US20210016345A1 - Die-casting machine with energy saving evaluation system - Google Patents

Die-casting machine with energy saving evaluation system Download PDF

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Publication number
US20210016345A1
US20210016345A1 US16/610,068 US201816610068A US2021016345A1 US 20210016345 A1 US20210016345 A1 US 20210016345A1 US 201816610068 A US201816610068 A US 201816610068A US 2021016345 A1 US2021016345 A1 US 2021016345A1
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US
United States
Prior art keywords
die
inverter
additional
electric motor
delivery pressure
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Abandoned
Application number
US16/610,068
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English (en)
Inventor
Andrea PEZZOLI
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ItalpresseGauss SpA
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Italpresse Industrie SpA
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Assigned to ITALPRESSE INDUSTRIE S.P.A. reassignment ITALPRESSE INDUSTRIE S.P.A. ASSIGNMENT OF ASSIGNORS INTEREST (SEE DOCUMENT FOR DETAILS). Assignors: PEZZOLI, Andrea
Publication of US20210016345A1 publication Critical patent/US20210016345A1/en
Assigned to ITALPRESSEGAUSS S.P.A. reassignment ITALPRESSEGAUSS S.P.A. CHANGE OF NAME (SEE DOCUMENT FOR DETAILS). Assignors: ITALPRESSE INDUSTRIE S.P.A.
Abandoned legal-status Critical Current

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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B22CASTING; POWDER METALLURGY
    • B22DCASTING OF METALS; CASTING OF OTHER SUBSTANCES BY THE SAME PROCESSES OR DEVICES
    • B22D17/00Pressure die casting or injection die casting, i.e. casting in which the metal is forced into a mould under high pressure
    • B22D17/08Cold chamber machines, i.e. with unheated press chamber into which molten metal is ladled
    • B22D17/10Cold chamber machines, i.e. with unheated press chamber into which molten metal is ladled with horizontal press motion
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B22CASTING; POWDER METALLURGY
    • B22DCASTING OF METALS; CASTING OF OTHER SUBSTANCES BY THE SAME PROCESSES OR DEVICES
    • B22D17/00Pressure die casting or injection die casting, i.e. casting in which the metal is forced into a mould under high pressure
    • B22D17/20Accessories: Details
    • B22D17/32Controlling equipment
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B22CASTING; POWDER METALLURGY
    • B22DCASTING OF METALS; CASTING OF OTHER SUBSTANCES BY THE SAME PROCESSES OR DEVICES
    • B22D17/00Pressure die casting or injection die casting, i.e. casting in which the metal is forced into a mould under high pressure
    • B22D17/20Accessories: Details
    • B22D17/26Mechanisms or devices for locking or opening dies
    • B22D17/266Mechanisms or devices for locking or opening dies hydraulically

