Common Plumbing Processes PDF

Summary

This document provides a comprehensive overview of common plumbing preparation techniques. It covers various methods like notching, drilling, and chasing, and explains how to measure and mark for installations. Other topics include the use of different materials and tools for pipework, insulation, and fire stopping.

Full Transcript

PowerPoint 5
Common plumbing
preparation
techniques
 LESSON INTENT
Learners will work towards understanding how to carry
out the following:

Common Plumbing Preparation Techniques
Notching
Drilling
Chasing
Duct work
Sleeving
 Measuring and marking out

An important stage of any installation
Being able to read drawings correctly
Scales in drawings
Getting levels
Working to the clips
Measure twice, cut once
 FIRST FIX AND SECOND
FIX
“First fix” is a phrase used to describe the initial
installation of pipework – both supply and waste
pipework – to and from a location, without appliances
being connected. These have been installed prior to
the surface or floor being finished or laid.
 FIRST FIX AND SECOND FIX
(CONTINUED)
“Second fix” is a phrase used to describe the fixing
of appliances ,like a bath, basin or radiator, following
the first fix pipework and the finishing of any surfaces
within the property.
 Buried pipework or cables

When marking out, and before drilling, check for any
buried pipes or cables.

Look around for switches and sockets; it is likely that any
pipes are buried in the wall or under the floorboards.

Using a cable or pipe detector is useful:

Commercial Domestic
 Flooring material

Floorboards: commonly known as tongue and groove, as this
denotes the way they fit together. They are laid on joists and
either nailed or screwed into position.

If pipework needs to be installed underneath, they will need to
be lifted and replaced on the joists for support. If the cut of the
floorboard is off the joist, a noggin or cleat may need to be
located.

Floorboards can be covered
by carpet or laminate;
can also be a polished
finish themselves.
 Cross-cut, making sure the cut
is over the joist where possible

Cut over joist
where possible

Cut through the tongue
using a floorboard saw or
circular saw
Replace floorboard
When removing floorboards always using a cleat or noggin
take care of any nails or screws left in
the joists. Do not leave any waste in
ceiling cavity. Secure firmly afterwards
 Flooring material

Chipboard: more commonly used as a flooring
on new build properties, these come in 8’ x 4’
sheets, which are tongue and groove.

Removing chipboard is more difficult – the best way
is to remove a section using a circular saw. Locate
the joists first and mark the section out before
cutting. A pad saw may have to be used to
complete the corners.
Notching Joists for pipe work must be
done correctly as not to cause a
dangerous structure
Building regulations

Approved document A sets out requirements for notching and drilling,
and must be followed at all times.

Notching: maximum depth of a notch is ⅛ of the joist
depth.
 Example for notching

A joist is 200mm deep (D) and has a span of 2.5m (S).

Maximum depth of notch that can be made in this joist:

200 x 1/8 or 200
8
= 25mm

Minimum distance from the wall the notch can be made:
0.07 x 2500 or 7 x 2500
100
= 175mm
After notching pipework into a joist, it is advisable to
use a nail guard before putting the floorboards back
down or putting stud walls up. This is a metal plate
that prevents a nail or screw damaging the pipework.
 Drilling
The maximum drilled hole is ¼ of the joist depth,
but must be on the centre line.
 Example of drilling

A joist is 200mm deep (D) and has a span of 2.5m (S).

What size is the largest permissible drilled hole?
200 x ¼ or 200
4
= 50mm

Where in the joist can the hole be drilled?
On the center line of the joist only.

How close can the drilled hole be placed?
Hole should be no closer than 3 x their diameter.
 Chasing

These seams are chiselled into walls to conceal pipework
or cables. To cut a chase you will need to mark out
carefully, then the chase can be removed by a lump
hammer and chisel, or by an angle grinder then chisel.
 When drilling, a lot of dust and flying particles will be
produced. This means that both the operative and the
customer’s property will need to be protected.

