DXP25-300 Bidirectional Magnetic Field Press

1. Working Conditions

1.1 Power supply Gross power 30KW  Three-phase  50Hz;

1.2 Cooling water  About 0.2 MPa;

1.3 Hydraulic oil 32# hydraulic oil.

2. Main Technical Index

2.1. Hydraulic system

2.1.1.     System pressure: 16Mpa;

2.1.2.     Stroke of upper cylinder: 200mm;

2.1.3.     Stroke of lower cylinder: 200mm;

2.1.4.     Oil cylinder speed Fast-forward: 50mm; Counter pressure: 20-40mm;

2.1.5.     The oil pump selects the ATOS vane pump(Elmfluid);

2.1.6.     Motor power7.5KW;

2.2. Electromagnet

2.2.1.     Pole diameter: 300mm;

2.2.2.     Pole head diameter: 150mm;

2.2.3.     Magnetic field(100 mmAir gap): ≥1.4 T;

2.2.4.     The electromagnet's long-term continuous working temperature rise is ≤40℃;

2.3. Work Beat: ＜10s.

3. Installation conditions

The anchor hole is 4 - Φ 26, which can not be fixed, but needs to be leveled basically.

The general layout is as follows: the hydraulic station is at the right rear of the main engine, and the electric control cabinet is in front of the right side of the main engine.

The power incoming line requires three-phase + zero line + ground wire. The air switch and wire diameter are selected according to the total power. The recommended value is: 100A air switch, 10mm2 phase line.

The hydraulic system needs about 170kg of 32# or 46# hydraulic oil, which is added through the filter above the oil tank cover.

There are coolers in the electromagnet and hydraulic station of the machine, which can work continuously only by connecting the cooling circulating water; there are 3 pairs of inlet and outlet nozzles of the cooler, and all the outer diameters are Φ 26.

4. Structural principle

This machine is composed of three parts: main engine, electronic control and hydraulic pressure.

4.1 Main engine part

It is mainly composed of base, electromagnet and oil cylinder. The electromagnet is the core of the magnetic field. When the electromagnetic coil passes through the current, the magnetic circuit formed by the yoke and pole produces a space magnetic field with the magnetic lines of force relatively parallel between the two poles, so as to achieve the purpose of magnetic particle orientation. The cylinder is controlled by the hydraulic system to realize the action of pressing and returning.

4.2 Electronic control part

It is mainly composed of the cabinet, operation panel, PLC and related components, DC power supply and related components, sensors, etc. The PLC of this machine adopts the OMRON company controller, and all actions are controlled by the PLC. The direct current power supply provides the electromagnet with continuously adjustable forward and reverse direct current. The sensor of this machine has a proximity switch to limit the position of the oil cylinder.

4.3 Hydraulic Pressure Part

It mainly comprises an oil tank, oil pump, manifold block and hydraulic valve. The oil pump is a two-stage vane pump with a rated pressure of 21MPa. The hydraulic valve has an electromagnetic directional valve, electromagnetic relief valve, etc. The solenoid valve is controlled by the electric control system to change the direction of the pressure oil flow and realize the control of the oil cylinder.

5. Operation Method

5.1 Action program

This machine has two working modes, manual 1 and automatic 2, which are controlled by PLC. In manual mode, each action is generally used for adjustment and maintenance, while automatic mode is used for normal continuous operation.

The operation procedure of automatic mode is as follows: (the movement in brackets is taken as manual operation)

Automatic 2: (the automatic mold is placed between the two poles with adjusted spacing and clamped) press the "cycle" button → stop the lower cylinder (loading) → press the "cycle" button again → the upper cylinder and the lower cylinder close the mold and stop → the DC orientation → the orientation value reaches the maximum setting, the upper and lower cylinders simultaneously press → maintain pressure → demagnetize → upper cylinder upper → lower cylinder upper ejection stop → (reclaim). Go back to execution.

5.2 Operating procedures

5.2.1 Startup steps

Verify that the machine is trouble free→;

Press the "power switch" button on the operation panel of the electric control cabinet→;

Press the "pump line" button and confirm that the oil pump motor is started→;

Enter normal operation.

5.2.2 At work

Confirm that the "manual / automatic" transfer switch is set to the corresponding "automatic"→;

The operator puts the mold in the working position correctly and then leaves the hand→;

Click the "cycle" button→;

The press operates according to the preset program→.

5.2.3 Shutdown procedure

Press the "pump stop" button to turn off the oil pump motor→;

Press the "power" button to turn off the panel power→.

5.3 Adjustment method

5.3.1 Pressure adjustment

Turn on the machine step by step→;

Set the "manual / automatic" transfer switch to "manual"→;

Put the mold or substitute in the working position correctly and then leave the hand→;

Press and hold the "upper cylinder ↓" button until the mold or substitute is pressed→;

The pressure gauge shows the current pressure→;

Rotate the hand wheel of the solenoid relief valve at the bottom right of the pressure gauge to change the pressure→;

(read from the pressure gauge in the direction of large and reverse small).

