Waterproof Butt Splice Connectors
Many industrial applications expose sensors to harsh environments that require waterproof connections. Moisture exposure can disrupt critical signals, corrode contacts, and ruin equipment.
These waterproof splice connectors are filled with silicone and seal out moisture. They also have a metal insert that safely cuts the plastic insulating jackets of two wires and then crimps them together.
Adhesive Seal Butt Connectors
If you are searching for a waterproof butt splice connector that is also easy to use then consider these adhesive seal butt terminals. These electrical wire terminals are crimped onto the end of the stripped wire and when heated a special hot melt adhesive flows inside that creates a moisture proof connection with the insulation of the wire. They are made to withstand many corrosive fluids such as saltwater, hydraulic fluid and gasoline.
Designed with a wide variety of applications in mind these butt connectors can be used to terminate a wire that is exposed, connect two or more wires together or to re-connect a disconnected wire. They are also easy to install requiring no heat or soldering equipment which makes them a cost effective solution that can be done quickly.
Providing a long lasting environmental seal these butt splice connectors come with thick copper barrels that help ensure strong crimps and a quality connection. waterproof splice connectors They are made to work with a range of wire sizes and types including welding cable, marine battery cables, UL Listed battery cable, entertainment wire, diesel locomotive cable and more. When a butt connector is correctly inserted and crimped the heat activates a special glue lining that seals the end of the butt splice protecting it from water, spray oil and chemicals. These butt splice connectors are available in a variety of colors and AWG ratings making it simple to find the right one for your wiring project.
Heat Shrink Butt Connectors
Heat shrink butt connectors provide an environmentally sealed connection that is able to handle harsh conditions. They are easy to use and provide a higher degree of reliability than other connector methods like soldering.
You start by stripping your wires to the correct length and then inserting them into the butt splice terminals. Each butt splice has an indentation in the center where the tips of your wires should butt up against, then you crimp it with the proper tool to create a solid and reliable electrical connection. This type of connection is also waterproof and is able to withstand vibrations, abrasion, chemical, salt water, and more.
Heat shrink butt connectors are a great option for those who aren’t comfortable using a soldering iron. They are simple to use, quick, and cheap. Plus they’re a lot safer since you don’t have to deal with high heat and dangerous toxins. These are a great addition to any electrical tool kit for those who frequently make repairs to wiring. They are available in a wide range of amperage ratings, insulation types, colors, and gauge sizes so you can choose the right one for your needs. You’ll want to have an assortment of these and a good crimper as well as a heat gun handy. Then you’ll be prepared to take on any wiring project or job site.
Weatherproof Butt Connectors
Waterproof butt connectors can be used in many harsh environments where they will come into contact with moisture, such as underground applications. These connections are abrasion-resistant and can withstand burial in rocky soil. They also feature a gasketed end cap that seals out dust and dirt. They’re easy to use, too – simply twist the wire into place and tighten the screw to make a waterproof connection.
These types of butt crimp connectors are simple and affordable, providing an effective alternative to more expensive methods of connecting wires, such as soldering. They’re often used for automotive waterproof ethernet connector electrical projects, marine applications, or other harsh industrial environments where moisture can cause problems. Waterproof butt connectors can be made using a wide range of wire gauges, making them ideal for many applications.
These waterproof crimp connectors are designed to safely splice wires together in electrical applications, without stripping the insulation or cutting them off. They have a termination button on each end, and they’re available in various colors that correspond to the wire gauges they can be used with. They’re compatible with both copper and silver conductors. The dual-seal design helps insulate the connection, and the heavy-wall polyolefin heat shrink protects it from moisture. The connectors are easy to use and require no tools, saving time on the job. They’re also compliant with ROHS, ISO 9001:2008, and SGS standards.
Weatherproof Splice Kit
When a wire splice is made, the connection must be protected from debris and the elements. Plastic connectors, called butt splices or splicing caps, cover and protect the splice. Other connection options include soldering and electrical tape, which require additional tools. Some types of heat shrink tubing also seal connections and have a protective layer that prevents the wires from being scratched or crushed by debris.
Wire splice kits with epoxy can create watertight and gastight connections, protecting the conductors from moisture and contaminants. These connections are perfect for applications that will be in contact with water, such as fountain power cables or aerator wires. These connections are also designed to work in direct burial or weather exposed locations.
Liquid epoxy splices use a plastic sleeve that wraps around the cable and is held in place by an adhesive. When heated, the adhesive melts to bond the sleeve to the cable and provide a watertight seal. Some splice kits have pre-stretched, flexible thermal sleeves that expand to seal the splice.
Before splicing the wires, it is important to ensure that the two wires are compatible in terms of size and type. If not, the larger wire may overload the smaller cable. It is also important to strip the cable coating before connecting the two ends together, as the cable coating is often the source of corrosion.