We will reply to your message within an hour.
These fittings are strong enough to handle extreme pressures, yet small enough to fit into cramped spaces.
Use these fittings for low-pressure applications in noncorrosive environments.
The galvanized finish on these fittings provides fair corrosion resistance. Fittings are for use in low-pressure applications.
Bolt two flanges of the same size together with a gasket to create an access point in a pipe line.
Use these corrosion-resistant fittings in a low-pressure pipe line.
Use these fittings in extreme-pressure conditions up to 15,000 psi.
Bolt two same-size flanges together with a gasket to create an access point within a pipe line.
Extreme pressures are no problem for these heavy-duty brass fittings.
Also known as instrumentation fittings, these have the most precise threads and the tightest tolerances of all the brass pipe fittings we offer.
In addition to being lightweight, these aluminum fittings offer good corrosion resistance. Use them in low-pressure flow applications.
Butt-weld fittings allow for a smooth, flush connection that provides maximum flow.
A single sleeve (ferrule) bites into tubing as you tighten the nut, creating a strong seal.
Thicker walls make these fittings—sometimes called flareless or bite fittings—withstand about twice as much pressure as standard compression fittings, so they’re good for hydraulic power applications.
Solder these fittings to tubing for a permanent, leak-tight connection. They are also known as sweat fittings.
Attach these general purpose receptacles to DIN rail to bring power closer to where you need it.
Prevent damage to electronic equipment caused by spikes in current. Mount these receptacles to DIN rail.
Keep personnel safe from electric shock by adding ground fault protection to all outlets on the same circuit. These receptacles mount to DIN rail.
Pair these connectors with standard IEC power cords to bring power into or out of your electronic devices.
Send power to your device using the inlet, then route power to another device through the outlet—all with standard IEC power cords.
Distribute power from one electronic device to several others with these connectors. By housing multiple outlets in a single unit, they save space and time spent on installation.
These connectors meet international standards IEC 309-1 and 309-2. They prevent an electrical arc when separating mated connectors, so you can safely connect and disconnect with the power on.
Meet international standards IEC 309-1 and 309-2.
Screw these micro M16 connectors together to securely connect equipment.
Rated IP69K, these M16 connectors protect against dust, debris, and hot, high-pressure jets of water at high volumes.
Power hydraulic and air-powered valves, motors, pumps, and pressure switches.
Add ix Industrial connections to printed circuit boards (PCBs).
Secure and organize USB connections on DIN rail.
Use these cords with computers, lab equipment, and office machines that have IEC connections.
All cords have a country-specific plug on one end and an IEC socket on the other end.
Create a vibration-resistant connection—the socket on these cords securely locks onto any male receptacle and will not detach until manually unlocked.
Create a vibration-resistant connection—the socket on these cords locks onto any male receptacle and will not detach until manually unlocked.
Also known as hospital-grade cords, these cords have an extra-tight connection to prevent them from detaching. The plug is marked with a green dot.
Power multiple devices from one power source.
The shielding blocks signal interference from nearby equipment and devices.
Designed for indoor applications, these cords are often used to power appliances.
All cords have a country-specific plug to power equipment from international outlets.
To run DC-powered lab and medical equipment from your outlet, add a power cord with the plug style and length you need. These adapters meet strict IEC, UL, or ANSI/AAMI standards for use with medical devices.
Plug these cords into computers, lab equipment, and office machines that have IEC connections.
Use these cords with hydraulic and air-powered valves, motors, pumps, and pressure switches. They have a solenoid valve socket on one end and an M12 threaded plug on the other.
These cords contain a single pair of twisted wires, making them lighter and more flexible than other Ethernet cords. They’re good for transportation, robotics, and automation applications.
Securely connect equipment in data or signal applications. These cords have A- or B-coded plugs to meet the needs of your device.
Mount blocks to a panel or the surface of a machine. Also known as barrier terminal strips.
The spring-clamp terminals on these blocks make wire installation faster than other types of terminals. These wire connections also stand up to vibration and temperature changes.
Use with DIN 3 rail. Add as many circuits as you need with these terminal blocks and accessories.
No need to tighten or loosen any screws—these terminals lock your wiring in place with spring clamps.
Visually confirm your circuits are working as expected. These terminal blocks have integrated LEDs that indicate if your circuits are powered or not, helping you troubleshoot issues.
One of the connections on these terminal blocks is a socket instead of a traditional terminal, making it easy to swap out equipment or change your wiring even in small enclosures. Instead of having to attach wire inside the tight space of your enclosure, you can wire a connector wherever it’s easiest and then plug it into the socket.
Quickly troubleshoot or change wiring without any tools. These terminal blocks have a lever clamp that you flip up to insert wiring and flip down to lock it in place.
Rated IP20, these blocks have recessed terminals to prevent accidental contact with live circuits.
Use with DIN 2 rail. Add as many circuits as you need with these terminal blocks and accessories.
Build your own distribution system by adding terminal blocks to these bars.
With the help of distribution blocks, you can take a high-current wire from your power source and connect it to one or more electrical devices.
Seal out contaminants and prevent leaks—a rubber O-ring under the head prevents leaks and seals out contaminants.
These metric screws have a silicone O-ring that prevents leaks and seals out contaminants. Made from 18-8 stainless steel, they have good chemical resistance and may be mildly magnetic.
To prevent leaks and seal out contaminants, these metric screws have an O-ring under the head.
Weld these sights to single-wall tanks.
Monitor food, brewery, chemical, pharmaceutical, and biotech processing lines with these sights that attach to quick-clamp fittings for fast installation and easy removal for cleaning.
Thread these fittings into motors, bearings, engine blocks, and other machinery to create a lubrication point.
The nipple doesn't stick out, so these fittings fit in tight spaces and won't be damaged if something knocks into them.
Often used on earth movers, mining equipment, and other heavy machinery, these fittings have a T-shaped top that holds the dispensing tip in place so it won't pop off when adding grease.
Drive these fittings into unthreaded holes.
Ensure a secure fit in unthreaded holes—these fittings cut threads as they’re installed. Use these fittings in tight spaces where protruding fittings won't work.
Since they don’t protrude, these fittings avoid damage from impact and fit in tight spaces. Use a hammer and grease fitting installation tool to drive them into unthreaded holes.
Use the digital display to set these valves to open automatically at precise intervals.