Air Compressors WA. Supplying you with Information on Air Compressor Technology.
Industrial Air Compressors | What You Need to Know
What You Need To Know About Air Compressors!
Need to know more about Air Compressors. Are you researching what to buy to fit what you need or just simply learning about whats new, Air Compressor WA has the information.
What kind of air compressor would I need to keep a constant 800 psi in a tank?
If I had an air tank of any size, what size (horsepower-wise) gas air compressor would I need to keep a constant 800 psi in a tank PLEASE HELP thanks!
I forgot I need to know the scfm of the air compressor in order to keep at least 800 psi in a tank that holds up to 1500 psi. I NEED THIS PLEASE thanks!
that much air pressure is very dangerous,you could get hurt bad,be careful please.
Air Compressors – One Size Does not Fit All
air compressors have been in use around our homes, on job sites, and in our factories and manufacturing businesses for many decades. Air compressors allow us to get jobs done in a safe, clean and efficient manner. They are reliable, convenient, and in many applications, indispensable.
There are many types of air compressors ranging in type and function from those used for simple tasks around the house, all the way up to those used in more industrial applications where the job just wouldn’t get done without it. If you’ve ever tried to blow up one of those inflatable mattresses (you know, the kind you set up when your long lost uncle comes for a visit) without some sort of air compressor you know what a monumental task that can be. Even just a simple battery powered model saves tons of effort and lots of time. These simple little air compressors are ideal for filling toys, sporting goods, and other things that don’t require a lot of pressure. Not only that, air compressors are also ideal for operating small air tools like staplers and nailers.
If you have a bigger job to do then you have to consider which one of the air compressor to use. Last summer I had the absolute pleasure of operating a power washer to clean twenty years of dirt off of a brick facade on a house. What a kick! I couldn’t believe how powerful air compressors can be. The guy at the rental counter told me to be careful with it so that I didn’t do any damage. Boy was he right. If I lingered to long on the brick it would literally blast it away. Without the power of the compressed air behind the water I would have just been spraying water from a nozzle and not made near as much progress as I did; or had near as much fun!
If you enjoy woodworking, auto-body work, or other hobbies or tasks where you have the option of using air-powered tools then you need something that can move the right amount of air. Since air compressors vary by how much air flow they produce, you need to choose one that will do the job. Let’s face it, a sandblaster just isn’t going to operate properly with a small battery powered model. Most power tools require 90 PSI to work right. The main thing to look for when considering air compressors is to get one that has plenty of air flow for the tool and job at hand. The air flow is measured in cubic feet per minute (cfm). If your application needs more power then you need more cfm. Pretty simple stuff. But you may wonder, “how do I know?”
An air tool will give you the required or suggested cfm it needs. Generally speaking, air compressors for small tools like nailers need to move 1-4 cubic feet per minute, while tools like spray guns or impact wrenches need 2-5 cfm. Sandblasters and sanders will usually require from 6-13 cfm. Obviously, professional grade tools may require a higher cfm.
MJ Marks
http://www.articlesbase.com/tools-and-equipment-articles/air-compressors-one-size-does-not-fit-all-746583.html
Air Compressors – One Size Does not Fit All
Air compressors have been in use around our homes, on job sites, and in our factories and manufacturing businesses for many decades. air compressors allow us to get jobs done in a safe, clean and efficient manner. They are reliable, convenient, and in many applications, indispensable.
There are many types of air compressors ranging in type and function from those used for simple tasks around the house, all the way up to those used in more industrial applications where the job just wouldn’t get done without it. If you’ve ever tried to blow up one of those inflatable mattresses (you know, the kind you set up when your long lost uncle comes for a visit) without some sort of air compressor you know what a monumental task that can be. Even just a simple battery powered model saves tons of effort and lots of time. These simple little air compressors are ideal for filling toys, sporting goods, and other things that don’t require a lot of pressure. Not only that, air compressors are also ideal for operating small air tools like staplers and nailers.
