Air Shock Compressor Kit Your Power Solution

Air shock compressor kit: Unleash the power of compressed air for a wide range of applications, from automotive enhancements to industrial tasks. Imagine the precision and efficiency you can achieve with the right equipment. This comprehensive guide dives deep into the world of air shock compressors, exploring everything from different types and components to installation, operation, and maintenance.

Get ready to discover how these powerful tools can transform your workflow.

This guide will explore the various types of air shock compressor kits, detailing their technical specifications, strengths, and weaknesses. We’ll also delve into installation procedures, emphasizing safety precautions, and explain the importance of proper maintenance for optimal performance. The guide concludes with a discussion of diverse applications, troubleshooting tips, safety considerations, comparisons with other technologies, and future innovations in this exciting field.

Introduction to Air Shock Compressor Kits

Air shock compressor kits are essential tools for anyone needing to inflate and maintain air suspension systems, whether in vehicles, equipment, or other applications. These kits provide a convenient and efficient way to manage air pressure, enabling precise adjustments for optimal performance and comfort. From simple portable models to robust stationary units, a variety of options cater to diverse needs.These kits are designed to be versatile, adaptable to various scenarios.

Their core function is to provide compressed air for inflating air shocks, enabling users to fine-tune suspension systems for specific conditions. A fundamental understanding of the different types and components will empower users to select the right kit for their particular application.

Types of Air Shock Compressor Kits

Air shock compressor kits come in diverse forms, each tailored to specific needs. Portable units are ideal for occasional use or on-site repairs, offering convenience and mobility. Stationary units, on the other hand, are typically more powerful and suited for frequent use in workshops or garages. The choice depends heavily on the frequency and scale of the tasks.

Key Components of an Air Shock Compressor Kit

A comprehensive air shock compressor kit typically includes a compressor unit, air hoses, fittings, pressure gauges, and potentially a variety of accessories like mounting brackets or specialized valves. The inclusion of these components ensures that the user has everything needed for effective operation and maintenance. The specific components may vary based on the manufacturer and the kit’s intended use.

Common Uses of Air Shock Compressor Kits

Air shock compressor kits are widely used across various industries and applications. Their ability to precisely control air pressure makes them invaluable for a range of tasks. The table below illustrates the diverse uses of these versatile tools.

Application	Tool	Process	Advantages
Vehicle Suspension Maintenance	Air Shock Compressor Kit	Inflating and adjusting air shocks to optimize ride comfort and handling.	Ensures proper vehicle suspension pressure, leading to enhanced stability, comfort, and safety.
Agricultural Equipment Maintenance	Air Shock Compressor Kit	Maintaining air pressure in agricultural equipment, ensuring proper operation and longevity.	Allows for fine-tuning of equipment suspension, improving performance and reducing wear.
Industrial Equipment Maintenance	Air Shock Compressor Kit	Inflating and adjusting air shocks in various industrial equipment, maintaining operational efficiency.	Provides a controlled and consistent inflation process, ensuring optimal performance and reducing maintenance costs.
Automotive Repair Shops	Air Shock Compressor Kit	Quickly and efficiently inflating and adjusting air shocks on vehicles, improving turnaround times.	Increases efficiency and productivity in automotive repair shops.

Components and Features

Air shock compressor kits are a powerful tool for a variety of applications. Understanding their components and features allows for informed choices, optimizing performance and longevity. The heart of these systems lies in the compressors themselves, with each type offering unique benefits and drawbacks.The efficiency and suitability of an air shock compressor kit depend significantly on the type of compressor employed.

Factors like pressure output, air volume, power source, and the compressor’s internal mechanisms all contribute to its overall performance. Pressure regulation is crucial for consistent operation, while the air tank acts as a reservoir, storing compressed air for use when needed.

Compressor Types

Various compressor types offer different advantages. Piston compressors are a tried-and-true technology, often found in a variety of applications. They typically offer a balance of power and cost-effectiveness. Rotary screw compressors, on the other hand, excel in continuous operation and often provide higher efficiency, particularly at lower speeds. These compressors are often favored for industrial settings requiring consistent air supply.

Pressure Regulation

Maintaining consistent pressure is paramount for the smooth operation of air shock compressors. Pressure regulators ensure a stable and controlled pressure level, preventing fluctuations that could damage components and impact performance. Precise pressure regulation is crucial for applications requiring precise control of the shock force or pressure. Proper pressure regulation is vital to ensure the safe and reliable operation of the entire system.

