Answer: See Sheet 6-3 for the overhaul process card and quality standard examples of micro-oil screw air compressors.
Sheet 6-3 Screw air compressor main engine overhaul process card
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Equipment Specifications |
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Item |
Unit |
Technical Parameters |
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Model |
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Rated exhaust volume |
m³/ min |
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Rated exhaust pressure |
MPa |
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Motor speed |
r/ min |
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Shaft power |
kW |
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Spare parts and materials required for maintenance |
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spare parts |
Bearings, oil seals, O-rings, bushings, carbon deposit cleaning agents, oil pipes that need to be replaced |
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Material |
Sealant, white cloth, red lead powder, machine cleaning cloth, sandpaper (#0, #1, #2), gasoline or kerosene |
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Tools |
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Wrench, hexagon wrench, socket wrench, pipe clamp, copper rod, feeler gauge, hydraulic puller (homemade fixing plate), eye shackle, wire rope, pin puller (homemade) |
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Safety precautions |
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(1) Take anti-skid measures on site, avoid open flames when using gasoline, and use special tools to remove bearings. (2) When removing the main and auxiliary rotors, pull gently to prevent damage to the rotors. (3) After removing the main and auxiliary rotors, place them horizontally to prevent damage. (4) When reinstalling, use compressed air to clear and check the oil circuits of various parts of the machine body to prevent foreign matter. (5) When removing the gearbox, lift it slowly to prevent damage to the gears. |
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Process 0: Preparation before maintenance
1.Understand the existing defects of the equipment and do a good job of pre-repair appraisal
2.Prepare the wearing parts that need to be replaced and the tools for maintenance, lifting and cleaning
3.Apply for maintenance work tickets
Process 1: Disassembly
1. Contact the thermal engineer to calibrate each instrument and remove the instrument connected to the main body
2. Drain the lubricating oil in the oil pool of the machine body
3. Remove the air filter
4. Remove the intake valve
5. Remove the cooling water pipe, oil pipe, measuring point and other pipe fittings
6. Remove the flywheel protection cover or flywheel V-belt
7. Remove the motor anchor bolts
8. Use a hoist to lift the machine body, remove the machine body anchor bolts, and lift out the machine body
The following work is carried out in a clean maintenance area:
(1) Turn the rotor, check the appearance and wear of the main and auxiliary rotors, and measure the axial and radial clearance between the main and auxiliary rotors and the machine body
(2) Remove the pair of wheels
(3) Remove the inlet end cover.Some models have a speed-increasing gear mechanism. In this case, the gearbox should be removed.
(4) Remove the outlet cover and prepare to inspect and remove the bearings.
(5) Remove the inlet bearing seat.
(6) Install a hydraulic puller at the outlet to separate the main and auxiliary rotors from the outlet bearings. Apply force slowly during the removal process and rotate the rotors.
(7) Remove the main and auxiliary rotors in turn.
(8) Remove the main and auxiliary rotors and the inner or outer rings of the bearings in various parts of the machine body.
Process 2: Inspection and repair stage
1. Cleaning of parts
1.1 The removed parts should be cleaned in kerosene or carbon deposit cleaning agent to remove the carbon deposits and rust on them.
1.2 Clean and dredge the machine body and oil pipeline
1.3 Clean and dredge the cooling water pipe and cylinder cooling water chamber
2. Inspection of main and auxiliary rotors
2.1 Check the surface wear of the main and auxiliary rotors, and check whether there is shedding, grooves, nodules, cracks. Under normal circumstances, the main and auxiliary rotors are not worn. Different surface conditions reflect the working conditions of th air compressor, such as bearing wear, foreign matter in the machine body, and rotor rust due to long-term shutdown.
2.2 Grind the surface defects of the rotor, first use a shaped file or a special-shaped file to smooth it,then use #500 sandpaperto polish it
2.3 If the air compressor is not overhauled in time or foreign objects enter the body, the rotor will be seriously damaged and cannot be repaired
3. Body inspection
Check the body wear and tear, whether there are cracks,rust scars, burrs, notches, grooves, etc. If there are such phenomena, repair them
4. Inspection of the gearbox
4.1 Check whether the fitting marks of the main and auxiliary gears meet the requirements
4.2 Check the wear of the main and auxiliary gears. If there are cracks or broken teeth, new gears should be replaced
5. Inspection of bearings
The screw air compressor has a small matching clearance and strictrequirements on bearings. All bearings must be replaced during overhaul or fault repair. Bearings must use original accessories or bearings of the same model
6. Inspection of shaft seals
Overhaul of screw air compressors requires replacement of new shaft seals. The shaft seal replacement process is simple, but anynegligence during assembly will cause oil leakage during operation. Shaft seal spare parts require the use of original accessories
The following work should be done before assembly:
(1) The compressor host and auxiliary equipment should be cleaned and all cleaning agents or moisture should be removed. Carefully check the rotor, bearing, gear, and cylinder for damage and other defects, and strictly prevent impurities from entering the workingchamber.
(2) The cylinder and rotor of the compressor should be tested for tightness according to the pressure specified in the equipment technical documents.
The assembly of the cylinder, rotor, and gear should meet the following requirements.