If you have a bigger job to do then you have to consider which one of the air compressor to use. Last summer I had the absolute pleasure of operating a power washer to clean twenty years of dirt off of a brick facade on a house. What a kick! I couldn’t believe how powerful air compressors can be. The guy at the rental counter told me to be careful with it so that I didn’t do any damage. Boy was he right. If I lingered to long on the brick it would literally blast it away. Without the power of the compressed air behind the water I would have just been spraying water from a nozzle and not made near as much progress as I did; or had near as much fun!
If you enjoy woodworking, auto-body work, or other hobbies or tasks where you have the option of using air-powered tools then you need something that can move the right amount of air. Since air compressors vary by how much air flow they produce, you need to choose one that will do the job. Let’s face it, a sandblaster just isn’t going to operate properly with a small battery powered model. Most power tools require 90 PSI to work right. The main thing to look for when considering air compressors is to get one that has plenty of air flow for the tool and job at hand. The air flow is measured in cubic feet per minute (cfm). If your application needs more power then you need more cfm. Pretty simple stuff. But you may wonder, “how do I know?”
An air tool will give you the required or suggested cfm it needs. Generally speaking, air compressors for small tools like nailers need to move 1-4 cubic feet per minute, while tools like spray guns or impact wrenches need 2-5 cfm. Sandblasters and sanders will usually require from 6-13 cfm. Obviously, professional grade tools may require a higher cfm.
MJ Marks
http://www.articlesbase.com/tools-and-equipment-articles/air-compressors-one-size-does-not-fit-all-746583.html
Free to Air Receiver and Files
In today’s world, each day brings new inventions and advancements and it would be impossible to keep up with it all. But, with times constantly changing, we have to do our best to keep up with them. One of the latest trends that everyone should know more about is FTAs, free to air satellite receivers and files.
An FTA receiver is a satellite receiver, which is well equipped to receive the unencrypted FTA satellite transmissions. An FTA satellite receiver is able to decode the MPEG-2 data compression protocol used in most of the FTA satellite transmissions. An FTA receiver will not be able to decode the Dish Network or DirecTV satellite signaling.
SOME OF THE TOP FTA RECEIVERS AVAILABLE IN THE MARKET:
Like: Cool sat 8000 HD, SonicView 8000HD, and Viewsat HD 8000.
Coolsat 8000 HD will allow you to capture and get all of the free-to-air channels in HD. Coolsat 8000 HD also uses brand new updated standards that provide the clearest picture for all HD and non HD TVs. Coolsat 8000HD uses the 200mhz STI CPU that allows it to have quick channel change fast on screen channel guide display and a brand new box design. Coolsat 8000HD is also backed with a full 2 year warranty that covers all parts and labor.
SonicView 8000 HD is a brand new free to air satellite receiver by SonicView. This free-to-air satellite receiver can capture about 20 satellites and 700 channels. SonicView 8000HD has a very sharp NIM video tuner that provides HD 1080I picture. SonicView 8000HD is designed for advanced users who like to spend lots of time on their free to air receivers.
The Viewsat HD 8000 free to air satellite receiver that has been specially designed to connect to HD satellites and pick up over the air HD channels for no service fee or cost, all in high definition. Viewsat HD will be coming out shortly but as of now no official specs are out.
Receiver Files Support: Many companies do provide you with all the free to air BIN Files, latest keys, Free to air Receiver loaders, instructions, video-tutorials, and technical free to air File Support. The support provided the manufactures of Free to air receivers would teach you step by step how to use your free to air Receiver. Right from pointing your Free-To-Satellite Dish to programming free to air Receiver the support will always be provided by the manufacturers and dealers alike.
