Heavy Duty Balanced Opposed Compressors - Ariel Corporation
Heavy Duty Balanced Opposed Compressors - Ariel Corporation Heavy Duty Balanced Opposed Compressors - Ariel Corporation
Section 3 - Maintenance For Models: JGH:E:K:T Blow-Out Fittings, Rupture Disks, and Tubing Use a rupture disk that matches the blow-out fitting type and application pressure. Generally, use a rupture disk rated about 1000 psig (70 bar g ) greater than the highest MAWP cylinder. See Table A-3 in Appendix A or ER-63 for blow-out fitting cap torque. Do not over tighten cap or blow-out pressure may decrease. Fitting Rupture Disk Lincoln Fitting Lubriquip Fitting FIGURE 3-6 Blow-Out Fitting Assemblies PAGE 3-16 3/11 Cap 1/4 in. (6 mm) Dia. Hole TABLE 3-3 Blow-Out Fittings, Replacement Rupture Disks & Tubing Distribution Blocks 1/8 in. (3 mm) Dia. Hole BLOW-OUT FITTING REPLACEMENT RUPTURE DISK STANDARD TUBING - 304 SS TYPE ARIEL P/N RATING psig (bar g) ARIEL P/N COLOR Lincoln A-0080 3250 (224) A-0124 Purple Lubriquip A-3531 3700 (255) A-3536 Yellow Lubriquip A-3532 4600 (317) A-3537 Red Lubriquip A-3533 5500 (379) A-3538 Orange Lubriquip A-3534 6400 (441) A-3539 Pink 1 Lubriquip A-3535 7300 (503) A-3540 Blue 1. Color code changed to pink (3/20/05) was uncoated aluminum. SIZE in. (mm) 1/4 x 0.035 wall (6.4 x 0.9) 1/4 x 0.065 wall (6.4 x 1.7) RATING psig (bar g) ARIEL P/N 5100 (352) PT0200CB 10,200 (703) PT0201CD Distribution blocks consist of three to seven divider valves and an optional bypass block fastened to a segmented baseplate. Viton O-rings (90 Durometer) seal between the divider valves and baseplate and between baseplate segments. Check valves are installed at all lube port outlets. Divider valves contain metering pistons that discharge a predetermined amount of oil with each cycle in a single line, progressive lubrication system. Single or twin valves may be externally singled or cross-ported. Plug unused outlets when singling or cross-porting. Use a bypass block in any position on the baseplate. A bypass block allows addition or deletion of lubrication points without disturbing existing tubing. Plug both outlets under a bypass block. The baseplate contains the divider valve inlet and outlet connections, interrelated passageways, and built-in check valves. All lubricant piping to and from the distribution block connects to the baseplate. The baseplate consists of one inlet block, three to eight intermediate blocks, one end block, and three tie rods. The number of baseplate intermediate blocks determines the number of divider valves allowed. Each distribution block requires a minimum of three divider valves.
For Models: JGH:E:K:T Section 3 - Maintenance Distribution Block Assembly NOTE: See specific frame Parts Book for available divider valve assembly drawings, parts lists, and repair kits. 1. Thread three tie rods into inlet block until the ends flush with the top surface of the block. 2. Slide Intermediate blocks onto tie rods. Verify all o-rings are installed and discharge ports are off center toward the inlet block. 3. Slide end block onto tie rods. 4. Lay baseplate assembly on a flat surface. Use the torquing procedure in Appendix A to tighten the tie rod nuts to the torque value in Table A-3. 5. Mount the divider valves with o-rings onto the baseplate. Use the torquing recommdations in Appendix A to tighten valve screws to the torque listed in Table A-3. Piston Valve Screw Divider Valve Inlet Crossport Plate Tie Rod FIGURE 3-7 Distribution Block - Typical Inlet Block O-Rings Check Valve Intermediate Blocks Discharge Port (Outlet) Correct port position is off-center toward Inlet Block. End Block Tie Rod Nut Divider Valve Bypass Pressure Test Lubricant can leak (by-pass) from a divider valve when the divider valve piston becomes worn. Pressure test or replace all divider valves every twelve months. Testing verifies the piston fits tightly enough in the divider valve bore for adequate pressure to force oil into the injection point. The supplier pressure tests all new Ariel divider valves. To test distribution blocks for valve by-passing requires a manual purge gun with a pressure gauge capable of developing 5000 psig (350 barg ). Ariel offers an optional force feed lubrication hand purge gun with a pressure gauge (see Tools section in technical manual). Pressure test each divider valve one at a time, complete with pin indicators installed. Divider Block All Outlets Open Testing “T” Divider Valve Testing “S” Divider Valve Purge Gun “S” Divider Valve - one side plugged with 1/8” NPT pipe plug 24T 12S 12T Divider Block Inlet Base outlets open - oil flows freely Section Fasteners 24T 12S 12T One side plugged with tubing plug to test one side of a “T” valve - all other outlets open FIGURE 3-8 Pressure Testing Divider Valves 3/11 PAGE 3-17 24T 12S 12T Both sides plugged to test an “S” valve - all other outlets open
- Page 1: Maintenance and Repair Manual For J
- Page 4 and 5: For Models: JGE:H:K:T Oil Strainer.