Definitions

  • the present invention relates to a hydraulically actuated die-casting machine, in particular for the die-casting of light alloys.
  • the object of the present invention is a die-casting machine equipped with an inverter for actuating the electric motor which actuates a hydraulic pump, provided with an energy saving evaluation system.
  • such machines operate on a die consisting of two die-halves coupling to form the cavity corresponding to the piece to be made and consist of a die closing assembly and an injection assembly provided with an injection piston to pressurize the molten metal poured into the die.
  • a hydraulic circuit is provided which is regulated by numerous valves and fed by a hydraulic pump.
  • the object of the present invention is to provide a die-casting machine with inverter equipped with a system for evaluating the energy savings achieved in carrying out a processing operation compared to the use of a machine without inverter.
  • a die-casting machine with inverter comprising:
  • FIG. 1 schematically illustrates a die-casting machine according to an embodiment of the present invention
  • FIG. 2 illustrates a diagram of an injection assembly of the die-casting machine of FIG. 1 ;
  • FIG. 3 shows a diagram of an energy saving evaluation system according to an embodiment of the present invention
  • FIG. 4 represents a graphical interface for displaying characteristic data provided by the evaluation system.
  • FIG. 5 illustrates a functional diagram of a die-casting machine according to a variant embodiment of the present invention.
  • a die-casting machine 1 comprises a closing assembly 500 for closing die-halves carried by die-holders 502 , 504 and an injection assembly 10 comprising an injection piston for pressurizing the molten metal poured into a die formed by the coupling of the die-halves.
  • FIG. 2 a preferred embodiment of the injection assembly will be described hereinafter ( FIG. 2 ).
  • the injection assembly 10 comprises an injection piston 20 , which extends along a translation axis X between a head end 22 and an opposite tail end 24 .
  • the injection piston 20 is translatable on command along the translation axis X by means of a hydraulic drive.
  • the injection assembly 10 also has a main pressure chamber 26 , upstream of the injection piston 20 , i.e. upstream of the tail end 24 thereof, for containing and pressurizing the fluid intended for the outward translation of the injection piston 20 .
  • the injection assembly 10 comprises a main fluid inlet 28 and a shut-off valve 102 placed between the main inlet 28 and the main chamber 26 and suitable to prevent the return of fluid from the main chamber 26 to the main inlet 28 .
  • shut-off valve 102 is made in accordance with the teaching contained in document EP-A1-2942127 in the name of the Applicant.
  • the machine 1 further comprises a first accumulator 30 (which may be loaded from a relative cylinder, for example containing pressurized nitrogen) for the movement circuit of the injection piston 20 .
  • the first accumulator 30 is connected upstream of the main inlet 28 , and a proportional delivery valve 104 operates between the accumulator 30 and the main inlet 28 .
  • the delivery valve 104 is controlled electronically and is feedback-driven by means of a position transducer 204 suitable to detect a signal as a function of the valve opening.
  • the main pressure chamber 26 is further connected to an injection drain 29 connected to the drain, along which an injection return drain valve 105 is operative.
  • the injection assembly 10 further comprises a main back-pressure chamber 32 , downstream of the tail end 24 of the injection piston 20 , connected to a return inlet 34 for the supply of pressurized fluid for the return translation of the injection piston 20 .
  • the return inlet 34 is connected upstream to a pump delivery 36 , upstream from which a hydraulic pump 38 is placed, typically actuated by an electric motor 39 .
  • the pump 38 of the injection assembly 10 also supplies the hydraulic circuit of the closing assembly 500 .
  • An injection return valve 106 is arranged between the delivery pump 36 and the return inlet 34 .
  • a proportional pump maximum pressure valve 108 is arranged for regulating the pressure at the pump outlet 38 .
  • main back-pressure chamber 32 is connected to a return drain 40 connected to the drain, along which is arranged a proportional injection drain valve 112 , which is controlled electronically and provided with a position transducer 212 , suitable to emit a signal as a function of the opening of the valve.
  • the injection assembly 10 comprises a pressure multiplier device suitable to increase the pressure of the fluid contained in the main chamber 26 , above the pressure supplied by the accumulator 30 .
  • the multiplier device comprises a multiplier piston 42 , which extends along a multiplication axis Y, for example, coinciding with the translation axis X of the injection piston 20 , between a head end 44 , suitable to operate in compression in the main chamber 30 , and an opposite tail end 46 .
  • the multiplier piston 42 is translatable on command along the multiplication axis Y.
  • the pressure multiplier device further comprises a secondary pressure chamber 48 , upstream of the multiplier piston 42 , and a secondary fluid inlet 50 , upstream of the secondary chamber 100 , for the inlet of pressurized fluid.
  • the machine 1 further comprises a second accumulator 52 (with relative refill cylinder) which is connectable to the secondary inlet 50 , and a multiplier release valve 114 is placed between the second accumulator 52 and the secondary inlet 50 .
  • the secondary pressure chamber 48 is also connected to a multiplier return drain 54 connected to the drain, along which is arranged a multiplier return drain valve 116 .
