Pneumatic Fitting

Product Details:

To furnish the diverse requirements of our clients we are involved in offering a wide range of SS Casting Valve. These are widely used for controlling liquids and have high tensile strength. These products are corrosion resistant in nature and are well known for their hassle free performance. Furthermore, we also assure to deliver a defect free range of our products in a fixed time frame.

 

Features:

 

• High durability
• Competitive prices
• Best grade materials

Product Details:

Enriched with long years of experience in the industry, we are engaged in offering a comprehensive range of Fountain Nozzle. We offer these in various designs and sizes as per the clients needs. Offered products are widely used for bubble fountain, crown fountain and many more and also determine their overall pattern. Additionally, these are available at affordable rates.

 

Features:

 

• Best grade materials
• High performance
• Durable

Product Details:

Backed by rich industry experience and market understanding, we are involved in offering a wide array of products to our valued patrons.

Additional Information:

• Delivery Time: Ready stock

Product Details:

For the diverse requirements of our clients we are involved in offering an extensive range of Boiler Valve. These can withstand with extreme weather conditions and have high strength also. Our products are abrasion resistant in nature and are well known for their perfect finishing. Besides, these can also be quality tested on various parameters by our experts before they are dispatched.

 

Features:

 

• Highly efficient
• Quality product
• Highly reliable

Product Details:

Types of Pneumatic PU Fittings

1. Straight Fittings – Connects two tubes in a straight line.

2. Elbow Fittings (90° or 45°) – Allows tubing to bend at specific angles.

3. Tee Fittings – Splits or combines airflow into three directions.

4. Y-Fittings – Diverts airflow into two separate paths.

5. Cross Fittings – Connects four tubes in a cross-section layout.

6. Bulkhead Fittings – Used for panel mounting and passing tubes through surfaces.

7. Reducer Fittings – Connects tubes of different sizes.

8. Swivel Fittings – Provides rotational movement for flexible tube positioning.

Applications of Pneumatic PU Fittings

�� Industrial Automation – Used in pneumatic cylinders, valves, and actuators.
�� Automotive Industry – Applied in air brake systems and fuel lines.
�� HVAC Systems – Helps regulate airflow in heating and cooling units.
�� Water & Irrigation Systems – Used in misting and spray systems.
�� Medical Equipment – Utilized in oxygen supply and vacuum systems.

Additional Information:

• Production Capacity: 5
• Delivery Time: ready stock
• Packaging Details: Box Packaging

Product Details:

 These devices consist of a piston, piston rod, and cylinder. The pressure inside the cylinder rises as air enters on one side of the cylinder.

Additional Information:

• Delivery Time: Same day

Product Details:

Push-in fittings come with a quick release system which allows for simple and easy installation by hand, eliminating the need for tools and adhesive. Due to the ease of connecting and disconnecting air lines, it allows for frequent changing of air lines at a low cost

Product Details:

A solenoid coil is a vital component in various electrical systems and devices. It is a type of electromagnet made by winding a wire (usually copper) around a core, typically cylindrical in shape. When an electric current passes through the coil, it generates a magnetic field that can be used for a variety of mechanical or electronic applications.

Key Features:

1. Electromagnetic Action: The primary function of a solenoid coil is to convert electrical energy into mechanical motion using its magnetic field. When current flows through the coil, it creates a magnetic field that can either pull or push an attached metal plunger or armature.

2. Core Material: The core is usually made of ferromagnetic material like iron, which enhances the magnetic field created by the coil. Some solenoids may have air cores (non-magnetic) but those are less common.

3. Wire Construction: The coil is typically made from insulated copper wire wound tightly around the core. The number of turns in the coil and the amount of current passing through the coil determine the strength of the generated magnetic field.

4. Control: Solenoid coils are commonly controlled by an electrical switch or relay, which activates the current flow, causing the magnetic field to form. This can drive mechanical processes such as opening valves, actuating switches, or moving levers.

5. Direct Current (DC) vs. Alternating Current (AC): Solenoid coils can be designed for either DC or AC operation. In DC solenoids, the magnetic field remains constant as long as the current flows, while in AC solenoids, the magnetic field alternates with the frequency of the AC supply.

Applications:

1. Electromagnetic Valves: Solenoid coils are commonly used in controlling valves, especially in pneumatic or hydraulic systems, where the magnetic field controls the movement of a valve to start or stop the flow of fluids or gases.

2. Automotive Systems: In vehicles, solenoids are used in applications such as starter motors, automatic transmissions, and locking systems.

3. Relays and Switches: Solenoids can operate relays, turning circuits on or off, and are frequently found in electrical control panels and machines.

4. Actuators: In robotics and industrial equipment, solenoids act as actuators to provide linear motion.

5. Security Systems: Solenoids are used in security locks, where an electric current triggers the release or engagement of a locking mechanism.