Air Tanks

Air tanks are critical components in air shock compressor kits. They act as a storage reservoir for the compressed air generated by the compressor. This storage allows for a continuous supply of air even when the compressor is not running. Air tanks ensure a consistent and reliable supply of compressed air for the intended application. The size of the tank, its material, and its pressure rating all contribute to the system’s overall performance and lifespan.

Key Components and Specifications

Component	Function	Typical Specifications
Compressor	Generates compressed air	Various types: Piston, Rotary Screw, others; Pressure: 100-200 PSI; Volume: 1-10 CFM; Power: Electric, Pneumatic
Pressure Regulator	Maintains consistent pressure	Pressure range adjustable; Response time; Flow rate
Air Tank	Stores compressed air	Capacity: 1-10 gallons; Material: Steel, Aluminum; Max. Working Pressure
Pressure Gauge	Monitors the system pressure	Accuracy; Readability; Range
Air Distribution System	Distributes compressed air to components	Hoses, fittings; Air quality; Durability

Installation and Setup

Getting your air shock compressor kit up and running is a breeze! This section provides a clear, step-by-step guide to ensure a smooth installation process. Proper installation is crucial for both the longevity of your equipment and optimal performance. Follow these instructions carefully for the best results.This guide details the essential steps for installing your air shock compressor kit.

It covers safety procedures, compressor connection, and critical air line considerations. We’ll walk you through each step with precision, making the installation process straightforward and secure.

Safety Precautions

Proper safety precautions are paramount during installation. Ensure a well-ventilated area to avoid potential hazards. Always disconnect the power source before any physical work on the compressor. Use appropriate personal protective equipment (PPE), including safety glasses and gloves. Avoid working in wet or damp conditions.

Be cautious when handling compressed air; it can be dangerous if not handled properly.

Compressor Installation Steps

The following steps detail the compressor installation process:

Step	Action	Description
1	Unpacking and Inspection	Carefully unpack the compressor kit and inspect all components for any damage. Verify all parts are present and in good condition. Check the packaging for any installation instructions or safety precautions.
2	Prepare the Workspace	Select a level, stable, and well-ventilated area for installation. Clear the area of obstructions and ensure adequate space for maneuvering.
3	Compressor Placement	Position the compressor on the designated area, ensuring it’s level and stable. Make sure the compressor’s legs or feet are securely resting on the surface.
4	Electrical Connection	Connect the compressor to the appropriate power source, adhering to all electrical safety guidelines. Ensure the voltage and amperage specifications match the compressor’s requirements.
5	Air Line Connections	Connect the air lines from the compressor to the air shock system, ensuring the correct connections for each component. Use appropriate fittings and couplings for secure connections.
6	System Testing	After all connections are complete, turn on the compressor and test the system. Check for leaks and proper functioning. Listen for any unusual noises or vibrations. Observe if the air shocks are responding to the compressor output.

Air Line Connection Procedure

Proper air line connections are vital for a functional and safe system. Incorrect connections can lead to leaks, reduced performance, or even system damage. Always use the correct fitting types and ensure secure connections. Tighten all connections appropriately to prevent air leaks. Use appropriate tools to avoid damaging the connections.

Troubleshooting

If issues arise during installation, refer to the troubleshooting guide in the user manual. Common problems include leaks in the air lines, faulty components, or incorrect connections. If the problem persists, contact customer support for assistance. Documenting the steps taken and the specific issue will be helpful.

Operation and Maintenance

Your air shock compressor kit is designed for years of reliable service, but proper operation and maintenance are key to its longevity and efficiency. This section details the crucial steps for safe and optimal use, ensuring your investment provides top-notch performance.Proper operation and diligent maintenance are not just good practices; they are essential for maximizing the life and efficiency of your compressor.

Ignoring these guidelines can lead to premature wear, reduced performance, and even safety hazards. By following the instructions below, you’ll ensure your air shock compressor kit performs at its best and keeps you and your project moving forward.

Safe Operation Procedures

Ensuring a safe and efficient operation is paramount. Always adhere to the manufacturer’s safety guidelines and precautions. Inspect the compressor for any visible damage or leaks before each use. Never operate the compressor if there are any signs of damage or malfunction. Use the compressor in a well-ventilated area to prevent the buildup of potentially harmful gases.

