Connection types can be overwhelming. There are several different types of connections and in some cases they can be very similar to one another. In this blog, we are going to explore the different connection types you may come across and highlight the difference between each one.
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So before you pull your hair out due to frustration and confusion, dive in with us. We will make it simple for you, saving you and your hair.
Connection types can be found with multiple combinations of connections sometimes making it difficult to tell which end is which. We have included pictures for a visual aide to ensure you can tell the difference between the various connection types.
We are covering the below connection types:
- Threaded
- Barbed / Insert
- Mini Barb / Poly Barb
- Combination Nipples / Hose Menders
- Slip / Socket / Spigot
- Push-Fit
- Twist and Lock
- Plastic Quick Connect
- Flare
- Compression
- Garden Hose
- Solder / Copper
- Crimp / Cold Expansion
Threaded
Threads are a key component of most fittings. You have probably ran into threads a couple of times but they may not have been referred to as threading. National Pipe Thread (NPT) refers to the measuring of tapered threads on threaded pipes and fittings.
Threads are broken into two categories: Male and Female. Male threads are found on the outside of the pipe or fitting and female threads are found on the inside. More commonly male and female threads are referred to as MPT and FPT.
Now, you may have seen another term, Iron Pipe Size (IPS) represented as Male Iron Pipe (MIP) and Female Iron Pipe (FIP). Fun fact, it means the same thing as MPT and FPT. Once you know they are virtually the same, it makes it much easier when looking for the connections you need.
Barbed / Insert
If thread is a key component to a fitting then so is barbed. As seen in the pictures, it is easy to differentiate between barbed and threads. Don't know the term barbed, maybe you've heard of Insert? Barbed and Insert are the same. Some people call them barbed fittings and some people call them Insert. Both are correct. Barbs are inserted into tubing and because of their design, they stay in place better.
The barbed connection on fittings does not always look the same between every part you will see. Barbs can be large or small or more spaced out depending on the fitting and what it is made to be used for.
Mini Barb / Poly-Barb
Mini Barb, sometimes referred to as Poly-barb, connect to polyethylene tubing and have excellent vibration resistance. They come in smaller sizes than regular barbed fittings.
Combination Nipples / Hose Menders
Combination nipples are used to transition from hose to pipe or valves. Hose menders are used to connect two lengths of hose together or repair a section of hose that has been damaged. Combination nipples and hose menders are good to be used with thermoplastic and natural rubber straight end hoses. The barbs on these fittings are specially designed for those applications.
Slip / Socket / Spigot
Slip /Socket connections can be found in Sch 40 and Sch 80 PVC fittings. Slip is considered the "female" connection of PVC fittings and can also be known as the hub. Slip /Socket allows for the spigot end to be inserted.
Spigot is to be inserted into a slip /socket connection typically using glue to secure the connection. Spigot is considered the "male" connection of PVC fittings. The end of the spigot has the same outside diameter as pipe.
As you can see in the picture, slip / socket is the top connection and spigot is the bottom connection.
Push-Fit
Push-fit connections can be found on fittings and ball valves. They are mainly used to connect Copper Tube Size (CTS) CPVC or PEX. CTS is a much smaller tube size than NPT which means NPT pipe can&#;t be used in a Push-fit connection. The connection is made by simply pushing the tube over the tube support into the connection. A special disconnect tool can be used to disconnect the tubing and fitting allowing it to be reused.
Twist and Lock
Twist and lock connections are a combination of push-fit and compression technology. They have the ability to lock into place by twisting the locking nut clockwise allowing them to tightly secure to tubing. This is where the name Twist and Lock comes from.
Plastic Quick Connect
Plastic Quick Connect fittings are very similar to the Push-fit fittings. Similar, but not the same. Tubing gets pushed into the fittings socket until the end of the tube hits the tube stop and then the connection is tight and secure.
