendid attire molten aluminium alloy and the charging bucket and fuel shuffling tube that are connected with this are common Coordinate to complete, power resources pass through time, weight and pressure integral differential and compensate meter in the compressed air supplied in proportion It calculates and realizes high-precision batch turning process.Molten aluminium alloy is the charging bucket that material-pouring device thermal insulator is added by transhipment bag, every The molten aluminium alloy of quantitative values is discharged into melting cup of die casting machine by a die casting period by the compressed air compensated in proportion by fuel shuffling tube In.

Traditional aluminium alloy material-pouring device is referred to as soup feeding machine, each period its after open machine side holding furnace Sheng scoops, Enter melting cup of die casting machine, completes quantitative batch turning.The charge spoon of soup feeding machine is connect by artificial adjusting in series by serial constant volume It touches and is quantified to the length of machine side opening heat preserving furnace aluminum alloy molten solution liquid level, can not accomplish accurately arbitrary electrodeless quantitative tune It is whole；Simultaneously in order to maintain shot cycle constant, soup feeding machine will be contained and scoop molten aluminum in advance, and move to standby position and wait for batch turning order, Temperature drop is apparent；Open machine side holding furnace can cause surface oxidation, soup feeding machine to contain scoop from surface every time, it will be aoxidized containing The impurity of object is brought into final die-cast product, and product quality is influenced；Open machine side holding furnace will also lose amount of heat, cause The loss of energy consumption.For a long time, problem above is urgently to be resolved hurrily.

Invention content

The present invention provides aluminium alloy quantitative compensation material-pouring device, the above problem of solution.

To solve the above problems, technical solution provided by the invention is as follows：Aluminium alloy quantitative compensation material-pouring device, successively from Under to equipped with elevating mechanism, heat preservation melt, heat preservation melt upper cover；The heat preservation melt, heat preservation melt top cover combination form and determine Measure stove；The electric cabinet is located at the outer wall of the heat preservation melt；The elevating mechanism is located at the outer bottom of the quantitative furnace, described Elevating mechanism is equipped with the supporting rack that quantitative furnace can be made to turn on one's side；The side of the elevating mechanism is equipped with control hydraulic station；The control The input terminal of hydraulic station is connect with electric cabinet, and the output end of the control hydraulic station extends to the inner wall of the quantitative furnace；It is described The interior bottom of quantitative furnace is equipped with heating device and output device；The heating device is evenly distributed on the inner wall of the heat preservation melt On, the output device is equipped with quantitative delivery pipe and batch turning chute；The quantitative delivery pipe is located at the inside of the quantitative furnace, institute State the outer wall that batch turning chute is located at the quantitative furnace；The top right side of the quantitative furnace is equipped with feeding equipment, the feeding equipment It is connect with the screw top of the heat preservation melt upper cover.

Preferred technical solution support frame as described above is equipped with fixed part and lifting unit；The top of the fixed part with it is described quantitative The bottom right of stove is hinged；The top of the lifting unit is fixedly connected with the bottom of the quantitative furnace, the fixed part, lifting unit Between both made by connector it is fixed.

Preferred technical solution, the heat preservation melt are internally provided with heating device；The heating device is evenly distributed on The inner wall of the heat preservation melt；The heating device is multiple electrothermal tubes, and the electrothermal tube is silicon charcoal material；The electrothermal tube with The electric cabinet is electrically connected.

The right end of preferred technical solution, the quantitative furnace is equipped with energy clean-up port, and the clean-up port is equipped with cleaning window, described Clear up the side outer wall hinge of window one end and the clean-up port, the cleaning window other end is fixed with lock, it is described latch and The other side outer wall lock connection of the clean-up port.

Preferred technical solution, one end of the quantitative delivery pipe is located at the inside of the heat preservation melt, described quantitative defeated The other end of pipe is sent to fix the discharge outlet for being located at the heat preservation melt；Batch turning chute one end is connect with the discharge port, The corresponding other end of batch turning chute extends to the molten cup inlet orifice of die casting machine outside the heat preservation melt.