  • the multiplier device comprises a secondary back-pressure chamber 56 , downstream of the tail end 46 of the multiplier piston 42 , connectable to the second accumulator 52 via a secondary return inlet 58 .
  • a main multiplier valve 118 is operative, which is proportional, electronically controllable and provided with a position transducer 218 , suitable to emit a signal according to the opening of the valve.
  • a first auxiliary portion 60 connects the multiplier return drain valve 116 with the main multiplier valve 118 and is placed to drain, and a second portion 62 connects the multiplier return drain valve 116 with the injection return drain valve 105 .
  • the injection assembly 10 comprises
  • a processing cycle provides for a step of closing the die by the closing assembly 500 , a step of pouring the molten metal into the die by a pouring device (for example, comprising a robot), an injection step by the injection assembly 10 , a die opening step by the closing assembly 500 , and a step of recharging the oil in the accumulators by the hydraulic circuit of the injection assembly 10 .
  • a pouring device for example, comprising a robot
  • the injection step provides for a first sub-step, wherein the injection piston 20 advances at a reduced speed to allow the molten metal to fill the accessory channels provided in the die.
  • the pressurized fluid is fed to the main inlet 28 , for example at a nominal pressure of 150 bar, and from there to the main chamber 30 following the opening of the main shut-off valve 102 .
  • the main back-pressure chamber 32 is discharged so that the action of the fluid in the main pressure chamber 30 and the opposite action of the fluid in the main back-pressure chamber 32 generate an outward thrust on the injection piston 20 , at the speed desired.
  • the method provides for a second sub-step, wherein the injection piston 20 advances at a higher speed than the forward speed of the first step.
  • the pressurized fluid is fed to the main inlet 28 at a greater flow rate and from there to the main pressure chamber 30 following the opening of the main shut-off valve 102 .
  • the main back-pressure chamber 32 is discharged so that the action of the fluid in the main chamber 30 and the opposite action of the fluid in the main back-pressure chamber 32 generate an outward thrust on the injection piston 20 , at the high speed desired.
  • the injection step provides for a third sub-step, wherein the injection piston acts at almost zero speed but exerts on the molten metal an elevated thrust to force the molten metal, now in solidification, to offset the shrinkage suffered by cooling.
  • the pressure multiplier device is activated.
  • the pressurized fluid is fed to the secondary inlet 50 and from there to the secondary pressure chamber 48 following the controlled opening of the multiplier release valve 114 .
  • the secondary back-pressure chamber 56 is fed with pressurized fluid in a controlled manner through the main multiplier valve 118 , so that the multiplier piston 42 exerts a thrust action on the fluid present in the main pressure chamber 30 , increasing the pressure thereof, for example up to 500 bar.
  • shut-off valve 102 sensitive to the pressure difference between the main inlet 40 and the main pressure chamber 30 , passes into the closed configuration, fluidically separating the main inlet 40 and the main pressure chamber 30 .
  • the fluid in the main pressure chamber 30 brought to a higher pressure, operates therefore on the injection piston 20 , so that the piston exerts on the metal in the die the desired action to offset the shrinkage.
  • the multiplier device is deactivated; in particular, the multiplier piston 42 performs a return stroke by virtue of the pressurized fluid fed to the secondary back-pressure chamber 56 and the connection to the drain of the secondary pressure chamber 48 due to the opening of the multiplier return drain valve 116 .
  • the injection piston 20 performs a return stroke by virtue of the pressurized fluid fed to the main back-pressure chamber 32 through the return inlet 34 and the delivery pump 36 by opening the injection return valve 106 , and by the connection to the drain of the main pressure chamber 30 by opening the injection return drain valve 105 .
  • the machine 1 further comprises a management device, comprising, for example, an electronic control unit or a programmable PLC or a microprocessor, operatively connected to the injection assembly and to the closing assembly for commanding them.
  • a management device comprising, for example, an electronic control unit or a programmable PLC or a microprocessor, operatively connected to the injection assembly and to the closing assembly for commanding them.
  • the machine 1 is provided with an inverter 300 for controlling the electric motor 39 , i.e. an electronic rectifier-inverter assembly, supplied with alternating current, suitable to vary the voltage and frequency of the alternating current output with respect to the input current, in order to modify the working parameters of the electric motor.
  • an inverter 300 for controlling the electric motor 39 , i.e. an electronic rectifier-inverter assembly, supplied with alternating current, suitable to vary the voltage and frequency of the alternating current output with respect to the input current, in order to modify the working parameters of the electric motor.
  • the inverter 300 is obviously connected to the electrical grid 302 , preferably by means of a main switch 304 .
  • the machine according to the present invention also comprises an evaluation system 400 for saving energy.
  • the evaluation system 400 comprises a delivery pressure sensor 402 , i.e. a pressure transducer, connected to detect the pressure of the fluid at the delivery of the pump 38 .
  • a delivery pressure sensor 402 i.e. a pressure transducer
  • the evaluation system 400 comprises an electronic processing device 404 , comprising, for example, a programmable PLC or a microprocessor or an electronic control unit, for processing input signals.
