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Distribute air or fluid to multiple locations from a single supply source with these manifolds. They are also known as headers.
These manifolds have two separate sections inside, so you can run two different substances through them without worrying about them intermixing. Also known as headers.
Designed for ultra-clean environments, these manifolds are cleaned, dried, and vacuum sealed in plastic to prevent dirt and moisture from contaminating the inside. Use them to distribute air or fluid to multiple locations from a single supply source. Also known as headers.
Unlike other manifolds, which have an inlet on either end, these have one inlet on the opposite side from the outlets. This design allows air or fluid to follow a straight path, improving flow through your system. Also known as headers.
Mount these manifolds on the end of a hose line to distribute air, water, or hydraulic fluid to three locations from a single supply source.
When you’re short on vertical space, these manifolds are a good fit—they have outlets on the side instead of on top, so they have a lower profile than rectangular manifolds. Use them to distribute air or fluid to five locations from a single supply source.
A great solution when space is at a premium, these manifolds are less than an inch in height, yet allow you to supply up to 12 lines from one distribution point.
With outlets on the side instead of on top, these manifolds have a lower profile than rectangular manifolds and fit well in cramped spaces. Use them to distribute air or fluid to three locations from a single supply source.
Use these manifolds with molding equipment to circulate hot and cold water through your line. They have a red side for hot water and a blue side for cold water.
Supply air to two different rotating objects from a stationary supply.
These junction blocks have threaded holes that allow air or fluid to flow at a 90° angle through the block. Use them to organize and separate multiple lines in your system.
Use these junction blocks to organize and separate multiple lines in your system. They have threaded holes that allow air or fluid to flow straight through the block.
These fittings won’t absorb moisture, so they’re good for water and high-humidity air applications.
Made of brass, these fittings have good corrosion resistance.
Designed for use in welding applications, these fittings are flame retardant.
Made of nickel-plated brass, these fittings have better corrosion resistance than unplated brass fittings.
Use at pressures up to 250 psi.
Solder these fittings to tubing for a permanent, leak-tight connection. They are also known as sweat fittings.
Use these fittings at pressures up to 9,700 psi. Also known as instrumentation fittings, they are made to tight tolerances for use in high-precision applications. They are compatible with Swagelok®, Let-Lok, and Parker A-Lok fittings.
The smooth finish inside these stainless steel quick-clamp fittings makes it easy to remove product residue.
The industry standard for quick-disconnect couplings, these are also known as industrial interchange couplings. Compatible with Industrial-shape plugs and sockets.
Add faucets to oil dispensing stations for increased utility.
Serve multiple lubrication points from a single location.
Customize these dispensers to serve up to 24 lubrication points from a single location.
Connect these dispensing stations to your bulk oil container to easily fill hand-held dispensers.
A sealed design prevents contamination in dirty and dusty environments.
For use in clean environments, these manifolds have multiple air vents that keep pressure balanced.
Deliver an equal amount of oil to multiple lubrication points at once.
Dispense a fixed amount of oil by pumping the handle.
Use with manual and electric pumps to dispense different amounts of oil from multiple lubrication points.
Ready to connect to your air system, these complete systems include a timer and a reservoir.
Set the cycle interval as well as the dispensing duration. This pump has a maximum flow of 0.1 oz. per second.
Connect these modular pumps to a reservoir and a solenoid valve to automate the flow of oil.
With a maximum flow of 0.005 oz. per cycle, these pumps deliver small, precise amounts of oil. Turn the dial to set the cycle interval.
Choose from pumps that dispense with a set interval. Turn the dial to adjust the flow from 0.1 oz. to 0.2 oz. per cycle.
Build a custom 1/2" system to deliver coolant, cutting oil, water, or air in any direction.
Use with Loc-Line hose to assemble and disassemble components.
Use with Snap-Loc hose to assemble and disassemble components.
Build a custom 3/4" system to deliver coolant, cutting oil, water, or air in any direction.
Kit contains lengths of hose, nozzles, connectors, and assembly pliers.
Build a custom 1/4" system to deliver coolant, cutting oil, water, or air in any direction.
Kits contain lengths of hose, nozzles, valves, and caps.
Powered by your air system, these dispensers release a precise amount of grease in timed intervals, so your machine will never have too much or too little.
Connect multiple devices from a single outlet.
Turn a single outlet into five outlets with ground fault protection to minimize the risk of electric shock.
Filters between the outlets on these strips protect computers and other sensitive equipment from external signals that interfere with the equipment’s performance.
Also known as hospital-grade outlet strips, these outlets have an extra-tight fit to prevent plugs from detaching. They are marked with a green dot.
A filter through the middle isolates two pairs of outlets, so high voltage equipment plugged into one pair won’t affect the other pair.
Keep personnel safe from electric shock with ground fault protection.
With a rubber housing, these outlet strips withstand drops and other impact.
Power computers, lab equipment, and office machines that have IEC connections.
A combination of an outlet box, cord, and duct, these outlet strips minimize tripping hazards and protect the cord from damage.
Save energy by automatically turning off unused outlets—the master outlet controls the follower outlets and shuts off power to those outlets when a device plugged into the master is turned off.