The top of preferred technical solution, the batch turning chute is fixed with molten aluminum detection device, the molten aluminum inspection It surveys device and is equipped with trigger electrode, connecting rod, cylinder, fixed frame；The fixed frame fixes the top for being located at the discharge port, described The middle part of connecting rod is fixedly connected with the fixed frame, the cylinder output end and described connecting rod one end hinge, the connection The bottom of the bar other end is fixedly connected with the trigger electrode；The trigger electrode is with the discharge port in the same vertical plane On.

Preferred technical solution, the heat preservation melt are internally provided with furnace gas temperature galvanic couple, the furnace gas temperature galvanic couple Test lead extends to the inside of the quantitative furnace, and output end and the power control cabinet of the furnace gas temperature galvanic couple are electrically connected.

The side of preferred technical solution, the molten aluminum detection device is equipped with temperature of aluminum liquid galvanic couple；The temperature of aluminum liquid electricity Even test lead extends to the interior bottom of the quantitative furnace, and output end and the power control cabinet of the temperature of aluminum liquid galvanic couple are electrically connected.

The top right end rear side of preferred technical solution, the heat preservation melt upper cover is equipped with feed inlet, and the feed inlet is set There is molten aluminum feeding device；The molten aluminum feeding device is equipped with charging bucket and feeding cover, described charging bucket one end and the feed inlet Be screwed connection, and the charging bucket other end coordinates with the feeding cover.

Preferred technical solution, the power control cabinet are located at the preceding outer wall of the quantitative furnace；The power control cabinet be equipped with master control borad, Display screen；The master control borad is electrically connected with the control hydraulic station；The master control borad is equipped with operational module, module of having a holiday or vacation；Institute It is equal equipped with form unit, order receiving unit, batch turning unit, injection unit, die sinking unit, pass form unit is closed successively to state operational module It is connect with computing unit signal；The module of having a holiday or vacation is equipped with matched button of having a holiday or vacation in the display screen, described to put False module is electrically connected with heating device.

Advantageous effect compared with the existing technology is that using the above scheme, the present invention not only obtains batch turning quantitative accuracy It improves, and response is rapid, greatly reduces die-cast product due to quantifying the mass defect that not smart, molten aluminum is unclean and occurs, and carries High production yield, while accomplishing energy conservation and environmental protection.

Description of the drawings

Illustrate embodiment or technical solution in the prior art in order to clearer, it below will be to embodiment or the prior art The required attached drawing used is briefly described in description, it is clear that, the accompanying drawings in the following description is only some realities invented Example is applied, it for those of ordinary skill in the art, without creative efforts, can also be according to these attached drawings Obtain other attached drawings.

One of Fig. 1 is the structural diagram of the present invention；

Fig. 2 is the second structural representation of the present invention.

Specific implementation mode

To facilitate the understanding of the present invention, in the following with reference to the drawings and specific embodiments, the present invention will be described in more detail. The preferred embodiment of the present invention is given in attached drawing.But the present invention can realize in many different forms, and it is unlimited In this specification described embodiment.Make to the disclosure on the contrary, purpose of providing these embodiments is Understand more thorough and comprehensive.

It should be noted that when element is referred to as " being fixed on " another element, it can be directly on another element Or there may also be elements placed in the middle.When an element is considered as " connection " another element, it can be directly connected to To another element or it may be simultaneously present centering elements.Term used in this specification " fixation ", " integrated molding ", For illustrative purposes only, the similar unit of structure is to identical label in the figure for "left", "right" and similar statement Mark.

Unless otherwise defined, technical and scientific term all used in this specification is led with the technology for belonging to the present invention The normally understood meaning of technical staff in domain is identical.Used term is only in the description of the invention in this specification The purpose of description specific embodiment is not intended to the limitation present invention.