Jeff Herder
http://www.articlesbase.com/satellite-radio-articles/free-to-air-receiver-and-files-103102.html
Free to Air Receiver and Files
In today’s world, each day brings new inventions and advancements and it would be impossible to keep up with it all. But, with times constantly changing, we have to do our best to keep up with them. One of the latest trends that everyone should know more about is FTAs, free to air satellite receivers and files.
An FTA receiver is a satellite receiver, which is well equipped to receive the unencrypted FTA satellite transmissions. An FTA satellite receiver is able to decode the MPEG-2 data compression protocol used in most of the FTA satellite transmissions. An FTA receiver will not be able to decode the Dish Network or DirecTV satellite signaling.
SOME OF THE TOP FTA RECEIVERS AVAILABLE IN THE MARKET:
Like: Cool sat 8000 HD, SonicView 8000HD, and Viewsat HD 8000.
Coolsat 8000 HD will allow you to capture and get all of the free-to-air channels in HD. Coolsat 8000 HD also uses brand new updated standards that provide the clearest picture for all HD and non HD TVs. Coolsat 8000HD uses the 200mhz STI CPU that allows it to have quick channel change fast on screen channel guide display and a brand new box design. Coolsat 8000HD is also backed with a full 2 year warranty that covers all parts and labor.
SonicView 8000 HD is a brand new free to air satellite receiver by SonicView. This free-to-air satellite receiver can capture about 20 satellites and 700 channels. SonicView 8000HD has a very sharp NIM video tuner that provides HD 1080I picture. SonicView 8000HD is designed for advanced users who like to spend lots of time on their free to air receivers.
The Viewsat HD 8000 free to air satellite receiver that has been specially designed to connect to HD satellites and pick up over the air HD channels for no service fee or cost, all in high definition. Viewsat HD will be coming out shortly but as of now no official specs are out.
Receiver Files Support: Many companies do provide you with all the free to air BIN Files, latest keys, Free to air Receiver loaders, instructions, video-tutorials, and technical free to air File Support. The support provided the manufactures of Free to air receivers would teach you step by step how to use your free to air Receiver. Right from pointing your Free-To-Satellite Dish to programming free to air Receiver the support will always be provided by the manufacturers and dealers alike.
Jeff Herder
http://www.articlesbase.com/satellite-radio-articles/free-to-air-receiver-and-files-103102.html
Keys to Maintaining an Efficient Compressed Air System
Ask a Question:
“What are the keys to maintaining an efficient compressed air system?”
Answer:
Key #1: PREVENTIVE MAINTENANCE
“What is the key to maintaining an efficient compressed air system?” The best reply would have to be — Preventive Maintenance.
WHAT IS PREVENTIVE MAINTENANCE?
According to “Wikipedia”: Preventive maintenance (PM) has the following meanings:
“The care and servicing by personnel for the purpose of maintaining equipment and facilities in
satisfactory operating condition by providing for systematic inspection, detection, and correction of incipient failures either before they occur or before they develop into major defects.
Maintenance, including tests, measurements, adjustments, and parts replacement, performed specifically to prevent faults from occurring.”
*Source: from Federal Standard 1037C and from MIL-STD-188 and from the Department of Defense Dictionary of Military and Associated Terms
Preventive maintenance activities include partial or complete overhauls at specified periods, oil changes, lubrication and so on. In addition, workers can record equipment information and deterioration so they know to replace or repair worn parts before they cause system failure.
The ideal preventive maintenance program would prevent all equipment failure before it occurs.
BENEFITS OF PREVENTIVE MAINTENANCE:
-Improves system reliability and helps keep equipment working and/or extend the life of the equipment.
-Decreases system downtime and actively helps prevent unbudgeted maintenance expenses from cropping up.
-Decreases the cost of having to replace equipment as often.
-Records operational data that can help you troubleshoot an emerging problem (called “Data Trending”)
Data trending is the recording of basic operation parameters including pressures, temperatures, and electrical data. For example, a slowly increasing temperature indicates a variety of maintenance requirements including cooler core cleaning, overloading of system and possible mechanical problems. Another example might include slowly decreasing pressure, indicating increased system flow requirements, reduced compressor performance or increased system leakage. Make sure someone is looking at this data on a regular basis. If the data is never reviewed then the benefit is lost.