- Page 6 and 7: For Models: JGE:H:K:T SECTION 5 - S
- Page 8 and 9: For Models: JGH:E:K:T FIGURE 4-23
- Page 10 and 11: For Models: JGH:E:K:T General Safet
- Page 12 and 13: For Models: JGH:E:K:T Ariel Contact
- Page 14 and 15: Section 1 - Tools For Models: JGH:E
- Page 16 and 17: Section 1 - Tools For Models: JGH:E
- Page 18 and 19: Section 2 - Instrumentation For Mod
- Page 20 and 21: Section 2 - Instrumentation For Mod
- Page 22 and 23: Section 2 - Instrumentation For Mod
- Page 24 and 25: Section 2 - Instrumentation For Mod
- Page 26 and 27: Section 2 - Instrumentation For Mod
- Page 28 and 29: Section 2 - Instrumentation For Mod
- Page 30 and 31: Section 2 - Instrumentation For Mod
- Page 32 and 33: Section 3 - Maintenance For Models:
- Page 34 and 35: Section 3 - Maintenance For Models:
- Page 36 and 37: Section 3 - Maintenance For Models:
- Page 38 and 39: Section 3 - Maintenance For Models:
- Page 40 and 41: Section 3 - Maintenance For Models:
- Page 42 and 43: Section 3 - Maintenance For Models:
- Page 44 and 45: Section 3 - Maintenance For Models:
- Page 48 and 49: Section 3 - Maintenance For Models:
- Page 50 and 51: Section 3 - Maintenance For Models:
- Page 52 and 53: Section 3 - Maintenance For Models:
- Page 54 and 55: Section 3 - Maintenance For Models:
- Page 56 and 57: Section 3 - Maintenance For Models:
- Page 58 and 59: Section 4 Part Replacement For Mode
- Page 60 and 61: Section 4 Part Replacement For Mode
- Page 62 and 63: Section 4 Part Replacement For Mode
- Page 64 and 65: Section 4 Part Replacement For Mode
- Page 66 and 67: Section 4 Part Replacement For Mode
- Page 68 and 69: Section 4 Part Replacement For Mode
- Page 70 and 71: Section 4 Part Replacement For Mode
- Page 72 and 73: Section 4 Part Replacement For Mode
- Page 74 and 75: Section 4 Part Replacement For Mode
- Page 76 and 77: Section 4 Part Replacement For Mode
- Page 78 and 79: Section 4 Part Replacement For Mode
- Page 80 and 81: Section 4 Part Replacement For Mode
- Page 82 and 83: Section 4 Part Replacement For Mode
- Page 84 and 85: Section 4 Part Replacement For Mode
- Page 86 and 87: Section 4 Part Replacement For Mode
- Page 88 and 89: Section 4 Part Replacement For Mode
- Page 90 and 91: Section 4 Part Replacement For Mode
- Page 92 and 93: Section 4 Part Replacement For Mode
- Page 94 and 95: Section 4 Part Replacement For Mode
Section 3 - Maintenance For Models: JGH:E:K:T<br />
Blow-Out Fittings, Rupture Disks, and Tubing<br />
Use a rupture disk that matches the<br />
blow-out fitting type and application<br />
pressure. Generally, use a rupture<br />
disk rated about 1000 psig (70 bar g )<br />
greater than the highest MAWP<br />
cylinder. See Table A-3 in Appendix<br />
A or ER-63 for blow-out fitting cap<br />
torque. Do not over tighten cap or<br />
blow-out pressure may decrease.<br />
Fitting<br />
Rupture Disk<br />
Lincoln Fitting Lubriquip Fitting<br />
FIGURE 3-6 Blow-Out Fitting Assemblies<br />
PAGE 3-16 3/11<br />
Cap<br />
1/4 in. (6 mm)<br />
Dia. Hole<br />
TABLE 3-3 Blow-Out Fittings, Replacement Rupture Disks & Tubing<br />
Distribution Blocks<br />
1/8 in. (3 mm)<br />
Dia. Hole<br />
BLOW-OUT FITTING REPLACEMENT RUPTURE DISK STANDARD TUBING - 304 SS<br />
TYPE<br />
ARIEL<br />
P/N<br />
RATING<br />
psig (bar g)<br />
ARIEL P/N COLOR<br />
Lincoln A-0080 3250 (224) A-0124 Purple<br />
Lubriquip A-3531 3700 (255) A-3536 Yellow<br />
Lubriquip A-3532 4600 (317) A-3537 Red<br />
Lubriquip A-3533 5500 (379) A-3538 Orange<br />
Lubriquip A-3534 6400 (441) A-3539 Pink 1<br />
Lubriquip A-3535 7300 (503) A-3540 Blue<br />
1. Color code changed to pink (3/20/05) was uncoated aluminum.<br />
SIZE<br />
in. (mm)<br />
1/4 x 0.035<br />
wall<br />
(6.4 x 0.9)<br />
1/4 x 0.065<br />
wall<br />
(6.4 x 1.7)<br />
RATING<br />
psig (bar g)<br />
ARIEL<br />
P/N<br />
5100 (352) PT0200CB<br />
10,200 (703) PT0201CD<br />
Distribution blocks consist of three to seven divider valves and an optional bypass block fastened to<br />
a segmented baseplate. Viton O-rings (90 Durometer) seal between the divider valves and baseplate<br />
and between baseplate segments. Check valves are installed at all lube port outlets.<br />
Divider valves contain metering pistons that discharge a predetermined amount of oil with each cycle<br />
in a single line, progressive lubrication system. Single or twin valves may be externally singled or<br />
cross-ported. Plug unused outlets when singling or cross-porting.<br />
Use a bypass block in any position on the baseplate. A bypass block allows addition or deletion of<br />
lubrication points without disturbing existing tubing. Plug both outlets under a bypass block.<br />
The baseplate contains the divider valve inlet and outlet connections, interrelated passageways, and<br />
built-in check valves. All lubricant piping to and from the distribution block connects to the baseplate.<br />
The baseplate consists of one inlet block, three to eight intermediate blocks, one end block, and<br />
three tie rods. The number of baseplate intermediate blocks determines the number of divider valves<br />
allowed. Each distribution block requires a minimum of three divider valves.
Change language