Maintain a safe distance from the compressor during operation to avoid injury from moving parts or expelled air. Ensure proper grounding to prevent electrical hazards. Use appropriate personal protective equipment (PPE), such as safety glasses, when working around the compressor.

Maintenance Schedule

Regular maintenance is crucial for preserving the quality and longevity of your air shock compressor kit. A well-maintained compressor will perform better, run quieter, and need less repair work over time. A consistent maintenance schedule ensures that all vital components are checked and serviced, keeping your investment in top working condition. Following this maintenance schedule will also save you time and money in the long run by reducing the need for major repairs.

Basic Maintenance Tasks

This section Artikels the essential steps for routine maintenance tasks, helping you to keep your air shock compressor kit in peak performance.

• Oil Changes: Regular oil changes are vital for maintaining the compressor’s internal lubrication. Follow the manufacturer’s recommended oil type and change intervals to prevent wear and tear. Proper oil level and viscosity are essential to avoid damage to the compressor’s components. Always dispose of used oil responsibly, adhering to local environmental regulations.
• Filter Replacements: Air filters are crucial for maintaining the compressor’s performance and preventing debris from entering the system. Replace filters according to the manufacturer’s recommendations. Clogged filters reduce airflow, leading to decreased efficiency and potentially damaging the compressor.
• Component Inspections: Regularly inspect all components for wear and tear. Look for signs of damage, corrosion, or loose connections. Promptly address any issues to prevent further damage and ensure the compressor operates smoothly. Prompt identification and repair of issues can prevent more significant problems and maintain the compressor’s operational lifespan.

Maintenance Checklist

This checklist will help ensure you’re covering all essential maintenance points:

• Visual inspection for damage or leaks.
• Check oil level and condition.
• Replace air filters according to the manufacturer’s schedule.
• Inspect all connections for tightness and integrity.
• Clean any accumulated dust or debris.
• Record all maintenance tasks and dates in a logbook for future reference.

Maintenance Schedule Table

The following table Artikels the recommended maintenance schedule for your air shock compressor kit.

Maintenance Task	Frequency	Description
Visual Inspection	Daily	Check for leaks, damage, or unusual noises.
Oil Change	Every 50 hours of operation or as recommended	Replace with the correct oil type and quantity.
Filter Replacement	Every 100 hours of operation or as recommended	Replace air and oil filters to maintain optimal performance.
Component Inspection	Every 250 hours of operation or as recommended	Thoroughly inspect all components for wear and tear.

Applications and Use Cases

Air shock compressor kits aren’t just for fancy show cars; they’re versatile tools with a wide range of applications, from personal vehicles to massive industrial machinery. Their ability to deliver precise and controlled air pressure makes them a crucial component in various sectors. This section delves into the diverse uses of these kits, highlighting their benefits and practical examples.

Automotive Applications

Air shock compressors are increasingly popular in the automotive world. Their use in vehicle suspension systems allows for customization and improved performance. These kits enable precise control over ride height, handling, and overall vehicle dynamics. This precise control over air pressure leads to enhanced performance and comfort, particularly in off-roading or racing applications.

• Tuned suspension systems: Vehicle owners can adjust ride height to suit various terrains and driving styles, improving handling and comfort.
• Off-roading: Air suspension allows for greater ground clearance, essential for navigating rough terrain, and enhancing stability.
• Racing: Precise control over suspension allows for optimal handling and performance during racing events.
• Commercial vehicles: Air suspension systems enhance the comfort of passengers and improve the longevity of the vehicle’s components.

Industrial Applications

Beyond the automotive sector, air shock compressor kits play a vital role in industrial settings. Their ability to deliver regulated air pressure makes them indispensable for various tasks.

• Material handling: Air shock compressors power pneumatic tools and equipment, streamlining material handling processes in manufacturing and warehousing.
• Automated systems: Precise air pressure control is crucial for the smooth operation of automated machinery in various industries, such as packaging, assembly, and robotics.
• Hydraulic systems: Air shock compressors can power hydraulic systems, offering enhanced efficiency and control in industrial applications.
• Testing and inspection: Controlled air pressure is critical in quality control procedures, ensuring consistency and accuracy in various industrial tests.