THE VALUE OF PREVENTIVE MAINTENANCE:
To determine how valuable regular air compressor PM is to you and your business… you need to know what your “down-time” is worth. In some operations, down-time can cost hundreds, even thousands of dollars an hour.
There are many misconceptions about preventive maintenance…one being that it costs too much.
This line of thinking says regularly scheduled downtime for maintenance costs more than operating the equipment until repair is absolutely necessary…or until the equipment breaks. This may be true for some components, but don’t forget to consider the long-term benefits and savings associated with preventive maintenance that have been previously mentioned.
If regular Preventive Maintenance can help reduce unexpected downtime that results in loss of production, time and materials or the ruining of an expensive plant process–then it is well worth the investment. Not to mention that unscheduled shut-downs can be extended if the correct equipment parts or repair technicians are not readily available.
“How effective is your PM program?”
The answer is: “If your PM program isn’t finding problems, it isn’t effective.”
Key #2: CORRECTIVE MAINTENANCE
Corrective maintenance, usually called “repair”, is conducted to get equipment working again
or fix any problems found during Preventive Maintenance.
The primary goal of maintenance is to avoid or reduce the consequences of failure of your compressed air equipment. PM is designed to preserve and restore equipment reliability by replacing worn components before they actually fail.
Key #3: ASSESSING YOUR EQUIPMENT: When to maintain and when to replace.
Here are several factors to consider when assessing your compressed air equipment:
-How critical is your compressed air equipment? If equipment fails, what is the impact on production or safety.
-What is the age & history of your equipment.
Equipment histories will prove that most failures occur during infancy (newly installed or recently overhauled) and old-age (self-explanatory).
How many times has this equipment failed in the past?
-How much do you trust this equipment to perform as designed when scheduled to run?
-Do you need newer technology on your equipment?
Assessing the answers to these questions will help you determine when your older equipment needs fixing or replacing. Preventive Maintenance will help your equipment last longer, run better, and save you loads of money in the long haul.
Key #4: KNOWING YOUR EQUIPMENT WHAT IT NEEDS:
-Every piece of compressed air equipment should come with a set of MAINTENANCE INSTRUCTIONS and some type of operations& parts manual. Your operators should review the equipment information and keep it handy for future reference. If you purchased used equipment and don’t have the manuals, contact your equipment distributor for a copy.
- Follow the maintenance guidelines for your equipment.
BASIC PREVENTIVE MAINTENANCE CHECK LIST FOR
RECIPROCATING (PISTON) air compressorS:
Before performing any maintenance function, switch main disconnect switch to “off” position to assure no power is entering unit. “Lock Out” or “Tag Out” all sources of power. Be sure all air pressure in unit is relieved. Failure to do this may result in injury or equipment damage.
DAILY MAINTENANCE
1. Check oil level of both compressor and engine if so equipped. Add quality air compressor lubricant as required.
2. Drain moisture from tank by opening tank drain valve located in bottom of tank. Do not open drain valve if tank pressure exceeds 25 PSIG.
3. Stop, Look & Listen for any unusual noise, failure to compress, overheating, vibrations or belt slippage and correct before damage of a serious nature develops.
4. Turn off compressor at the end of each day’s operation. Turn off power supply.
WEEKLY MAINTENANCE
1. Clean dust and foreign matter from cylinder head, motor, fan blade, air lines, intercooler and tank.
2. Remove and clean intake air filters
WARNING
Do not exceed 15 PSIG nozzle pressure when cleaning element parts with compressed air. Do not direct compressed air against human skin. Serious injury could result. Never wash elements in fuel oil, gasoline or flammable solvent.