The longitudinal and transverse unevenness of the cylinder should not exceed 0.05/1000, and the inclination should be in the same direction. It can be measured on the cylinder center plane or in the bearing hole.
Process 3: Assembly
1. After the air compressor is repaired normally and the spare parts are ready, the air compressor can be reinstalled. During theinstallation process, be careful to prevent foreign objects from falling into the air compressor body.
2. Install the main and auxiliary rotors of the air compressor in turn. It can be installed horizontally or vertically.
3. Install the inlet bearing seat, and pay attention to applying the sealant evenly and not too thick. After installation, measure the total axial clearance of the rotor
4. The axial positioning piece is installed at the outlet bearing position of the main and auxiliary rotors. Check that the positioning piece is not worn. If the radial clearance of the shaft is normal before disassembling the air compressor, the positioning piece can be directly reinstalled
5. Install the bearings in the original position.Install the inletand outlet bearings one after another. Control the heating temperature to 90~120℃ when installing the bearings. When installing the bearings, pay attention to installing one bearing and cooling it before installing the other bearing
6. Lock the bearing positioning nut
7. Install the outlet elastic gasket and the outlet bearing end cover. Measure the inlet axial clearance of the main and auxiliaryrotors and the body
8. Measure the radial clearance between the main and auxiliary rotors of the air compressor and the body. Normal clearance indicates that the above steps are installed normally. For air compressors with abnormal rotation, you can use red lead powder toapply it and check whether there is friction in the meshing of themain and auxiliary rotors
9. Reinstall the gearbox bearings and large and small gears. When reinstalling the gearbox, pay attention to applying the sealant evenly and not too thick
10. Reinstall the air compressor shaft seal. Pay attention to applying lubricating oil during reinstallation to ensure smooth installation. Apply a small amount of sealant to the moving and static parts of the shaft seal
11. Reinstall the wheels, and the main engine is installed
Quality standards
1. Method for measuring the fit clearance of the air compressor
The fit clearance of the main engine of the air compressor includes the radial fit clearance between the outer circle of the main and auxiliary rotors (screws) and the wall of the body (cylinder); the axial clearance between the two end surfaces of the main and auxiliary rotors (screws) and the side wall of the cylinder. The axial clearance has two gaps at the outlet and inlet
The radial clearance between the main and auxiliary rotors and thebody is measured from the air compressor inlet using a feeler gauge
The axial clearance at the outlet = the total axial clearance of the rotor minus the axial clearance at the inlet. The total axial clearance of the rotor can be measured during the installation of the air compressor. After the main and auxiliary rotors and the inlet bearing end cover are installed, the main and auxiliary rotors are pushed back and forth axially, and the dial indicator is used to measure
The axial clearance at the inlet of the main and auxiliary rotors and the body is measured from the air compressor inlet using a feeler gauge. When measuring, the body is after the air compressorbearing is installed and the outlet elastic gasket and end cover are pre-installed
The meshing clearance between the main and auxiliary rotors (screws) is positioned by bearings,and red lead powder can be usedto check whether there is friction
2. Quality standards for air compressor matching clearance
The radial clearance between the main and auxiliary rotors and the body is 0.1mm, generally not more than 0.1mm
The axial clearance at the outlet is 0.10~0.2mm
The axial clearance at the inlet is 0.4~0.7mm
3. Adjustment method of rotor axial clearance
After measuring the axial clearance of the air compressor rotor, if the axial clearance needs to be adjusted, a gasket is added to the outlet positioning piece accordingly. Generally, if the positioning piece is not obviously worn, it does not need to be adjusted. In addition, if the bearing is not installed in place or the locking force is insufficient after the bearing is installed, the axial clearance at the inlet will be too small. At this time, use a copper rod to tighten the bearing or lock nut to adjust it normally.
4. After the cylinder and rotor are aligned and leveled, the anchor bolts should be tightened symmetrically and evenly; and a level should be placed on the center plane of the cylinder and on the rotor journal to check the unevenness of the cylinder and rotor; when aligning the unit, the axis of the motor shaft (or speed increaser shaft) should be used as the reference, and the different axis degrees should not exceed the provisions of the equipment technical documents. If there is no provision, the radial displacement of the different axis degrees should not exceed 0.05mm
5. Gearbox
The gear surface should be free of cracks, erosion, etc., and the tooth surface contact requires a close fit of 70% along the tooth length. The meshing clearance of the gear is 0.2~0.3mm. If it exceeds 0.50mm, it should be replaced.
6. Shaft bending measurement
When overhauling some faulty air compressors, the shaft bending should be measured. The measurement should be carried out before and after the air compressor is disassembled. The measurement method is to directly position the bearing on the body. The qualified standard for shaft bending is 0.03mm
Process 4: Trial run
1. During the trial run, the pressure and current of the air compressor should be within the allowable range without large fluctuations, and the vibration of each part should not exceed 0.10mm
2. The bearing temperature should not exceed 80℃, and the oil temperature should not exceed 60℃
3. The shaft seal has no oil seepage or oil leakage
4. The overhauled screw air compressor often has large vibration (about 0.1mm) during the trial run. Since the elastic gasket at the outlet of the air compressor has automatic adjustment and compensation functions, the clearance between the rotors is adjusted appropriately after a period of operation, and the vibration is automatically eliminated
5. Termination of work ticket