Flare
Flare connections are commonly found on, you guessed it, Flare fittings. The thread on flare fittings does not reach to the end of the fitting as seen in the picture. Flare is a type of compression fitting and they are used most commonly with metal tubing. You will most likely only run into female flare or male flare when referring to connectors.
Compression
Compression connections are commonly found on Compression fittings. Are you seeing a pattern here? As seen in the picture, they are made up of three separate pieces. As you tighten the nut, there is pressure put on the sleeve securing the connection. They are used in plumbing systems to join tubing together like copper or polyethylene. Compression could sometimes be introduced as CP.
Garden Hose
Garden Hose Thread (GHT) comes male (MGHT) and female (FGHT). It's important to note that GHT is different from NPT. Garden hose connections are not compatible with NPT even though both are threaded. Where a water hose fitting is required, this would be the connection to look for. You can see in the picture that the top connection is MPT and the bottom connection is MGHT.
Solder / Copper (C)
In the past this was a very common connection, but is not as popular anymore. Due to the risks that go with the soldering process. Copper pipe is inserted into the fitting and solder fills the gap between the fitting and the pipe.
Crimp / Cold Expansion
Crimp and cold expansion connections are good for use with pex tubing. The pipe is crimped onto the fitting using a specific tool. This is done by adding a crimp ring onto the tubing. The ring interacts with the ribs on the fitting to secure the connection.
Similar to the crimp connection, cold expansion uses a specific "ring" to tighten the connection, only it is generally referred to as the sleeve. The connection is made by placing the sleeve on the pex tubing, expanding the sleeve, then inserting the fitting. Giving the sleeve and tubing time to shrink back to it's original size creates a very secure connection.
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How To Measure the Circumference of an Adapter or Fire Hose Fitting
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&#; IDM - Inside Diameter Male
&#; ODM - Outside Diameter Male
&#; TPI - Threads Per Inch
How To Connect Using NH / NST, NPSH, NPT and GHT Threads
NH / NST Threads
The most common thread type in use by United States Fire Departments today is National Hose (NH). It is also called National Standard Thread (NST) or National Hose Thread (NHT). It is often referred to as &#;fire hose thread&#;. NH, NST and NHT are different abbreviations for the exact same thread.
The female and male side of a fire hose coupling with NH threads will only connect to fittings, nozzles or hoses with the same threads. For example, a fire hose with NH threaded couplings will require a nozzle with NH threads.
National Hose (NH) is considered a &#;straight&#; thread which means the threads are consistent from tip to collar and the seal is made with the gasket inside the female coupling mating against the square face of the male coupling. The threads do not make the seal, they merely hold the two fittings tightly together. The size of an NH thread refers to the inside diameter of the waterway on a male coupling. For example 2.5" NH male fitting has a 2.5" waterway.
Some fire departments in the United States have special threaded fire hoses and fire hydrants.
NPSH Threads
Fire hoses and adapters with National Pipe Straight Hose Thread (NPSH or NPS) have the same threads per inch (TPI) as National Pipe Thread (NPT) but NPSH fittings do not taper like NPT fittings do. Therefore a female NPSH hose coupling can thread onto a male NPT fitting and seal via the female NPSH gasket. For example, a female fire hose coupling with NPSH threads will thread onto a male PVC pipe, metal pipe or couplings with either NPSH or NPT threads. However a male NPSH hose coupling or adapter will NOT be able to thread into a female NPT due to the taper in the female NPT fitting. Fittings that are connected together NPT to NPT require a sealing agent like thread compound or teflon tape because the threads are making the seal for a semi-permanent connection. When a female NPSH is threaded onto a male NPT fitting, it is an easily removable connection as the seal is made by the gasket in the female NPSH fitting.
The male side with NPSH threads will only connect to fittings, nozzles or hoses with NPSH threads. It will NOT thread into a NPT female. For example, a male fire hose coupling with NPSH threads will require a nozzle with NPSH threads.