Agricultural Applications

In the agricultural sector, air shock compressors offer substantial benefits, enabling farmers to perform tasks more efficiently and effectively.

• Tractor suspension: Air suspension systems in tractors offer increased comfort and control, improving driver ergonomics and reducing strain on the vehicle’s structure during farming operations.
• Spraying and application systems: Air shock compressors are vital for operating various agricultural spraying and application equipment, ensuring precise and efficient distribution of chemicals or fertilizers.
• Harvesting equipment: Air-powered mechanisms improve the speed and effectiveness of harvesting operations.

Comparison Table

Application	Advantages	Disadvantages
Automotive	Enhanced ride quality, customization, improved handling, increased ground clearance	Potential for increased vehicle weight, complexity of installation, higher initial cost
Industrial	Increased efficiency, precise control, reduced maintenance in some cases	Potential for air leaks, noise, and specialized maintenance requirements
Agricultural	Improved operator comfort, increased efficiency, reduced wear and tear on machinery	Potential for higher initial cost, specialized knowledge required for installation

Troubleshooting and Repair

Unforeseen issues with air shock compressor kits, like any mechanical system, can occasionally crop up. Knowing how to diagnose and address these problems promptly is key to maintaining smooth operation and maximizing the lifespan of your equipment. This section will detail common issues, their causes, and effective troubleshooting and repair procedures.

Common Issues and Causes

Air shock compressor kits, while generally reliable, can encounter various problems. Understanding the potential causes behind these issues empowers you to tackle them efficiently. These problems often stem from improper usage, inadequate maintenance, or component wear.

• Low Air Pressure: Insufficient air pressure can stem from leaks in the system, a faulty compressor, or a clogged air filter. This issue can also be a symptom of a malfunctioning pressure switch.
• Noisy Operation: Unusually loud noises might indicate loose connections, worn-out bearings, or a problem with the air pump motor. A loose or damaged belt could also be the culprit.
• Compressor Failure: A completely inoperable compressor may result from a burnt-out motor, a faulty capacitor, or a blockage in the air intake. Overheating can also cause compressor failure.
• Leakage: Leaks in the air lines, fittings, or the compressor itself are a common culprit for decreased performance. This can range from small pinholes to larger breaches.

Troubleshooting Procedures

Effective troubleshooting starts with systematic observation. Following a structured approach allows you to identify the root cause of the problem.

• Visual Inspection: Examine the entire system for any visible damage, leaks, or loose connections. Pay close attention to the air lines, fittings, and compressor components.
• Listening for Sounds: Carefully listen for unusual noises. A grinding sound suggests a mechanical problem, while a clicking sound may indicate an electrical issue.
• Checking Pressure Readings: Use a pressure gauge to verify the air pressure within the system. Compare the readings to the manufacturer’s specifications.
• Inspecting Components: Carefully inspect the compressor motor, belts, and other critical components for any signs of wear or damage. Examine the air filter for clogs or debris.

Repair Procedures

Once the cause of the issue is determined, you can proceed with appropriate repairs.

• Fixing Leaks: Identify the source of the leak and apply appropriate sealing materials, such as Teflon tape, to fix leaks in fittings. For larger leaks, replacement of damaged components might be necessary.
• Replacing Components: If a component, like a belt or a capacitor, is damaged, replace it with a genuine manufacturer’s part. Ensure proper installation procedures are followed.
• Cleaning and Maintenance: Regular cleaning and maintenance, including replacing air filters, can prevent many issues from arising. Clean the compressor housing and other components as per the manufacturer’s recommendations.
• Electrical Troubleshooting: If an electrical problem is suspected, consult an electrician or refer to the manufacturer’s guidelines for electrical troubleshooting. Incorrect electrical connections can lead to serious damage.