Technical solution of the present invention is：As shown in Figure 1, aluminium alloy quantitative compensation material-pouring device, successively under To equipped with elevating mechanism 5, heat preservation melt 3, heat preservation melt upper cover 15；The heat preservation melt 3, heat preservation melt upper cover 15 combine shape At quantitative furnace；The electric cabinet 4 is located at the outer wall of the heat preservation melt 3；The elevating mechanism 5 is located at the outer bottom of the quantitative furnace Portion, the elevating mechanism 5 are equipped with the supporting rack that quantitative furnace can be made to turn on one's side；The side of the elevating mechanism 5 is equipped with control hydraulic station； The input terminal of the control hydraulic station is connect with electric cabinet 4, and the output end of the control hydraulic station extends to the quantitative furnace Inner wall；The interior bottom of the quantitative furnace is equipped with heating device and output device；The heating device is evenly distributed on the heat preservation On the inner wall of melt 3, the output device is equipped with quantitative delivery pipe and batch turning chute 13；It is described fixed that the quantitative delivery pipe is located at The inside of stove is measured, the batch turning chute 13 is located at the outer wall of the quantitative furnace；The top right side of the quantitative furnace is equipped with charging and fills It sets, the feeding equipment is connect with the screw top of heat preservation 3 upper cover of melt.

Preferred technical solution, supporting rack are equipped with fixed part and lifting unit；The top of fixed part and the bottom of quantitative furnace are cut with scissors Even；The top of lifting unit is fixedly connected with the bottom of quantitative furnace, keeps the two fixed by connector between fixed part, lifting unit, Fixed part is located at the right end of quantitative furnace, and lifting unit is located at the left end of quantitative furnace, and when lifting unit rises, the molten aluminum in quantitative furnace is from the right side It flows out the clean-up port at end.Further, connector is hinge, the fixed part connection on fixed part top and hinge, the movable part of hinge It is fixedly connected with the bottom of quantitative furnace；Ensure that quantitative furnace one end is risen in this way, the corresponding other end, which can rotate, can make to quantify It turns over furnace side.Further, support holder function the first plays the role of making quantitative furnace rollover to supporting role, second, and burner hearth is needed When cleaning and replacement alloy designations type, cleaning window 8 is opened, stove tilts, and the residual metallic liquid of the inside is passed through clean-up port It pours out；Therefore, it is based on above functions, a minimum of two groups of hydraulic lifting framves of supporting rack constitute, lead between two groups of hydraulic lifting framves Crossing connecting rod or connection strap makes the two be fixed to each other, and the top of first group of hydraulic lifting frame is equipped with groove body, is set in groove body There is semicircular rack, the semi-circle gear to match with semicircular rack is additionally provided in groove body, the middle part of semi-circle gear is equipped with rotation axis, The output end of one end of rotation axis and motor connects, and motor is connect with electric cabinet 4, the top of quantitative furnace and semi-circle gear it is transversal Face is fixedly connected；The top of second group of hydraulic lifting frame is fixedly connected with the bottom of quantitative furnace；When needing rollover, second Hydraulic lifting frame rises, while motor drives semi-circle gear rotation, quantitative furnace run-off the straight rollover；The cooperation of wheel and rack makes When in order to allow quantitative furnace run-off the straight to turn on one's side, slowly, steadily, the molten aluminum in quantitative furnace will not be made to roll, splash out, it is fixed to also enhance The soundness between stove and hydraulic lifting frame is measured, accident rate is reduced.

The right end of the quantitative furnace is equipped with energy clean-up port, and the clean-up port is arranged with cleaning window 8, and the cleaning window 8 is fixed The side outer wall hinge at end and the clean-up port, 8 movable part of cleaning window are fixed with lock, the lock and the cleaning The other side outer wall lock connection of mouth；When needing to clean and replace alloy designations type in quantitative furnace, open clean-up port with it is clear The lock between window 8 is managed, when quantitative furnace is tilted to a certain extent, molten aluminum is flowed out from clean-up port；Further, lock can be electromagnetism Lock can also be equipped with jack in the movable part of cleaning window 8, chain one is fixed at the clean-up port adjacent with cleaning 8 movable part of window End, the chain other end are equipped with pin and are inserted into the secondary locking of progress in jack.

Preferred technical solution, one end of the quantitative delivery pipe is located at the interior lower end of the heat preservation melt 3, described fixed The other end of amount delivery pipe fixes the discharge outlet for being located at the heat preservation melt 3；Described 13 one end of batch turning chute and the discharging Mouth connection, the 13 corresponding other end of the batch turning chute extend to the molten cup inlet orifice of die casting machine outside the heat preservation melt 3； Further, discharge port is located at the top of heat preservation melt 3, in order to allow molten aluminum to be entered in quantitative delivery pipe from the inside of quantitative furnace or The position of setting needs to inject corresponding air pressure into quantitative furnace, from needing from 13 stream of batch turning chute when a certain amount of molten aluminum, With regard to needing continual the output phase to answer air pressure.