Types of Solenoids:

• Push-Type Solenoid: When activated, it pushes the plunger outward.

• Pull-Type Solenoid: When activated, it pulls the plunger into the coil.

• Latching Solenoid: Designed to hold a position even after the current is switched off, providing a form of mechanical locking.

Advantages:

• Simple Design: Solenoids have a simple, efficient design with few moving parts.

• Quick Response: They can actuate quickly in response to an electrical signal.

• Reliability: Solenoids are durable and reliable in applications requiring frequent actuation.

In essence, a solenoid coil is a fundamental electrical component used in many automation, control, and mechanical systems to convert electrical energy into precise mechanical movement.

Product Details:

Being the leading names in industry, we are involved in offering a wide assortment of Metal Clamp. We offer these in market in different specifications and are well known for their rust free nature. These are used for various applications and are highly praised by our clients for their resistant to changing temperature. Moreover, these can be availed at market leading prices.
 
Features:
 

Efficient working

Low maintenance

High quality

Product Details:

We are counted amongst the top companies involved in offering a wide range of Quick Release Coupling. These are available in market in various specifications and can also be customized as per the requirements provided by the clients. These are widely used for the separation of hydraulic and pneumatic lines and have high strength.
 
Features:
 

Sturdy construction

Accurate dimensions

Longer service life

Product Details:

Backed by rich industry experience and market understanding, we are involved in offering a wide array of products to our valued patrons.

Additional Information:

• Production Capacity: 10 BAR
• Delivery Time: Readfy stock
• Packaging Details: 10 nos

Product Details:

Pneumatic fittings facilitate the transfer of air or gases between different parts of the system, ensuring proper flow and control. They are available in various types, materials, and sizes to accommodate different connection requirements and applications

Additional Information:

• Delivery Time: Ready stock

Product Details:

Backed by rich industry experience and market understanding, we are involved in offering a wide array of products to our valued patrons.

Types of Janatics Solenoid Valves

1. 2/2-Way Solenoid Valve

   • Controls the flow of air, water, or oil in an ON/OFF manner.

   • Used in simple open-close applications.

2. 3/2-Way Solenoid Valve

   • Has three ports and two positions.

   • Used for controlling actuators, cylinders, and pilot valves.

3. 5/2-Way & 5/3-Way Solenoid Valve

   • Used in double-acting pneumatic cylinders.

   • Provides directional control for industrial automation systems.

4. Direct Acting vs. Pilot Operated

   • Direct Acting: Works without external pressure, suitable for low-pressure applications.

   • Pilot Operated: Uses system pressure to assist valve operation, ideal for high-flow systems.

Applications of Janatics Solenoid Valves

🏭 Industrial Automation – Pneumatic cylinders, machine control, robotics.
🚗 Automotive Industry – Air brake systems, fuel control, exhaust management.
🏥 Medical Equipment – Oxygen therapy devices, dental chairs, ventilators.
🌿 Water Treatment Plants – Flow regulation in filtration and purification systems.
⚡ HVAC Systems – Controlling air pressure and flow in heating/cooling units.

Additional Information:

• Minimum Order Quantity: 1 Piece

Product Details:

A pneumatic air cylinder is a mechanical device that converts compressed air energy into linear motion. It is widely used in automation, industrial machinery, and robotics to perform pushing, pulling, lifting, or pressing operations.

Key Features of Pneumatic Air Cylinders

✅ Smooth Linear Motion – Converts air pressure into straight-line movement.
✅ Fast & Reliable Operation – Quick response with minimal maintenance.
✅ Durable Construction – Made from aluminum, stainless steel, or composite materials.
✅ Various Stroke Lengths & Bore Sizes – Suitable for different force and speed requirements.
✅ Adjustable Speed & Force – Controlled by regulating air pressure and flow.
✅ Compact & Lightweight – Ideal for space-saving applications.

Types of Pneumatic Air Cylinders

1. Single-Acting Cylinder

   • Uses air pressure to move the piston in one direction.

   • A spring or external force returns it to its original position.

2. Double-Acting Cylinder

   • Air pressure is used in both directions for controlled movement.

   • Provides greater efficiency and versatility.

3. Telescopic Cylinder

   • Multi-stage design for extended stroke lengths.

   • Used in applications requiring long reach in a compact space.

4. Rodless Cylinder

   • No external piston rod; movement occurs along a guided track.

   • Ideal for limited-space applications.

5. Rotary Cylinder

   • Converts pneumatic energy into rotary motion instead of linear motion.

   • Used in indexing and turning applications.

6. Compact Cylinder

   • Short-stroke design for limited space applications.

   • Common in automation and small machinery.

