Underfloor trunking pictures

The underfloor trunking system has been around for a long time. The first time I saw it was inside an application guide published by a public telecommunication company.

The technical manual was already very old and I was in the first year of real professional work after my graduation. That was 23 years ago.

Picture 1 – Underfloor service box installation in progress



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Why do we need an underfloor trunking system?

An underfloor trunking system is an alternative way of providing the dedicated routes to run electrical cables, telephone cables or any other wiring cables you can think of.

I said wiring cables. An 11KV cable is not a wiring cable. A 25 sq.mm electrical feeder cable to supply an 11 KW fire pump panel is not a wiring cable.

(Note: 25 sq.mm means 25 millimeter square. It is a measure of the net cross-sectional area of the electrical conductors of an electric cable).

The 1.5 sq.mm cables that are used for wiring the office lights are categorized wiring cables.

The 2.5 sq.mm or 4 sq.mm cables used in socket outlet wiring are also categorized as wiring cables.

That is on the electric power cables.

On the telephone side, the telephone wiring cables going to each telephone outlet in an office area are also called wiring cables.

But an incoming 100-pair telephone cable from the public telephone company into a multi-storey office building is not a wiring cable.

Likewise, a Cat 5 computer network cables going to the office computers from the server rooms can be called wiring cables.

However, a multi-core fiber optic cables connecting two computer buildings cannot be called wiring cables.

So those cables categorized as wiring cables can be run inside the underfloor trunking system.

In fact, the underfloor trunking has been invented specifically for this purpose.

Why the special treatment is given to the underfloor trunking?

Why not use the normal conduit and trunking? (See the conduit and trunking pictures here: Conduit installation pictures; Electric trunking pictures.)

The underfloor trunking system was developed long before I started my career in electrical engineering.

However, I think I can guess why there was a need for this system.

The need arose because of the popularity of open office layout system in the design of buildings.

There is no doubt that many residential buildings also use underfloor trunking systems. However, these buildings do not really have to use this system. The normal conduit and trunking system would serve the purpose perfectly well.

However, in an open office system, it is difficult to bring the wiring cables to the working tables in the middle of an office space (i.e. away from the walls) without running the cables inside the floor.

With many tables away from the walls, then many trunking and conduit need to be cast into the concrete floor.

Furthermore, different types of cables (eg. electrical and computer network cables) need to be run in different trunking and conduits totally segregated from each other.

In the end there were many trunking and conduit running all over the place inside the concrete floor slab of an office building with the open office concept of design.

So gradually the underfloor trunking concept developed, naturally.

Picture 2 – The underfloor trunking installation in progress



This picture shows a stretch of underfloor trunking installation in progress.

Notice that the floor reinforced concrete slab has been cast. The underfloor trunking was laid onto the already completed structural slab of the floor.

After the underfloor trunking components that need to be cast in have been laid out and fixed, a layer of concrete (called screeding) is poured to the floor to a thickness of about 50mm.

This additional two inch of concrete would cover the trunking parts, but the junction box would be exposed for access.

The thickness of the concrete screeding should be enough to give strength (and therefore would not crack) at the thinnest areas, which are the areas above the trunking parts.

Observe the notes that I gave in the picture.

During installation, there is always some time lapse between the installation pf the underfloor trunking parts and the pouring of the screeding concrete.

During this time, the trunking, junction boxes and service boxes need to be firmly held in place temporarily.

Steel bands and lean concrete are used for this purpose.

The temporary cover for the junction box opening is installed to prevent the fluid concrete from flowing into it during the concreting work. This temporary cover is made of soft metals and is usually supplied together with the junction box or the service box unit.

Notice also that there are three lengths of trunking installed together. So it is a 3-compartment trunking system. It could have been a 4-compartment or 2-compartment.

Here the trunking material is made of high-impact PVC trunking. However, an underfloor trunking can also be made of metals.

What is the difference between a service box and a junction box?

I should have explained this earlier so that beginners do not get confused.

A service box is a box along the underfloor trunking where the user can connect to the power outlet, telephone socket and computer socket.

It is the point of “service”.

Picture 3 below shows how a service box looks like.

Picture 3 – An underfloor service box



While a junction box is provided to facilitate the drawing in of cables during installation and maintenance.

It is also provided where a trunking need to make a bend and where it branches off.

That is why it is called a “junction” box.

Picture 4 – A completed underfloor junction box



Observe that the completed junction box cover is firmly fixed with 4 mounting screws at the corners.

On the other hand, the cover of the service box is designed so it can easily be open frequently.