The top of preferred technical solution, the batch turning chute 13 is fixed with molten aluminum detection device 12, the molten aluminum inspection It surveys device 12 and is equipped with trigger electrode, connecting rod, cylinder, fixed frame；The fixed frame fixes the top for being located at the discharge port, institute The middle part for stating connecting rod is fixedly connected with the fixed frame, the cylinder output end and described connecting rod one end hinge, the company The bottom of the extension bar other end is fixedly connected with the trigger electrode；The trigger electrode is with the discharge port same vertical flat On face, convenient for the temperature of trigger electrode moment detection molten aluminum；Further, fixed frame is frame body, rolling rod, two roller bearings；Two Roller bearing is respectively provided at the both sides of frame body, and rolling rod both ends are connect with two roller bearings, and the middle part of rolling rod is equipped with through-hole.When cylinder work When making, cylinder pushes connecting rod, connecting rod to be moved forward with cylinder engaging portion, and the connecting rod other end drives trigger electrode to rise, Cylinder output end bounces back, and trigger electrode falls.

Preferred technical solution is internally provided with furnace gas temperature galvanic couple 10, the furnace gas temperature in 3 lower body of heat preservation melt The test lead of degree galvanic couple 10 extends to the inside of the quantitative furnace, and the output end and power control cabinet of the furnace gas temperature galvanic couple 10 are electrical Connection.

The top left side of preferred technical solution, heat preservation 3 upper cover of melt is equipped with temperature of aluminum liquid galvanic couple 11；The aluminium The test lead of liquid temperature galvanic couple 11 extends to the interior bottom of the quantitative furnace, the output end of the temperature of aluminum liquid galvanic couple 11 with it is automatically controlled Cabinet is electrically connected.

Preferred technical solution, be equipped on rear side of the top right end of heat preservation 3 upper cover of melt molten aluminum feeding device 15 and into Material mouth, the molten aluminum feeding device 15 are equipped with charging bucket and feeding cover, and described charging bucket one end is screwed with the feed inlet Connection, the feeding cover other end coordinate with the feeding cover.

Preferred technical solution, the power control cabinet are located at the preceding outer wall of the quantitative furnace；The power control cabinet is located at described fixed Measure the preceding outer wall of stove；The power control cabinet is equipped with master control borad, display screen；The master control borad is electrically connected with the control hydraulic station； The master control borad is equipped with operational module, module of having a holiday or vacation；The operational module is equipped with successively to close form unit, order receiving unit, falls Material unit, injection unit, die sinking unit, pass form unit are connect with computing unit signal；The module of having a holiday or vacation is in the display Matched button of having a holiday or vacation is equipped in screen, the module of having a holiday or vacation is electrically connected with heating device.

Preferred technical solution, power control cabinet are located at the preceding outer wall of quantitative furnace；Power control cabinet is equipped with master control borad, display screen；Master control Plate is electrically connected with control hydraulic station；Master control borad is equipped with operational module, module of having a holiday or vacation；Operational module successively be equipped with close form unit, Order receiving unit, batch turning unit, injection unit, die sinking unit, pass form unit are believed with matched touch key-press in display screen Number connection.

The course of work

1）Guan Mo：Period, at this time compressed air molten aluminum is risen into certain height by fuel shuffling tube by setting ratio and is awaited orders；

2）It is connected to batch turning order：By the weight that die-casting process requirement is set, by the compressed air in proportion through overcompensation by aluminium Liquid continues to rise to batch turning nozzle from height of awaiting orders；

3）Batch turning：Continued compensation scale compression air flows through batch turning chute 13 and enters pressure until molten aluminum is overflowed by setting weight Casting machine melts in cup, and quantitative molten aluminium alloy batch turning finishes；

4）Injection starts：Volume pressure release is kept the temperature, molten aluminium alloy retreats to liquid level in volume；

5）Die sinking：It keeps the temperature volume and maintains pressure release state, wait for next cycle；

6）Next time closes mould：Next cycle period starts, and repeated compression air is risen to molten aluminum by fuel shuffling tube by setting ratio Certain height is awaited orders.