Applications of Pneumatic Air Cylinders

🏭 Industrial Automation – Used in robotic arms, conveyors, and packaging machines.
🚗 Automotive Industry – Applied in car assembly lines and painting systems.
🔩 Manufacturing & Machining – Controls movement in cutting, pressing, and stamping machines.
📦 Material Handling – Lifts and positions objects in warehouses and factories.
🏠 HVAC Systems – Regulates dampers and airflow in ventilation systems.

Additional Information:

• Delivery Time: ready stock

A wafer butterfly valve is a compact and lightweight valve used to regulate or stop fluid flow in pipelines. It features a disc mounted on a rotating shaft, which turns to control the flow. The wafer-style design allows it to fit between two flanges, making it a cost-effective and space-saving solution for various applications.

Key Features of Wafer Butterfly Valve

✅ Compact & Lightweight – Saves space compared to other valve types.
✅ Quick Operation – 90° rotation for fast opening and closing.
✅ Leak-Proof Sealing – Rubber or elastomer lining ensures a tight shut-off.
✅ Durable Construction – Made from cast iron, stainless steel, or PVC.
✅ Low Pressure Drop – Minimal flow resistance when fully open.
✅ Easy Installation – Fits between flanges without additional gaskets.

Working Principle

• The valve consists of a disc that rotates inside the pipe.

• In the open position, the disc is parallel to the flow, allowing fluid to pass.

• In the closed position, the disc rotates perpendicular to the flow, blocking it completely.

• The valve is operated manually (lever/gear) or automatically (electric/pneumatic actuator).

Applications of Wafer Butterfly Valves

🏭 Industrial Pipelines – Controls flow in chemical, oil, and gas industries.
🚰 Water Treatment Plants – Used in potable water and wastewater systems.
🔥 HVAC Systems – Regulates air and water flow in heating and cooling applications.
🏢 Fire Protection Systems – Installed in sprinkler and emergency water supply lines.
🚢 Marine & Shipbuilding – Used for seawater and fuel handling systems.

A solenoid coil is a vital component in various electrical systems and devices. It is a type of electromagnet made by winding a wire (usually copper) around a core, typically cylindrical in shape. When an electric current passes through the coil, it generates a magnetic field that can be used for a variety of mechanical or electronic applications.

Key Features:

1. Electromagnetic Action: The primary function of a solenoid coil is to convert electrical energy into mechanical motion using its magnetic field. When current flows through the coil, it creates a magnetic field that can either pull or push an attached metal plunger or armature.

2. Core Material: The core is usually made of ferromagnetic material like iron, which enhances the magnetic field created by the coil. Some solenoids may have air cores (non-magnetic) but those are less common.

3. Wire Construction: The coil is typically made from insulated copper wire wound tightly around the core. The number of turns in the coil and the amount of current passing through the coil determine the strength of the generated magnetic field.

4. Control: Solenoid coils are commonly controlled by an electrical switch or relay, which activates the current flow, causing the magnetic field to form. This can drive mechanical processes such as opening valves, actuating switches, or moving levers.

5. Direct Current (DC) vs. Alternating Current (AC): Solenoid coils can be designed for either DC or AC operation. In DC solenoids, the magnetic field remains constant as long as the current flows, while in AC solenoids, the magnetic field alternates with the frequency of the AC supply.

Applications:

1. Electromagnetic Valves: Solenoid coils are commonly used in controlling valves, especially in pneumatic or hydraulic systems, where the magnetic field controls the movement of a valve to start or stop the flow of fluids or gases.

2. Automotive Systems: In vehicles, solenoids are used in applications such as starter motors, automatic transmissions, and locking systems.

3. Relays and Switches: Solenoids can operate relays, turning circuits on or off, and are frequently found in electrical control panels and machines.

4. Actuators: In robotics and industrial equipment, solenoids act as actuators to provide linear motion.

5. Security Systems: Solenoids are used in security locks, where an electric current triggers the release or engagement of a locking mechanism.

Types of Solenoids:

• Push-Type Solenoid: When activated, it pushes the plunger outward.

• Pull-Type Solenoid: When activated, it pulls the plunger into the coil.

• Latching Solenoid: Designed to hold a position even after the current is switched off, providing a form of mechanical locking.

Advantages:

• Simple Design: Solenoids have a simple, efficient design with few moving parts.

• Quick Response: They can actuate quickly in response to an electrical signal.

• Reliability: Solenoids are durable and reliable in applications requiring frequent actuation.

In essence, a solenoid coil is a fundamental electrical component used in many automation, control, and mechanical systems to convert electrical energy into precise mechanical movement.

A double-acting air cylinder is a type of pneumatic actuator that uses compressed air to move a piston in both directions—extending and retracting. This makes it more efficient and powerful than single-acting cylinders, which rely on a spring or external force for one direction of movement.