3. Check V-belts for tightness. The V-belts must be tight enough to transmit the necessary power to the
compressor. Adjust the V-belts as follows:
a. Remove bolts and guard to access compressor drive.
b. Loosen mounting hardware which secures motor to base. Slide motor within slots of base plate to desired position.
c. Check the manufacturer’s specifications for correct belt tension. Apply pressure with belt tension checker to one belt at midpoint span. Make further adjustments if necessary.
d. Check the alignment of pulleys. Adjust if necessary.
e. Tighten mounting hardware to secure motor on base.
f. Re-install guard and secure with bolts.
WARNING
Never operate unit without belt guard in place. Removal will expose rotating parts which can cause injury or equipment damage.
EVERY 90 DAYS OR 500 HOURS MAINTENANCE
1. Change crankcase oil. Use type and grade oil as specified.
2. Check entire system for air leakage around fittings, connections, and gaskets, using an ultrasonic leak detector or using soap solution and brush.
3. Tighten nuts and cap-screws as required.
4. Check and clean compressor valves, replace gasket valve asssembly when worn or damaged.
CAUTION
Valves must be reinstalled in original position. Valve gaskets should be replaced each time valves are serviced.
5. Pull ring on all pressure relief valves to assure proper operation.
GENERAL MAINTENANCE NOTES:
PRESSURE RELIEF VALVE: The pressure relief valve is an automatic pop valve. Each valve is properly adjusted for the maximum pressure permitted by tank specifications and working pressure of the unit on which it is installed. If it should pop, it will be necessary to drain all the air out of the tank in order to reseat properly. Do not readjust.
TANK DRAIN VALVE: Drain valve is located at bottom of tank. Open drain valve daily to drain condensation.
Do not open drain valve if tank pressure exceeds 25 PSIG. The automatic tank drain equipped compressor requires draining manually once a week.
PRESSURE SWITCH: The pressure switch is automatic and will start compressor at low pressure and stop when the maximum pressure is reached. It is adjusted to start and stop compressor at the proper pressure for the unit on which it is installed. Do not readjust.
BELTS: Drive belts must be kept tight enough to prevent slipping. If belts slip or squeak, see V-belt maintenance in preceding section.
CAUTION
If belts are too tight, overload will be put on motor and motor bearings.
COMPRESSOR VALVES: If compressor fails to pump air or seems slow in filling up tank, disconnect unit from power source, drain air tank, and remove valves and clean thoroughly, using compressed air and a soft wire brush.
After cleaning exceptional care must be taken that all parts are replaced in exactly the same position and all joints must be tight or the compressor will not function properly.
When all valves are replaced, perform a timed pump-up test and check to see that it meets factory specifications.
Valve gaskets should be replaced each time valves are removed from pump.
Bottom Line: One of the main keys to maintaining an efficient compressed air system has been and still is “Preventive Maintenance.”
Tommy McGuire
http://www.articlesbase.com/business-articles/keys-to-maintaining-an-efficient-compressed-air-system-747908.html
Keys to Maintaining an Efficient Compressed Air System
Ask a Question:
“What are the keys to maintaining an efficient compressed air system?”
Answer:
Key #1: PREVENTIVE MAINTENANCE
“What is the key to maintaining an efficient compressed air system?” The best reply would have to be — Preventive Maintenance.
WHAT IS PREVENTIVE MAINTENANCE?
According to “Wikipedia”: Preventive maintenance (PM) has the following meanings:
“The care and servicing by personnel for the purpose of maintaining equipment and facilities in
satisfactory operating condition by providing for systematic inspection, detection, and correction of incipient failures either before they occur or before they develop into major defects.
Maintenance, including tests, measurements, adjustments, and parts replacement, performed specifically to prevent faults from occurring.”