The power switch to these outlet strips is on an extension cord, so you can control power even when the strips are in hard to reach places, such as under a desk.
Clamp an outlet strip to your work surface to quickly plug in and unplug devices.
Separately control each device plugged into these strips—each outlet has its own power switch.
Often used in offices and workstations, these outlet strips power multiple devices from a single wall outlet.
Mount these outlet strips to a desktop or workbench with the mounting hardware, or set them on a surface.
No need for mounting hardware—these outlet strips have magnets on the back to stick to steel walls, cabinets, and other magnetic surfaces.
Create a permanent outlet system without opening walls. These outlet strips mount to a wall with clips and hardwire to an existing electrical system.
Mount these strips into standard 19" wide electronics racks and enclosures.
Bring power to workstations that are not near a wall—these poles mount from the ceiling.
These curved outlet strips clamp onto a pole or table leg.
Install these extra-long strips onto the frame of an electrical cabinet.
Power devices above and below your workbench while keeping your outlet strip out of the way.
Use foreign devices in American outlets and American devices in foreign outlets.
Avoid the clutter of multiple extension cords and overcrowded outlet strips—these extension cords have outlet boxes spread evenly along their length.
Insulated to resist water, oil, and solvents, these cords withstand dirty and greasy environments.
Thick insulation protects the internal wires of these cords, so they can be used in high-traffic areas and over rough surfaces.
In addition to an outlet on the end, these cords have multiple inline outlets.
Put overhead outlets in arm’s reach.
A locking lever on the socket keeps multiple devices connected to these extension cords.
Designed for indoor use, these cords are often used to power appliances.
Power multiple devices with one extension cord.
Play audio and 4K video from a single source on multiple displays. These HDMI splitters are handy for classrooms, conference rooms, factory floors, and trade shows.
Increase the reach of USB devices.
Send video and audio from a single DisplayPort output to multiple displays. These splitters are often used to show the same image on multiple screens or to stretch a computer desktop across two monitors.
Connect additional ports to your computer.
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.
Secure and organize USB connections on DIN rail.
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.
Distribute up to 150 amps from the center stud terminal to the eight screw terminals around it.
Stack multiple ring or spade terminals on the stud terminal; the current flows through the stacked terminals.
Blocks mount in a cutout and have terminals on both sides.
Customize these blocks’ wiring as your application changes. They come with jumpers that connect terminals on the same block, either across or next to one another.
Protect connections against corrosion.These bars are tin-plated copper and have stainless steel terminals.
Build your own distribution system by adding terminal blocks to these bars.
Secure wires to your circuit board without worrying about them vibrating loose or getting pulled out. Also known as Eurostyle terminal blocks, these blocks use screw-clamp terminals to clamp your wire in place.
Save time when wiring connections in a junction box; these blocks come already installed in an enclosure.
Best for equipment requiring regular servicing, these blocks disconnect without having to remove any wiring thanks to their plug-and-socket design. Their recessed screws prevent shorts by reducing the risk you’ll connect two circuits with a screwdriver or other tool.
Recessed screw terminals prevent you from accidentally connecting two circuits with a screwdriver or other tool, causing a short.
Made of ceramic, these blocks withstand high-temperature applications that reach up to 1110° F such as ovens and furnaces. They have recessed screws to reduce the chance you’ll cause a short by accidentally connecting two circuits with a screwdriver or other tool.
Solder the pins on these blocks directly to your circuit board and connect the screw terminals to stripped wires, ring terminals, or spade terminals.
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.
A single row of terminals fits in narrow spaces.
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.
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.
Mount blocks to a panel or the surface of a machine. Also known as barrier terminal strips.
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.
NFPA valve-mounting blocks have standardized valve mounting patterns to keep hydraulic lines compact and organized.
These kits include the hose, gauge, and fittings needed to charge an accumulator.
Use a single air supply to meet the pressure requirements of multiple applications—connect one of these manifolds to your air line, and then set a different output pressure for each station.
Run up to four air-powered tools from a single air supply.
Connect two or more of these manifold regulators to meet multiple pressure requirements from a single air supply—set a different output pressure with each regulator.
Use a single air supply to distribute air to up to four locations. In addition to the outlet for inline connection, these manifolds have three 1/4 NPT female outlets for connection to air-powered tools and equipment.
Choose these blocks if you need to lubricate multiple points but need to control how each is greased. Unlike grease fitting manifolds, these blocks have multiple fittings, so you control what each point receives and when.
Save time by sending grease from one fitting to multiple points. These manifolds come with everything you need to set up a remote lubrication system.
Connect up to five rams to a single pump.
Connect up to four rams and a gauge to a pump. Ram connections have flow-adjustment valves to adjust ram speed, or shut it off to temporarily hold a load.
Build a spray system by adding your own nozzles to these nozzle-ready spray manifolds.
Distribute compressed air, hydraulic fluid, or water from a single supply to multiple locations.
Charge multiple devices at once.
Monitor refrigerant pressure on an LCD when servicing air conditioning systems.
Monitor refrigerant pressure with analog gauges when servicing air conditioning systems.