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The 2 best ways to install TRIPLE OUTLET
In this video I teach how to install triple socket.
The two ways I teach are the cheapest and most functional, in addition to not taking up space in the 4 x 2 box and it's very easy to do, anyone can do it. Save, learn and practice.
See how to install a TRIPLE socket correctly according to the NBR 5410 Standard.
Many professionals make the installation the easiest way, which is passing the wire interconnecting all the terminals. However, this type of connection overloads the terminals, causing overheating and possible accidents.
Among several “controversial” subjects that exist in the electricity sector, there is one that is the connection of double sockets, which is better, using terminals and making “jumpers” the bridges with cables, or is it better to use connectors to branch? Is there or is there not a correct way to wire dual outlets? Were you curious?
The different ways to install a double socket is usually a controversial subject. Therefore, we decided to show you what happens in this type of call, in 2 different ways:
1 - Splicing of derivation, with connector and with insulating tape….e
2 - Derivation by “jumpers”, that is, making a bridge with cables and terminals…
“And how are you going to test this André?” It will be in three steps:
1 - We will do both assemblies in the best possible way separately.
2 - We will connect the double socket to our MDC to simulate current circulation.
3 - We will use our thermal camera to measure the heating of the terminals in each type of connection.
First let's see what happens when we derive the cables coming out of a module and connecting to another through the jumpers. Through the thermal vision, we can see that the highest temperature point, 37 degrees, is concentrated in the power cable of the sockets and we can also see that the terminals of the module that receives the power heat up more than the rest of the components, or that is, when making jumpers, all the current from the two outlets pass through the first post, so that it can then be divided there.
Now let's see what happens when we branch the cables through the conventional branch splices insulated in the same insulating tape. Notice now that the hot spot, that is, the part that is red in the thermal camera is concentrated in the seams, and not in the terminals of the sockets. See that in the seams we have practically the same 37 degrees of the previous test, reaching up to 39 degrees. And the terminals remain without overload, after all in this type of connection the current is divided before the connection to the sockets, preserving the terminals more.
And finally, just out of curiosity, let's see this same derivation, only made with a connector instead of the insulating tape. Notice that just like in the derivation made with insulating tape, the highest temperature point, practically 37 degrees varying little, is concentrated in the connector where the splice is made, with that the terminals are again not overloaded.
Well, you can see it then with the help of our thermal camera, which connects double sockets making derivations in the cables instead of jumpers, tends to increase the durability of the connection. In this way, there is no overload on the terminals that receive power.
But it is good to remember that there is no rule for making this type of connection.
You can choose to do it by cable by cable or by jumper, the norm does not standardize this and as I said at the beginning of the video, the intention of this video is to show what happens when we make these two most common types of connections. Particularly, I use, do and recommend that it be done by deriving the pigtail individually for each module. Now, it's up to you to decide which one you're going to adopt.
And then my dear, after watching this video, did your opinion on how to connect 2 or more socket modules change? Write yes André, I changed my opinion thanks to this Engehall video or no André, my opinion remains the same.
Another thing my dear, click on this arrow above to share this video with your friends. So they too can see what really happens when we make these kinds of calls. Who knows, maybe he won't change his mind either?
The 2 best ways to install TRIPLE OUTLET
In this video I teach how to install triple socket.
The two ways I teach are the cheapest and most functional, in addition to not taking up space in the 4 x 2 box and it's very easy to do, anyone can do it. Save, learn and practice.
See how to install a TRIPLE socket correctly according to the NBR 5410 Standard.
Many professionals make the installation the easiest way, which is passing the wire interconnecting all the terminals. However, this type of connection overloads the terminals, causing overheating and possible accidents.
Among several “controversial” subjects that exist in the electricity sector, there is one that is the connection of double sockets, which is better, using terminals and making “jumpers” the bridges with cables, or is it better to use connectors to branch? Is there or is there not a correct way to wire dual outlets? Were you curious?
The different ways to install a double socket is usually a controversial subject. Therefore, we decided to show you what happens in this type of call, in 2 different ways:
1 - Splicing of derivation, with connector and with insulating tape….e
2 - Derivation by “jumpers”, that is, making a bridge with cables and terminals…
“And how are you going to test this André?” It will be in three steps:
1 - We will do both assemblies in the best possible way separately.
2 - We will connect the double socket to our MDC to simulate current circulation.
3 - We will use our thermal camera to measure the heating of the terminals in each type of connection.
First let's see what happens when we derive the cables coming out of a module and connecting to another through the jumpers. Through the thermal vision, we can see that the highest temperature point, 37 degrees, is concentrated in the power cable of the sockets and we can also see that the terminals of the module that receives the power heat up more than the rest of the components, or that is, when making jumpers, all the current from the two outlets pass through the first post, so that it can then be divided there.
Now let's see what happens when we branch the cables through the conventional branch splices insulated in the same insulating tape. Notice now that the hot spot, that is, the part that is red in the thermal camera is concentrated in the seams, and not in the terminals of the sockets. See that in the seams we have practically the same 37 degrees of the previous test, reaching up to 39 degrees. And the terminals remain without overload, after all in this type of connection the current is divided before the connection to the sockets, preserving the terminals more.
And finally, just out of curiosity, let's see this same derivation, only made with a connector instead of the insulating tape. Notice that just like in the derivation made with insulating tape, the highest temperature point, practically 37 degrees varying little, is concentrated in the connector where the splice is made, with that the terminals are again not overloaded.
Well, you can see it then with the help of our thermal camera, which connects double sockets making derivations in the cables instead of jumpers, tends to increase the durability of the connection. In this way, there is no overload on the terminals that receive power.
But it is good to remember that there is no rule for making this type of connection.
You can choose to do it by cable by cable or by jumper, the norm does not standardize this and as I said at the beginning of the video, the intention of this video is to show what happens when we make these two most common types of connections. Particularly, I use, do and recommend that it be done by deriving the pigtail individually for each module. Now, it's up to you to decide which one you're going to adopt.
And then my dear, after watching this video, did your opinion on how to connect 2 or more socket modules change? Write yes André, I changed my opinion thanks to this Engehall video or no André, my opinion remains the same.
Another thing my dear, click on this arrow above to share this video with your friends. So they too can see what really happens when we make these kinds of calls. Who knows, maybe he won't change his mind either?
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