  • an electronic processing device 404 comprising, for example, a programmable PLC or a microprocessor or an electronic control unit, for processing input signals.
  • the delivery pressure sensor 402 is operatively connected to the processing device 404 to supply a delivery pressure signal Spm thereto as a function of the pressure Pm at the delivery of the pump 38 .
  • the evaluation system 400 further comprises an electronic consumption detection device 406 adapted to detect the instantaneous energy consumption of the motor 39 .
  • the consumption detection device 406 comprises, for example, a multimeter suitable to detect the instantaneous energy consumed by the electric motor.
  • the consumption detection device 406 is operatively connected to the processing device 404 to send thereto a consumption signal Sc according to the energy consumed by the electric motor with inverter and operationally connected to the electrical grid 302 , for example, upstream of the inverter 300 (and preferably downstream of the main switch 304 ), for the detection of the energy consumption of the machine with inverter.
  • the evaluation system 400 further comprises a storage device 408 wherein are stored consumption data relative to the power absorbed Pa by electric motors without inverter as a function of pressure values at the pump delivery.
  • the storage device comprises, for example, a hard disk or RAM memory or ROM memory.
  • the storage device 408 is operatively connected to the processing device 404 to make available to the processing device 404 the value of the instantaneous absorbed power Pa* relative to the power absorbed by a predefined electric motor without inverter according to a predefined pressure value at the delivery of the pump.
  • the evaluation system 400 further comprises a display device 410 , for example, comprising a monitor or a display for displaying energy savings through a graphical interface.
  • a display device 410 for example, comprising a monitor or a display for displaying energy savings through a graphical interface.
  • the user of the die-casting machine with inverter initially makes, directly or indirectly, the choice of a predefined electric motor without inverter, for example, corresponding to the electric motor without inverter of another die-casting machine available in the company. Consequently, for the storage device 408 , a predefined electric motor without inverter remains selected.
  • such initial choice is made indirectly by choosing a die-casting machine model which corresponds to a specific electric motor without inverter.
  • the die-casting machine with inverter performs the processing cycle according to the aforethe steps: closing the die, pouring the molten metal into the closed die, injecting the metal into the die, opening the die, and recharging the oil.
  • the processing device 404 acquires, preferably with continuity, the delivery pressure signal Spm, corresponding to a delivery pressure Pm, from the delivery pressure sensor 402 and the consumption signal Sc, corresponding to the consumed energy ⁇ Ec, from the consumption detection device 406 , referring to a predetermined time interval ⁇ t.
  • the processing device 404 acquires from the storage device 408 the data relating to the instantaneous absorbed power Pa* relative to the power absorbed by the electric motor without inverter selected previously, at the delivery pressure Pm, in the time interval ⁇ t.
  • the processing device 404 calculates an estimated energy consumption ⁇ E* for the machine without inverter, in the interval ⁇ t, according to the formula:
  • the total estimated consumption E* is given by the sum of the current estimated consumption ⁇ E* in the time intervals ⁇ t of the whole cycle or each step or each sub-step.
  • the processing device 404 provides to the display device 410 the data relative to the real energy consumption for the machine with inverter, relative to the entire cycle and/or to the individual steps and/or to the sub-steps, and the data relative to the estimated consumption of the machine without inverter, relative to the entire cycle and/or to the individual steps and/or to the sub-steps.
  • the graphical interface represents, for the N-th cycle, the real consumption of the machine with inverter and the estimated consumption of the machine without inverter, for the entire cycle and/or for each step (for example, in the upper portion of the interface).
  • such representation allows an operator to evaluate whether the same processing may be performed on a machine without an inverter, possibly accepting a limited higher energy consumption.
  • the graphical interface represents, for the N cycles performed by the machine, the cycle time and the real energy consumption of the machine with inverter (for example, in the lower portion of the interface).
  • the machine 1 comprises several hydraulic pumps, for example two hydraulic pumps 38 a, 38 b, each actuated by a respective electric motor 39 a, 39 b controlled by a respective inverter.
  • hydraulic pumps are actuated by a single electric motor controlled by an inverter.
  • the hydraulic pumps 38 a, 38 b feed the hydraulic circuit of the closing assembly and the injection assembly and a single pressure transducer detects the pressure of the fluid at the delivery of the pumps 38 a, 38 b.
  • a first hydraulic pump 38 a supplies the hydraulic circuit for the closing assembly and a second hydraulic pump 38 b supplies a separate hydraulic circuit for the injection assembly.
  • the die-casting machine according to the present invention allows the requirements referred to with reference to the prior art to be satisfied.
  • the energy saving evaluation system described above makes it possible to objectively evaluate the possibility of performing some processing operations on a machine without an inverter, rather than on a machine with an inverter.