That is because the service box is designed for user access. This is where users plug in their appliances just like the wall sockets.

Picture 5 – Vertical access box



The underfloor trunking resides at the floor. However, the cabling inside the trunking must come from the distribution panels somewhere.

If the distribution panel is located at the wall, then there must be a connection between the trunking inside the concrete floor and those at the walls.

That is the purpose of the vertical access box in Picture 5 above.

Sometimes, the electrical distribution panel is located inside the electrical riser which is some distance away. Usually the most convenient method of running the main trunking by hanger brackets above the ceiling.

Then at convenient locations, a set of droppers are installed to connect to the underfloor trunking. This is shown in Picture 6 below.

Picture 6 – Vertical access connection to trunking above ceiling



Picture 7 below shows another view of a junction box and underfloor trunking installation is progress, before the floor concrete screeding was poured in.

Picture 7 – Junction box and underfloor trunking picture



Construction works are never free from errors. Picture 8 below shows that a finished floor had to be hacked in order to extend the wiring from a junction box to the dry wall.

Picture 8 – Wall socket wired from an underfloor junction box



This was actually a last minute decision that was made to add another general purpose electrical outlet to the wall.

Theoretically it is best to wire general purpose electrical sockets on walls from separate circuits (better still, from a separate section of the busbar inside the electrical DB) than those inside the underfloor trunking, which supplies the work computers and other high priority equipment.

This is because the general purpose sockets are those used for such things as electric kettle, vacuum cleaners and other similar appliances.

Defects and faults in these appliances can cause trippings of the earth leakage circuit breaker (ELCB) at the electrical distribution panel, which can cause annoyances and other more genuine problems. (See pictures of ELCB at this post, 1-phase ELCB connection pictures.)

Update (March 15, 2014):
I have in my collections a lot pictures of materials that have been delivered to construction sites for installation of electrical systems.

For a long time this matter has been tickling my thoughts when I search through the pictures to attach to my posts.

Such a waste. These pictures has been helping me a lot of my work. Surely it must be of value to many people out there who still have no chance yet to get involved in actual electrical installation works.

Of course I can just upload all these pictures into the internet. But I don't think Google's search engine is smart enough to understand pictures and choose the right one for web users who are looking for them. There are probably trillions and trillions of pictures on the internet.

I cannot really make much of an article from pictures of electrical materials still in the plastic packings. It is too difficult. It seems too trivial, and I am not a much of a writer in the first place.

Today it just clicked in my head that I do not really need to write articles for these type of pictures. I can just attach the related one at the end of a related post. That's it!

I only need to write a few words to accompany each picture. The original post already says enough.

So with this revelation I am going to expand all of my posts to include a new section called "MORE RELATED PICTURES".

There I will gradually attach related pictures with a short description for each picture. I somehow a story clicks in my brain, then you will see a short story about the materials in the picture also.

If not, then just the description of the materials.

xxx MORE RELATED PICTURES xxx

Picture 09 - uPVC duct materials for an underfloor trunking system installation

This is the first picture that I will attach to this post today.

If you observe carefully, the trunking material are still on back of the delivery truck.

These are 3 inch by 1 inch uPVC ducts if I am not mistaken. The picture was from one of my office building projects.

If you enlarge the picture, you may notice that there are water droplets on the materials.

Well, this is another aspects of electrical construction which is proper handling of materials and equipment during loading and unloading, delivery and storage.

In this case here, the delivery truck people did not seem to care enough to put the rain cover over the material.

This happen to be not an issue here because the uPVC material have not problem with rainwater such as this.

However, it was still not a proper way to delivery the materials to a client who pay good money for them.

One thing that I wish to say on this picture is that we should always witness the delivery, and unloading of materials to a project site.

There are many types of materials and equipment that can get damaged or deteriorate in quality considerable when not handles properly during delivery, loading / unloading, and storage.

If the damages are noticeable during inspection, then you only need to reject the materials or equipment. Then they can be returned back to the manufacturer or his supplier.

What if you did not notice anything and proceed with the certification for payment and later found out that the materials have been damaged?

They may be a difficult dispute over who caused the damages. I have been through this many times.

A manufacturer might say the materials have been damaged during the storage at the client's store.

Anyway, that is all I wish to say on this. I will upload other pictures the the underfloor trunking installation soon.

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Electric conduit installation pictures

You will find a number of installation pictures of electrical conduit in this post. I will not be writing much today, so this post will only present pictures.