Table of Common Issues, Causes, and Solutions

Issue	Possible Causes	Solutions
Low Air Pressure	Leaks, Clogged Filter, Faulty Compressor, Malfunctioning Pressure Switch	Locate and repair leaks, clean or replace filter, replace compressor or pressure switch
Noisy Operation	Loose Connections, Worn Bearings, Damaged Belt, Air Pump Motor Issues	Tighten connections, replace bearings, replace belt, check and repair motor
Compressor Failure	Burnt-Out Motor, Faulty Capacitor, Blockage in Air Intake, Overheating	Replace motor, replace capacitor, clear blockage, address overheating issues
Leakage	Damaged Fittings, Loose Connections, Punctured Air Lines, Damaged Compressor	Repair/replace fittings, tighten connections, repair/replace air lines, repair/replace compressor

Safety Considerations: Air Shock Compressor Kit

Air shock compressor kits, while powerful tools, require careful handling to prevent accidents. Understanding the potential hazards and adhering to safety protocols is paramount to safe operation and minimizing risks. This section Artikels crucial safety procedures and regulations, emphasizing the importance of preventive measures for a smooth and accident-free experience.Proper safety precautions are not just about avoiding injury; they are about responsible use and preserving the integrity of the equipment itself.

A well-maintained and safely operated compressor kit will last longer, perform better, and provide reliable service.

Critical Safety Procedures and Regulations

Comprehending and adhering to safety regulations is essential for safe operation. These regulations are designed to minimize risks and prevent potential accidents. They encompass a range of aspects from equipment maintenance to proper handling of compressed air. Regulations vary by location and jurisdiction, so it is important to consult local guidelines for specific requirements.

Potential Hazards Associated with Using Air Shock Compressor Kits

Air shock compressor kits present several potential hazards. High-pressure compressed air can cause serious injuries if not handled correctly. Improperly maintained or damaged equipment can lead to sudden releases of pressure or leaks, resulting in injuries. Furthermore, the movement and lifting of heavy components during installation and maintenance can lead to musculoskeletal issues. The potential for electrical hazards exists if the compressor kit incorporates electrical components.

Safety Equipment and Procedures to Prevent Accidents

Safe operation necessitates the use of appropriate safety equipment. This includes, but is not limited to, safety glasses, gloves, and hearing protection. Eye protection is crucial to shield the eyes from flying debris or particles. Gloves protect hands from cuts, abrasions, or exposure to chemicals. Hearing protection mitigates the risk of noise-induced hearing loss.

Furthermore, regular maintenance and inspections of the compressor kit are crucial to identify and address potential issues before they escalate into serious problems.

Important Safety Guidelines for Handling Compressed Air

Compressed air, though seemingly harmless, can pose significant risks if not handled correctly. Never point the air nozzle at anyone or anything. Ensure the area is well-ventilated to prevent the accumulation of compressed air. Keep bystanders at a safe distance. Inspect the air hose for any damage or leaks before each use.

Use appropriate pressure gauges and valves to monitor and control the air pressure. Always follow the manufacturer’s instructions for safe operation and maintenance.

Safety Precautions for Air Shock Compressor Kit Operation

A comprehensive list of safety precautions is crucial to prevent accidents and maintain a safe working environment.

• Proper Equipment Inspection: Before every use, thoroughly inspect the compressor kit, hoses, and fittings for any signs of damage, wear, or leaks. This proactive measure prevents unexpected malfunctions and ensures safe operation.
• Secure Work Area: Ensure the work area is clear of obstructions and that proper safety measures, such as securing equipment and designating a safe operating zone, are in place to prevent accidents.
• Proper Air Pressure Control: Always use pressure gauges and valves to precisely control the air pressure to prevent over-pressurization. Incorrect pressure settings can lead to dangerous situations.
• Personal Protective Equipment (PPE): Always wear appropriate personal protective equipment (PPE), such as safety glasses, gloves, and hearing protection, to safeguard against potential injuries.
• Environmental Considerations: Ensure the operating environment is well-ventilated and free of flammable materials or easily ignitable substances. This proactive measure minimizes the risk of fire or explosions.
• Proper Training: Receive adequate training on the safe operation and maintenance of the air shock compressor kit. This measure minimizes the risk of accidents and ensures the equipment is handled correctly.
• Emergency Procedures: Familiarize yourself with emergency procedures, including shut-off procedures, and have the appropriate safety equipment readily available. This is crucial for managing emergencies effectively.

Comparison with Other Technologies

Choosing the right technology for a specific task is crucial. Air shock compressor kits offer a unique blend of features, but understanding their advantages and disadvantages compared to other options like hydraulic systems and electric pumps is essential for informed decision-making. This comparison explores the strengths and weaknesses of each approach in various applications.