*Source: from Federal Standard 1037C and from MIL-STD-188 and from the Department of Defense Dictionary of Military and Associated Terms
Preventive maintenance activities include partial or complete overhauls at specified periods, oil changes, lubrication and so on. In addition, workers can record equipment information and deterioration so they know to replace or repair worn parts before they cause system failure.
The ideal preventive maintenance program would prevent all equipment failure before it occurs.
BENEFITS OF PREVENTIVE MAINTENANCE:
-Improves system reliability and helps keep equipment working and/or extend the life of the equipment.
-Decreases system downtime and actively helps prevent unbudgeted maintenance expenses from cropping up.
-Decreases the cost of having to replace equipment as often.
-Records operational data that can help you troubleshoot an emerging problem (called “Data Trending”)
Data trending is the recording of basic operation parameters including pressures, temperatures, and electrical data. For example, a slowly increasing temperature indicates a variety of maintenance requirements including cooler core cleaning, overloading of system and possible mechanical problems. Another example might include slowly decreasing pressure, indicating increased system flow requirements, reduced compressor performance or increased system leakage. Make sure someone is looking at this data on a regular basis. If the data is never reviewed then the benefit is lost.
THE VALUE OF PREVENTIVE MAINTENANCE:
To determine how valuable regular air compressor PM is to you and your business… you need to know what your “down-time” is worth. In some operations, down-time can cost hundreds, even thousands of dollars an hour.
There are many misconceptions about preventive maintenance…one being that it costs too much.
This line of thinking says regularly scheduled downtime for maintenance costs more than operating the equipment until repair is absolutely necessary…or until the equipment breaks. This may be true for some components, but don’t forget to consider the long-term benefits and savings associated with preventive maintenance that have been previously mentioned.
If regular Preventive Maintenance can help reduce unexpected downtime that results in loss of production, time and materials or the ruining of an expensive plant process–then it is well worth the investment. Not to mention that unscheduled shut-downs can be extended if the correct equipment parts or repair technicians are not readily available.
“How effective is your PM program?”
The answer is: “If your PM program isn’t finding problems, it isn’t effective.”
Key #2: CORRECTIVE MAINTENANCE
Corrective maintenance, usually called “repair”, is conducted to get equipment working again
or fix any problems found during Preventive Maintenance.
The primary goal of maintenance is to avoid or reduce the consequences of failure of your compressed air equipment. PM is designed to preserve and restore equipment reliability by replacing worn components before they actually fail.
Key #3: ASSESSING YOUR EQUIPMENT: When to maintain and when to replace.
Here are several factors to consider when assessing your compressed air equipment:
-How critical is your compressed air equipment? If equipment fails, what is the impact on production or safety.
-What is the age & history of your equipment.
Equipment histories will prove that most failures occur during infancy (newly installed or recently overhauled) and old-age (self-explanatory).
How many times has this equipment failed in the past?
-How much do you trust this equipment to perform as designed when scheduled to run?
-Do you need newer technology on your equipment?
Assessing the answers to these questions will help you determine when your older equipment needs fixing or replacing. Preventive Maintenance will help your equipment last longer, run better, and save you loads of money in the long haul.
Key #4: KNOWING YOUR EQUIPMENT WHAT IT NEEDS:
-Every piece of compressed air equipment should come with a set of MAINTENANCE INSTRUCTIONS and some type of operations& parts manual. Your operators should review the equipment information and keep it handy for future reference. If you purchased used equipment and don’t have the manuals, contact your equipment distributor for a copy.
- Follow the maintenance guidelines for your equipment.
BASIC PREVENTIVE MAINTENANCE CHECK LIST FOR
RECIPROCATING (PISTON) AIR COMPRESSORS:
Before performing any maintenance function, switch main disconnect switch to “off” position to assure no power is entering unit. “Lock Out” or “Tag Out” all sources of power. Be sure all air pressure in unit is relieved. Failure to do this may result in injury or equipment damage.