Embodiment：The storage molten aluminum amount of quantitative furnace is 1.5 tons, injects 1.2 tons of molten aluminums, stove into quantitative furnace by charging bucket Furnace gas temperature, temperature of aluminum liquid are constantly transferred to the master control borad of electric cabinet 4 by temperature degree galvanic couple 10, temperature of aluminum liquid galvanic couple 11, work as aluminium When liquid temperature is less than standard value, electric cabinet 4 sends out instruction to electrothermal tube makes electrothermal tube heat, temperature stopping heating up to standard；According to The related datas such as volume of furnace gas temperature, temperature of aluminum liquid, pressure in stove, quantitative furnace are existed by computing module calculating molten aluminum of sening as an envoy to The air pressure that lifting position needs in quantitative delivery pipe reaches air pressure and molten aluminum needed for the nozzle of quantitative delivery pipe through batch turning in molten aluminum Chute 13 flows out required air pressure and duration；When needing batch turning, it is necessary first to which Guan Mo, hydraulic station are injected into quantitative furnace 0.02mpa makes molten aluminum enter the middle part of quantitative delivery pipe, then triggers batch turning order, and hydraulic station is re-injected into quantitative furnace 0.01mpa makes molten aluminum enter the nozzle of quantitative delivery pipe, meanwhile, trigger electrode detects the temperature of molten aluminum in nozzle, works as triggering When the temperature of electrode detection is greater than the set value, cylinder drives trigger electrode to lift, and executes batch turning order, hydraulic station is into quantitative furnace Continued compensation scale compression air is 0.02mpa, until molten aluminum is overflowed by setting weight, flows through batch turning chute 13 and enters die casting machine In molten cup, quantitative molten aluminium alloy batch turning finishes；This is to start to execute injection order, and hydraulic station stops input air pressure, and heat preservation is held Body pressure release, molten aluminium alloy retreat to liquid level in volume, meanwhile, when the temperature of trigger electrode detection is less than setting value, gas Cylinder drives trigger electrode to fall, and executes die sinking order, and heat preservation volume maintains pressure release state, the die sinking of next cycle is waited for order It enables.

When having a holiday or vacation or when weekend, click is had a holiday or vacation button, and the temperature of aluminum liquid in quantitative furnace is made to keep a set point of temperature value, when When less than set point of temperature value, electrothermal tube is heated, and stops heating when reaching set point of temperature.

Advantageous effect compared with the existing technology is that using the above scheme, the present invention not only obtains batch turning quantitative accuracy It improves, and response is rapid, greatly reduces die-cast product due to quantifying the mass defect that not smart, molten aluminum is unclean and occurs, and carries High production yield, while accomplishing energy conservation and environmental protection.

It should be noted that above-mentioned each technical characteristic continues to be combined with each other, the various embodiments not being enumerated above are formed, It is accordingly to be regarded as the range of description of the invention record；Also, for those of ordinary skills, it can add according to the above description To improve or convert, and all these modifications and variations should all belong to the protection domain of appended claims of the present invention.

Claims (10)

1. aluminium alloy quantitative compensation material-pouring device, which is characterized in that be equipped with elevating mechanism from top to bottom successively, heat preservation melt, protect Warm melt upper cover；The heat preservation melt, heat preservation melt top cover combination form quantitative furnace；The electric cabinet is located at the heat preservation melt Outer wall；

The elevating mechanism is located at the outer bottom of the quantitative furnace, and the elevating mechanism is equipped with the support that quantitative furnace can be made to turn on one's side Frame；The side of the elevating mechanism is equipped with control hydraulic station；The input terminal of the control hydraulic station is connect with electric cabinet, the control The output end of hydraulic station processed extends to the inner wall of the quantitative furnace；

The interior bottom of the quantitative furnace is equipped with heating device and output device；It is molten that the heating device is evenly distributed on the heat preservation On the inner wall of body, the output device is equipped with quantitative delivery pipe and batch turning chute；The quantitative delivery pipe is located at the quantitative furnace Inside, the batch turning chute is located at the outer wall of the quantitative furnace；

The top right side of the quantitative furnace is equipped with feeding equipment, the screw top of the feeding equipment and the heat preservation melt upper cover Connection.