5.3.2 Orientation adjustment of demagnetization current

Turn on the machine step by step→;

Set the "manual / automatic" transfer switch to "manual"→;

Clamping die or non-magnetic block between two poles→;

Turn the potentiometer counter clockwise to zero→;

Press the "orientation" button and rotate the orientation potentiometer clockwise to gradually increase the orientation current from zero; the demagnetization current adjustment method is the same as above.

Special attention:

The orientation adjustment potentiometer is in the operation panel, and the demagnetization adjustment potentiometer is outside.

The standard value of orientation current is 75A

The maximum demagnetizing current is 20A, which can be adjusted as required

5.3.3 Limit switch adjustment

The proximity switch is used as the limit position of the oil cylinder. The sensing head of the proximity switch should be adjusted to 1-3 mm away from the disc of the guide rod head in advance. The proximity switch seat should be moved up and down according to the need, and locked with the jacking screw after it is in place.

5.3.4 Pole spacing adjustment

The pole head is adjusted by hand wheel, forward and backward.

5.3.5 Press time adjustment

The pressing time is programmed.

5.4 Matters needing attention

5.4.1 Observe the operation rules and ensure the safety of the person.

5.4.2 Each adjustment shall be carried out by a specially assigned person and shall not exceed the limit or miss the steps.

5.4.3 In case of equipment failure during operation, it shall be handled as follows:

Press the "emergency stop" button→;

Observe and remove the fault or shut down the machine in normal order for repair;

Special attention: Do not turn off the power directly.

5.4.4 The front and rear doors of the electric control cabinet should not be opened casually to prevent electric shock.

5.4.5 Before switching on and off, the current state must be verified. If the fault is not removed, the machine cannot be turned on, and the machine cannot be shut down until the action is over.

6. Maintenance and repair

6.1 Routine maintenance

6.1.1 Special personnel shall be designated to regularly check the electrical and hydraulic components and their connections and wiring, and timely replace or fasten them in case of damage and looseness.

6.1.2 Pay attention to the temperature of the electromagnet shell at ordinary times. If the hand feeling is obviously higher than the normal value, check it according to the following steps:

Power on→;

Set manual→;

Clamping die or non magnetic block between poles→;

Press and hold the "orientation" button until the current rises to a stable value→;

If it exceeds 75A, it should be adjusted to 75A according to the regulations→;

If it is less than 75A, check whether the cooling water is unobstructed, including the total water in and out and the water in and out of each group of water discharge, so as to ensure complete patency.

6.1.3 Clean the oil pump filter once a year (take it out from the filter hole above the tank cover).

6.1.4 The hydraulic oil is filtered or replaced every two years.

6.1.5 If the cooling circulating water is not softened, the acid washing water should be discharged once a year.

6.2 Troubleshooting

6.2.1 Unable to power on

Check the power supply (main power supply, cabinet power supply, panel power supply) and air switches→;

Check the "pump running", "pump stop" buttons and oil pump motor contactor→;

If the input and output voltage in the cabinet is normal, check the motor and wiring finally.

6.2.2 No action after startup

Whether to press the "emergency stop" button (unlocking is normal)→;

Whether the photoelectric switch is offset or blocked (0104 light on PLC is off as normal)→;

Check the status of "run / set" and "manual / automatic" change-over switch→;

Check whether the wiring of each button and switch is loose→;

Check all fuses and wiring→;

Check PLC status (POW and RUN lights are normal) and wiring→;

Check the wiring of each terminal.

6.2.3 Stop the action

Check the power supply→;

Whether the photoelectric switch is mistakenly shifted or the "emergency stop" button is touched by mistake→;

Is the orientation current lower than 60A (standard value 75A)→;

Check all fuses and wiring→;

Check PLC status (POW and RUN lights are normal) and wiring→;

Check the wiring of each terminal.

6.2.4 The orientation and demagnetization current decrease or disappear

First, judge whether there is a problem with orientation or demagnetization. If one of them is normal, check the adjusting potentiometer and contactor of the other circuit; if both are abnormal, check the following steps:

Observe whether there is the red light on the trigger board, and if there is, it means phase loss→;

Check all fuses and wiring→;

Check the three thyristor modules→;

Check power transformer, synchronous transformer and wiring→;

Check potentiometer, contactor and wiring→;

Check and arrange rectification circuit→;

Generally, the insulation degree of the swing coil should be more than 200MΩ.

6.2.5 The pressure of the hydraulic system is unstable, reduced or disappeared

Check oil quality, oil level and oil filter at the pump suction;

Check the oil inlet and outlet of oil pump for air leakage and oil leakage;

Check and clean the relief valve;

Check the solenoid valve and its related lines;

Check whether the oil pump, motor and coupling are damaged;

Check the seal of the oil cylinder piston and guide sleeve.

7. PLC program

The PLC of this machine adopts OMRON PLC and ladder diagram programming.

Packaging pictures for ref.

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