Picture 1 – Surface run conduit



=================  RELATED ARTICLES: Underfloor trunking below structural rebars | MATV trunking riser |  Lighting flexible conduits |  Conduit to trunking connections |  Cable ladder pictures | Electrical conduits and trunking pictures | Electrical panel under water pipes  | Electrical busduct installation pictures   | Electric trunking installation pictures  | Electric Panel Installation Pictures  | FR electric cable installation pictures  | Multi storey building electric closets  | Underfloor trunking pictures  | Site-fabricated electrical trunking  | Electrical Services Color Codes  | Light switch installation pictures | Electrical installation pictures

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What you see here are surface run conduits inside a fan room of an office building.

For some reason that I do not know, personally I like surface run conduits, trunking, etc.

I also like to see things exposed like the exposed structural elements of a covered stadium.

Being able to see the things myself make me feel comfortable.

In the case of these conduits, having them exposed on the wall like that leave no room for any contractor to play with their tricks.

There is no doubt that concealed conduit works help keep the electrical system away from interference and possible accidental damage.

This is important where the space is a public space like a public corridor of a building.

Residential buildings are also not a good place to use surface run conduits like shown in the picture, even though surface run wiring (without conduit) used to be a standard practice in house wiring.

Why do we need these conduits?

The conduits are used to protect the wiring cables that carry the electrical current.

Electricity is dangerous. Even though the electric conductors that carry the current is insulated by some PVC covering materials or whatever, the covering material is not strong enough to protect the cable from damage.

When the covering is damaged, the electrical conductor inside may be exposed to touch or it can also unintentionally come into contact with things that can carry electric current.

This scenario would present a high risk of electric shocks.

Therefore, we protect the electric cables so that they do not present the dangers of electric shocks to people (or animals).

A second reason to protect the cables is to make sure the electrical system stays reliable.

When the cable PVC covering is damaged, the conducting metal can come into contact with other metals that are in contact with earth.

When this happens, the leakage protection of the electrical system will automatically trip the circuit breaker controlling the circuit whose cable has been damaged.

Damaged electric wiring cables can cause this tripping at time we need the electricity most.

Therefore, electric conduits are used to provide this reliability.

Picture 2 – Conduit connection to light switch concealed box



This picture shows how the electrical conduits are connected to the metal boxes.

These boxes are installed to house the rear of wall-mounted light switches. A 13A switched socket outlet mounted flushed to a wall would also have this concealed metal box.

The purpose of the box is to provide a protected space for the wiring cables from the conduit. This space gives enough room for the cables to maneuvers before terminating at the light switch or the socket outlet.

The space also provides the room for the rear portion of a switch unit to sit in.

With this method, we can change a switch unit when it is damaged without disturbing the wiring system too much.

Note the four screw holes already provided by the metal box.

Now, when the electric conduit is cut to suit height of the box, there may be sharp edges at the conduit end. These edges may damage the PVC insulation covering of our wiring cables.

A careful workmanship can easily trim the sharp edges, but controlling workmanship is not easy.

That is why a copper bushing is provided as you can see in the picture.

The bushing also helps to give good contact between the metal box and the metal conduit.

Did I forget to say that these conduits are made of metal?

They are actually galvanized steel conduit.

You can use the cheaper PVC conduit for the same purpose if you like. In that case, you may still use a suitable PVC bushing but not for the purpose of providing e good electrical contact.

The conduit in picture 2 is a concealed conduit for a dry wall partition. So the metal box is a concealed box.

Picture 2Picture 2a below show connection of sufrace conduit to a supface mounted switched socket outlet. The same method of conduit to metal box connection is required here except that the metal box is exposed so it it is a different design.

Picture 2a - Conduit connection to surface mounted 13A switched socket outlet



Picture 3 – Conduit saddle picture



When a conduit is installed exposed like those in Picture 1, it may sag if the distance between two supports exceed certain distance.

An electrical conduit must be installed rigid, permanent and without sag. It should also be able last with integrity for the design life of the building.

What if the building can last 100 years? Should the conduit installation be able to last 100 years also?

Well, if it can, then that is good. However, a wiring system will not be good enough 50 years from the time the building is constructed.

Technology change, how people use electricity change, the personal taste and preference of the people occupying a building space also change. All this will result in the need to renovate the building, and most likely the wiring system also.

The conduit system would not need to last 100 years.

However, it should be able to last 30 years. This is my opinion.

Therefore, once installed, the electric conduit should be rigid, permanent and strong.