2. aluminium alloy quantitative compensation material-pouring device according to claim 1, which is characterized in that support frame as described above is equipped with fixed part And lifting unit；The top of the fixed part and the bottom right of the quantitative furnace are hinged；The top of the lifting unit with it is described fixed The bottom of amount stove is fixedly connected, and keeps the two fixed by connector between the fixed part, lifting unit.

3. aluminium alloy quantitative compensation material-pouring device according to claim 1, which is characterized in that the inside of the heat preservation melt Equipped with heating device；The heating device is evenly distributed on the inner wall of the heat preservation melt；The heating device is multiple electric heating Pipe, the electrothermal tube are silicon charcoal material；The electrothermal tube is electrically connected with the electric cabinet.

4. aluminium alloy quantitative compensation material-pouring device according to claim 1, which is characterized in that the right end of the quantitative furnace is equipped with Energy clean-up port, the clean-up port are equipped with cleaning window, and the side outer wall hinge of described cleaning window one end and the clean-up port is described clear The reason window other end is fixed with lock, and the lock and the other side outer wall lock of the clean-up port connect.

5. aluminium alloy quantitative compensation material-pouring device according to claim 1, which is characterized in that one end of the quantitative delivery pipe It is located at the inside of the heat preservation melt, the other end of the quantitative delivery pipe fixes the discharge outlet for being located at the heat preservation melt； Batch turning chute one end is connect with the discharge port, and the corresponding other end of batch turning chute extends to the heat preservation melt The external molten cup inlet orifice of die casting machine.

6. aluminium alloy quantitative compensation material-pouring device according to claim 4, which is characterized in that the batch turning chute it is upper Portion is fixed with molten aluminum detection device, and the molten aluminum detection device is equipped with trigger electrode, connecting rod, cylinder, fixed frame；It is described solid Determine frame and fix the top for being located at the discharge port, the middle part of the connecting rod is fixedly connected with the fixed frame, and the cylinder is defeated Outlet and described connecting rod one end hinge, the bottom of the connecting rod other end is fixedly connected with the trigger electrode；It is described to touch Power generation pole is with the discharge port on the same vertical plane.

7. aluminium alloy quantitative compensation material-pouring device according to claim 1, which is characterized in that the inside of the heat preservation melt is set There are furnace gas temperature galvanic couple, the test lead of the furnace gas temperature galvanic couple to extend to the inside of the quantitative furnace, the furnace gas temperature electricity Even output end is electrically connected with power control cabinet.

8. aluminium alloy quantitative compensation material-pouring device according to claim 5, which is characterized in that the side of the molten aluminum detection device Portion is equipped with temperature of aluminum liquid galvanic couple；The test lead of the temperature of aluminum liquid galvanic couple extends to the interior bottom of the quantitative furnace, the molten aluminum The output end of temperature galvanic couple is electrically connected with power control cabinet.

9. aluminium alloy quantitative compensation material-pouring device according to claim 1, which is characterized in that the top of the heat preservation melt upper cover Feed inlet is equipped on rear side of portion's right end, the feed inlet is equipped with molten aluminum feeding device；The molten aluminum feeding device be equipped with charging bucket and Feeding cover, described charging bucket one end is screwed with the feed inlet to be connect, and the charging bucket other end is matched with the feeding cover It closes.

10. aluminium alloy quantitative compensation material-pouring device according to claim 1, which is characterized in that the power control cabinet is located at described The preceding outer wall of quantitative furnace；The power control cabinet is equipped with master control borad, display screen；The master control borad electrically connects with the control hydraulic station It connects；The master control borad is equipped with operational module, module of having a holiday or vacation；The operational module successively be equipped with close form unit, order receiving unit, Batch turning unit, injection unit, die sinking unit, pass form unit are connect with computing unit signal；The module of having a holiday or vacation is described aobvious Matched button of having a holiday or vacation is equipped in display screen, the module of having a holiday or vacation is electrically connected with heating device.