Alternative Technologies

Various technologies are available for pressure generation and application. Understanding their capabilities is key to selecting the optimal solution for a specific need. Hydraulic systems leverage fluid pressure for power transmission, while electric pumps convert electrical energy into mechanical energy to generate pressure. Each technology possesses distinct characteristics that influence their suitability for different applications.

Air Shock Compressor Kits vs. Hydraulic Systems

Air shock compressor kits, leveraging compressed air, excel in situations demanding quick responsiveness and ease of implementation. Hydraulic systems, on the other hand, offer high force transmission capabilities and are often favored for heavy-duty applications. The choice between the two depends heavily on the specific application and desired performance characteristics. Consider the required force, speed, and precision of the task.

Air Shock Compressor Kits vs. Electric Pumps

Electric pumps offer a controlled and predictable pressure output, making them ideal for applications requiring precise pressure regulation. Air shock compressor kits, with their inherent responsiveness, often outperform electric pumps in applications where quick pressure changes are necessary. Electric pumps, while stable, may lack the rapid responsiveness that air shock compressor kits can provide. Factor in the desired speed of pressure changes when choosing.

Factors to Consider When Choosing a Technology, Air shock compressor kit

Several factors must be considered when comparing technologies. These factors include the required pressure, the desired speed of pressure changes, the required force, the size of the system, the maintenance requirements, and the cost. The chosen technology should align seamlessly with the specific application and desired outcomes.

Comparative Analysis Table

Technology	Application	Pros	Cons
Air Shock Compressor Kits	Quick pressure changes, moderate force, diverse applications	Fast response, relatively low cost, portable	Limited force compared to hydraulics, less stable pressure
Hydraulic Systems	High force applications, heavy-duty machinery	High force output, stable pressure	Complex design, higher cost, maintenance intensive
Electric Pumps	Precise pressure control, steady operation	Precise pressure regulation, controlled output	Slower response compared to air shock, potentially higher operating costs

Future Trends and Innovations

The air shock compressor kit industry is poised for exciting advancements. Emerging technologies are constantly pushing the boundaries of efficiency, portability, and performance. This evolution promises a future filled with innovative solutions, addressing both existing challenges and anticipating new demands.

Potential Developments in Materials

Advanced composite materials, such as carbon fiber reinforced polymers, are likely to become more prevalent in future compressor kits. These materials offer superior strength-to-weight ratios, potentially leading to lighter, more compact designs. Consider the aerospace industry; lightweight materials have dramatically improved performance and fuel efficiency. Similarly, the use of these materials could significantly enhance the portability and usability of air shock compressor kits, making them more accessible to a wider range of users.

Furthermore, new, high-temperature resistant polymers could extend the lifespan of critical components, contributing to greater reliability.

Potential Developments in Design

Expect innovative designs that prioritize user experience. Imagine a kit that seamlessly integrates into a vehicle’s existing storage space or seamlessly mounts onto a variety of surfaces, from trucks to trailers. These intuitive designs could dramatically enhance the user interface, improving ease of use and accessibility.

Potential Developments in Energy Efficiency

A crucial area of focus is energy efficiency. The development of more efficient motors and compressors, coupled with advancements in energy storage solutions, could significantly reduce energy consumption. This is particularly important for applications requiring frequent use, such as automotive or construction settings. Think of the increasing demand for electric vehicles and the related need for efficient charging and power delivery systems.

This concept can be mirrored in the design of air shock compressor kits.

Potential Developments in Automation

Further automation in the air shock compressor kit design and assembly could streamline manufacturing processes, leading to lower costs and higher quality products. Imagine automated systems that can precisely adjust the air pressure and optimize the shock absorption based on the specific vehicle or application. These developments would reduce the possibility of human error and ensure consistency in performance.

Potential Developments in Smart Features

Integration of sensors and intelligent control systems will be crucial for future compressor kits. This could allow for real-time monitoring of pressure, temperature, and other critical parameters. Such systems could offer predictive maintenance capabilities, alerting users to potential issues before they occur. This is reminiscent of the smart technology present in modern vehicles, providing valuable insights and preventing costly repairs.

• Integration of sensors for real-time monitoring of pressure and temperature.
• Development of intelligent control systems for automated adjustment of air pressure.
• Implementation of predictive maintenance capabilities.
• Creation of user-friendly interfaces for easy operation and data analysis.
• Exploration of renewable energy sources for powering compressor kits.