NPT Threads
National Pipe Tapered (NPT) is common in plumbing and some industrial uses. Sometimes referred to as &#;pipe thread&#; because pvc pipe and schedule 40 pipe are typically threaded in NPT. As its name implies, this is a tapered thread so that the outside diameter of the male (ODM) gets smaller towards the end of the fitting and the inside diameter of the female narrows with depth. As the two fittings are threaded together the opposite tapers force thread friction and makes the seal without the use of a gasket. The taper is 1/16" or ." per 1" of thread length.
Fire hoses with NPT threads are not practical for a number of reasons. One being the female coupling on a hose needs to swivel to make a connection without twisting the hose. NPT fittings cannot swivel which makes NPSH a great alternative.
NPTF threads are used when the application is such that pipe sealing compounds may fail due to higher heat or pressure than normal NPT threads can withstand. The threads are designed to seal mechanically by slightly, but sufficiently, crushing the threads when tightened with a wrench. This allows for joining the pipe and fitting without sealants.
The NPT and NPTF threads can be interchanged if sealants such as PTFE tape or suitable pipe joint compounds are used. Female NPT threads can be designated as FPT, FNPT, NPT(F) or FIP and male NPT threads can be designated as MPT, MNPT, NPT(M) or MIP.
Garden Hose Threads (GHT)
Garden Hose Threads (GHT), just like NST and NPSH, seals with a gasket in the female coupling. A typical garden hose may be 5/8" or 3/4" inside diameter but the fitting on the ends will be GHT. GHT is not compatible with NPT. For example, 3/4" GHT is not the same as 3/4" NPT.
BSP Threads
British Standard Pipe (BSP) can be most commonly found in Canada, UK, Europe, Asia and Australia. It is a finer thread than National Pipe Thread (NPT), and will not seal properly if used in conjunction with it. Two types of threads are used: British Standard Pipe Taper (BSPT) and British Standard Pipe Parallel (BSPP). British Standard Pipe Taper uses a tapered thread system, and sealant is provided to help secure the male and female connection. British Standard Pipe Parallel uses a parallel thread system, and a rubber gasket is often included to secure the male and female connection.
Storz
Storz couplings are sometimes referred to as a sexless coupling, because rather than having a male and a female end connected by screw threads, either identical end can be joined to any other end of the same diameter. Storz hoses are widely employed in firefighting supply line applications in the United States.
To couple a Storz connection, the two opposing couplings are pressed together such that the hooks of each one are inserted into the slots in the flange of the other. Then they are rotated in opposite directions until they are tight, or latches engage. This creates a water-tight connection between the internal packing gaskets.
To uncouple them, the latches are released and the connectors are turned in the opposite directions from coupling, and then separated when the hooks and slots are aligned. Special storz wrenches are designed for assisting with use of Storz connectors. The NFPA requires locking mechanism on all storz coupling and fitting larger than three inches.
1" (25mm) Storz Adapter
- Inside Distance Between Lugs - 1 7/32" (31mm)
- Number of Lugs - 2
1.5" (38mm) Storz Adapter
- Inside Distance Between Lugs - 2 1/16" (52mm)
- Number of Lugs - 2
2" (50mm) Storz Adapter
- Inside Distance Between Lugs - 2 5/8" (66mm)
- Number of Lugs - 2
2.5" (65mm) Storz Adapter
- Inside Distance Between Lugs - 3 3/16" (81mm)
- Number of Lugs - 2
3" (75mm) Storz Adapter
- Inside Distance Between Lugs - 3 1/2" (89mm)
- Number of Lugs - 2
4" (100mm) Storz Adapter
- Inside Distance Between Lugs - 4 1/2" (115mm)
- Number of Lugs - 2
5" (125mm) Storz Adapter
- Inside Distance Between Lugs - 5 13/16" (148mm)
- Number of Lugs - 2
6" (150mm) Storz Adapter
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- Inside Distance Between Lugs - 6.29" (160mm)
- Number of Lugs - 3