DAILY MAINTENANCE
1. Check oil level of both compressor and engine if so equipped. Add quality air compressor lubricant as required.
2. Drain moisture from tank by opening tank drain valve located in bottom of tank. Do not open drain valve if tank pressure exceeds 25 PSIG.
3. Stop, Look & Listen for any unusual noise, failure to compress, overheating, vibrations or belt slippage and correct before damage of a serious nature develops.
4. Turn off compressor at the end of each day’s operation. Turn off power supply.
WEEKLY MAINTENANCE
1. Clean dust and foreign matter from cylinder head, motor, fan blade, air lines, intercooler and tank.
2. Remove and clean intake air filters
WARNING
Do not exceed 15 PSIG nozzle pressure when cleaning element parts with compressed air. Do not direct compressed air against human skin. Serious injury could result. Never wash elements in fuel oil, gasoline or flammable solvent.
3. Check V-belts for tightness. The V-belts must be tight enough to transmit the necessary power to the
compressor. Adjust the V-belts as follows:
a. Remove bolts and guard to access compressor drive.
b. Loosen mounting hardware which secures motor to base. Slide motor within slots of base plate to desired position.
c. Check the manufacturer’s specifications for correct belt tension. Apply pressure with belt tension checker to one belt at midpoint span. Make further adjustments if necessary.
d. Check the alignment of pulleys. Adjust if necessary.
e. Tighten mounting hardware to secure motor on base.
f. Re-install guard and secure with bolts.
WARNING
Never operate unit without belt guard in place. Removal will expose rotating parts which can cause injury or equipment damage.
EVERY 90 DAYS OR 500 HOURS MAINTENANCE
1. Change crankcase oil. Use type and grade oil as specified.
2. Check entire system for air leakage around fittings, connections, and gaskets, using an ultrasonic leak detector or using soap solution and brush.
3. Tighten nuts and cap-screws as required.
4. Check and clean compressor valves, replace gasket valve asssembly when worn or damaged.
CAUTION
Valves must be reinstalled in original position. Valve gaskets should be replaced each time valves are serviced.
5. Pull ring on all pressure relief valves to assure proper operation.
GENERAL MAINTENANCE NOTES:
PRESSURE RELIEF VALVE: The pressure relief valve is an automatic pop valve. Each valve is properly adjusted for the maximum pressure permitted by tank specifications and working pressure of the unit on which it is installed. If it should pop, it will be necessary to drain all the air out of the tank in order to reseat properly. Do not readjust.
TANK DRAIN VALVE: Drain valve is located at bottom of tank. Open drain valve daily to drain condensation.
Do not open drain valve if tank pressure exceeds 25 PSIG. The automatic tank drain equipped compressor requires draining manually once a week.
PRESSURE SWITCH: The pressure switch is automatic and will start compressor at low pressure and stop when the maximum pressure is reached. It is adjusted to start and stop compressor at the proper pressure for the unit on which it is installed. Do not readjust.
BELTS: Drive belts must be kept tight enough to prevent slipping. If belts slip or squeak, see V-belt maintenance in preceding section.
CAUTION
If belts are too tight, overload will be put on motor and motor bearings.
COMPRESSOR VALVES: If compressor fails to pump air or seems slow in filling up tank, disconnect unit from power source, drain air tank, and remove valves and clean thoroughly, using compressed air and a soft wire brush.
After cleaning exceptional care must be taken that all parts are replaced in exactly the same position and all joints must be tight or the compressor will not function properly.
When all valves are replaced, perform a timed pump-up test and check to see that it meets factory specifications.
Valve gaskets should be replaced each time valves are removed from pump.
Bottom Line: One of the main keys to maintaining an efficient compressed air system has been and still is “Preventive Maintenance.”
Tommy McGuire
http://www.articlesbase.com/business-articles/keys-to-maintaining-an-efficient-compressed-air-system-747908.html
For Sales & Servicing of Air Compressors in Western Australia Contact Us at info(at)aircompressorswa.com.au.