Key Features:

1. Two Air Ports: A double-acting air cylinder has two ports—one for extending the piston and another for retracting it. Compressed air is alternately supplied to each port to achieve bidirectional motion.

2. Piston and Rod Assembly: The cylinder consists of a piston connected to a rod inside a cylindrical housing. The piston moves in response to air pressure changes, translating pneumatic force into mechanical motion.

3. Continuous Force Output: Since air pressure is applied in both directions, the cylinder provides consistent force in both extension and retraction, making it suitable for applications that require repeated motion.

4. Variety of Mounting Options: These cylinders come in different mounting styles, including flange, clevis, and trunnion mounts, to fit various industrial setups.

5. Adjustable Stroke Length: The stroke length (the distance the piston moves) can be customized depending on the application. Some cylinders feature adjustable cushions or dampers to control speed and impact at the stroke’s end.

How It Works:

1. Extension Stroke: Compressed air enters the port at one end of the cylinder, pushing the piston forward and extending the rod.

2. Retraction Stroke: Compressed air enters the opposite port, pushing the piston back and retracting the rod.

3. Exhausting Air: As air is supplied to one side, the air on the opposite side is exhausted through a valve to allow free movement.

Applications:

• Industrial Automation: Used in robotic arms, conveyor systems, and assembly lines to push, pull, lift, or hold objects.

• Material Handling: Found in packaging machines and lifting mechanisms.

• Clamping and Pressing: Used in machinery that requires controlled force for holding or pressing.

• Automotive Industry: Helps in processes like stamping, positioning, and pressing components.

• Textile and Printing Machines: Ensures precise movement for fabric handling and paper feeding.

Advantages:

• Greater Control: Provides controlled movement in both directions.

• Higher Efficiency: Eliminates the need for external forces (like springs) for retraction.

• Stronger Performance: Offers higher force output than single-acting cylinders.

• Longer Lifespan: Balanced wear on both sides reduces uneven stress and prolongs durability.

A double-acting air cylinder is an essential component in industrial automation and manufacturing, providing reliable, repeatable motion powered by compressed air.

 4o

A solenoid coil is a vital component in various electrical systems and devices. It is a type of electromagnet made by winding a wire (usually copper) around a core, typically cylindrical in shape. When an electric current passes through the coil, it generates a magnetic field that can be used for a variety of mechanical or electronic applications.

Key Features:

1. Electromagnetic Action: The primary function of a solenoid coil is to convert electrical energy into mechanical motion using its magnetic field. When current flows through the coil, it creates a magnetic field that can either pull or push an attached metal plunger or armature.

2. Core Material: The core is usually made of ferromagnetic material like iron, which enhances the magnetic field created by the coil. Some solenoids may have air cores (non-magnetic) but those are less common.

3. Wire Construction: The coil is typically made from insulated copper wire wound tightly around the core. The number of turns in the coil and the amount of current passing through the coil determine the strength of the generated magnetic field.

4. Control: Solenoid coils are commonly controlled by an electrical switch or relay, which activates the current flow, causing the magnetic field to form. This can drive mechanical processes such as opening valves, actuating switches, or moving levers.

5. Direct Current (DC) vs. Alternating Current (AC): Solenoid coils can be designed for either DC or AC operation. In DC solenoids, the magnetic field remains constant as long as the current flows, while in AC solenoids, the magnetic field alternates with the frequency of the AC supply.

Applications:

1. Electromagnetic Valves: Solenoid coils are commonly used in controlling valves, especially in pneumatic or hydraulic systems, where the magnetic field controls the movement of a valve to start or stop the flow of fluids or gases.

2. Automotive Systems: In vehicles, solenoids are used in applications such as starter motors, automatic transmissions, and locking systems.

3. Relays and Switches: Solenoids can operate relays, turning circuits on or off, and are frequently found in electrical control panels and machines.

4. Actuators: In robotics and industrial equipment, solenoids act as actuators to provide linear motion.

5. Security Systems: Solenoids are used in security locks, where an electric current triggers the release or engagement of a locking mechanism.

Types of Solenoids:

• Push-Type Solenoid: When activated, it pushes the plunger outward.

• Pull-Type Solenoid: When activated, it pulls the plunger into the coil.

• Latching Solenoid: Designed to hold a position even after the current is switched off, providing a form of mechanical locking.

Advantages:

• Simple Design: Solenoids have a simple, efficient design with few moving parts.

• Quick Response: They can actuate quickly in response to an electrical signal.

• Reliability: Solenoids are durable and reliable in applications requiring frequent actuation.

In essence, a solenoid coil is a fundamental electrical component used in many automation, control, and mechanical systems to convert electrical energy into precise mechanical movement.