In order to satisfy that, electrical installation specifications usually specify the maximum distance between conduit saddles. Some say 900 mm, some say 1100 mm.

The size of the conduit, the materials and the installation environment also are among the major factor in determining the maximum distance between the support saddles that is allowed.

The distance for the orange electrical conduit (the red painted conduit carried fire protection system wiring, not electrical cables) in Picture 1 is around 1.1 meters.

I am guessing only here.

I did not really check the distance. It looked reasonable when I was supervising the job. However, the specifications asked for 900 mm maximum for a one inch diameter conduit, if I remember correctly.

Do not quote me on this. If you are supervising a job, check your own specifications.

If you are doing your office wiring on your own, just keep the saddle spacing to 1000 mm.

Picture 4 – Draw in box



Some people call this a junction box; draw in box, or outlet box.

Whichever name you prefer, this component allows the electrician to draw in cable into the conduit a short length at a time.

If one tries to pull wiring cable into a conduit for too much distance in a single shot, he may find it very difficult to get the job done.

In real installations, the routes available for conduit installation are not straight all the time. There are bends and turns. These bend and turns plus the cable friction with the conduit interior make it hard to pull the wiring cables.

Forcing it too much may damage the cables permanently.

By practice, a maximum of 9 meter distance between draw in boxes on straight run conduit has proved to be practical enough for most wiring works.

If there are bends, then the box should be installed after every two bends.

Okay folks. That is all the time I can spare today.

See you in the next post.

P/S : You can see more pictures at this post, Electrical installation pictures.


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Pictures of electrical wiring

I have uploaded many pictures of electrical wiring to this blog. Now it has started to become difficult to find the pictures related to specific titles such as the wiring, etc. It will become worse as I send more post and pictures.

Picture 1 – Electrical DB wiring



Because of that, I will periodically send a post that will become an “anchor” for a specific title.

This title on wiring is one such example. Instead of being a normal post, it will generally function as the index page for posts and pictures of electrical wiring that I have sent to this blog.

So when you are looking for pictures of electrical wiring works, you can either look at the post list (i.e. BLOG ARCHIVE) at the right column of this blog page, or you can come to this post directly and scroll down to see if there is anything that interest you.

Of course, there is another way, which is by clicking the relevant “label” titles at the bottom of each page.

However, using the “label” will open all posts that have been tagged with that label in a single page. Readers with slow connections may not like the waiting when the pages are heavily loaded with graphics such is this blog.

Moreover, if multiple “labels” are opened simultaneously, readers with small RAMs may cause their computers to crawl, or even hang.

The best way is to come to an anchor post like this, which provides a short summary to posts related to a specific broad title. The graphic loading is also much less heavy because only one or two pics are added for each related post.

I have already send anchor post for other titles:

Temporary electrical installation pictures
Temporary electrical earthing pictures
Temporary lighting installation pictures
Electrical installation pictures


I will add more if there are more that three or four posts related to a specific title.

Now let’s get back to the DB wiring pictures.

Picture 1 show a house electrical DB with the cover removed.

Taken from this slightly lower angle, you can see the LIVE busbar of the DB.

Picture 2 below shows the wiring from the higher position. Here the outgoing wiring of the MCB’s (miniature circuit breakers) can be seen more clearly.

Picture 2 – Distribution Board Picture



I will not talk in detail about this wiring here. You can read a more detail description of the wiring at another post, 1-Phase ELCB Connection Pictures.

There are more pictures of this electrical DB there also.

Diagram 3 – Lighting layout and wiring details



Prior to installation of the electrical wiring conduit and trunking, the position of all fittings including the light switches, the socket outlets and lighting points must be determined.

Diagram 3 above shows examples where the light switches should be located.

I have sent a post with some pictures on the installation of lighting switches for office buildings here, Light switch installation pictures.

If you are looking for house electrical pictures, I have a post here, Home wiring pictures.

This article is not very good. It was actually a draft that I did at the time I started this blog. Suddenly something else demanded my urgent attention. That was why I did not have now post sent to this blog for a few months.

I posted the draft article anyway. I will come back to it some time soon with the final version and some pictures that may be useful for the readers.

Picture 4 – Internal wiring of an office DB showing the installation and wiring work in progress



Picture 4 shows the internal wiring of a DB for lighting and small power.

This DB was installed at a multi-storey office building. The internal wiring that has been done as shown was actually done at the factory.

That is why you cannot see any outgoing wiring from the MCB’s at the upper part of the panel.

You can see more pictures of this DB and other switchboards at this post, Switchboard earthing pictures.

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