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Injection Moulding Of Plastics Or The Like (AREA)
  • Measuring Or Testing Involving Enzymes Or Micro-Organisms (AREA)
  • Continuous Casting (AREA)
US16/610,068 2017-06-19 2018-06-18 Die-casting machine with energy saving evaluation system Abandoned US20210016345A1 (en)

Applications Claiming Priority (3)

Application Number Priority Date Filing Date Title
IT102017000067908 2017-06-19
IT102017000067908A IT201700067908A1 (it) 2017-06-19 2017-06-19 Macchina per pressocolata con sistema di valutazione del risparmio energetico
PCT/IB2018/054461 WO2018234968A1 (en) 2017-06-19 2018-06-18 PRESSURE MOLDING MACHINE HAVING AN ENERGY SAVING EVALUATION SYSTEM

Related Parent Applications (1)

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PCT/IB2018/054461 A-371-Of-International WO2018234968A1 (en) 2017-06-19 2018-06-18 PRESSURE MOLDING MACHINE HAVING AN ENERGY SAVING EVALUATION SYSTEM

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US17/973,192 Continuation US20230043574A1 (en) 2017-06-19 2022-10-25 Die-casting machine with energy saving evaluation

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US17/973,192 Pending US20230043574A1 (en) 2017-06-19 2022-10-25 Die-casting machine with energy saving evaluation

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US (2) US20210016345A1 (de)
EP (1) EP3641964B1 (de)
JP (1) JP7144446B2 (de)
CN (1) CN110612172B (de)
ES (1) ES2878298T3 (de)
HR (1) HRP20210929T1 (de)
HU (1) HUE054975T2 (de)
IT (1) IT201700067908A1 (de)
PL (1) PL3641964T3 (de)
PT (1) PT3641964T (de)
RS (1) RS62099B1 (de)
SI (1) SI3641964T1 (de)
WO (1) WO2018234968A1 (de)

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IT201700067908A1 (it) 2018-12-19
ES2878298T3 (es) 2021-11-18
RS62099B1 (sr) 2021-08-31
CN110612172A (zh) 2019-12-24
HUE054975T2 (hu) 2021-10-28
CN110612172B (zh) 2021-12-28
EP3641964A1 (de) 2020-04-29
JP7144446B2 (ja) 2022-09-29
US20230043574A1 (en) 2023-02-09
PT3641964T (pt) 2021-07-05
SI3641964T1 (sl) 2021-08-31
PL3641964T3 (pl) 2021-11-22
JP2020524080A (ja) 2020-08-13
WO2018234968A1 (en) 2018-12-27
HRP20210929T1 (hr) 2021-09-03
EP3641964B1 (de) 2021-05-19

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