The SDS drill can also be set as a chisel. This means
that the hammer action works but there is no rotation.
 DUST SHEETS
There are various types of protective coverings used in
the industry.
Tarpaulins – heavy-duty waterproof protective cover
for protecting exterior areas from splashes and debris.

Cotton dust sheets – heavy cotton twill for interior
preparation and painting, protecting static items such
as floors, sofas, etc.

Polythene sheets – lightweight and used for
protecting
floors and static furniture during wet processes,
as well as items such as plants,
garden ornaments, etc.
Cutting Chases

It may be necessary to cut a chase in a wall to conceal
pipework or cables. This could involve using a hammer
and chisel, and SDS hammer action drill or a wall chasing
machine.
Caution should always be exercised; a lot of debris and
dust can be created.
Remove all carpet and furniture from the area; close
doors and open windows.
Wear PPE: goggles, ear protection, overalls and dust
mask.
Inspect tools before use.
Be wary of installing hot and cold water pipes in a
wall where they are going to be concealed. It is
best practice to surface mount pipework to allow
access.

Chases cut into walls must not be cut deeper than:

Horizontal chases – 1/6th of the wall thickness
Vertical chases – 1/3rd of the wall thickness
 After a hole has been drilled or a chase has been
created, you may be required to ‘make good’. This
basically means re-filling any damage or area
afterwards, so that it can have a finished surface again.
The filler used will vary according to the surface
damaged:

interior
exterior
wood fillers
stoppers
decorator’s caulk
expanding foam.
 Ductwork
This comes in many forms. It covers and contains pipework
and cables for engineers to access: these can be underfloor
areas made of wooden panels or, in commercial situations,
purpose-built areas. Size-wise, they range from small up to
walk-in areas.
All pipework in walls and ducts should be
accessible. The Water Regulations state:

Accessible
Duct should be removable
Floors able to be lifted

No fitting should be:
Located in cavity walls
Embedded in wall or solid floor
Installed under a suspended floor
 PIPEWORK PROTECTION
Pipework insulation will protect pipework from cold
penetrating the installation and prevent heat from
leaving it.
The best type of insulation is the closed-cell type
made to BS5422 standard and installed according to
BS5970 standard.

Insulation must be resistant to water,
mechanical damage and vermin.
Recommended materials are:

rigid phenolic foam

PVC foam

expanded polystyrene

expanded rubber nitrile.
All of these types of insulation material have a specific
thermal count, which can be obtained from the
manufacturers.

BSEN 806 outlines the minimum thickness of insulation
required when installing copper pipe.

The basic rule of thumb with insulation is: the larger the
diameter of the pipe, the thinner the insulation can be.
This is because larger pipes contain a greater amount
of water compared to their surface area.
 A commonly used insulation material is lagging. This is
often used on pipework which is located under
floorboards between the ground floor and first floor.

The type of insulation does not have any measured
thermal protection and therefore is not recommended
for

vulnerable areas.
 Sleeving

All pipework going through a masonry fabric must be
sleeved to allow for movement. The sleeve is generally
made of the same tube, but a size larger. This also
protects the pipework from corrosion.

Pipework laid in floors and across joists
should be covered with lagging to allow
for expansion and contraction without any
creaking noise. In some cases a pipe
guard may be used to protect
against nails and screws.
 Fire stopping to pipework
Where pipework (including soil and vent pipes) passes
between floors, the holes around the pipe must be fire
stopped. This will prevent the fire, smoke and heat
spreading, if a fire broke out in the property.
This can be done in two ways:
Intumescent collar
Intumescent collars are placed around the pipe. The
contents of the collar expand when heated and stop the
fire spreading.

Intumescent sealant
Intumescent sealant acts in the same way
as a collar.
 CHECK YOUR KNOWLEDGE
WITH THESE QUESTIONS
1. What is first fix?
2. What is the most common type of flooring material
in domestic homes
3. maximum depth of a notch is?
4. Horizontal chases are _____ of the wall thickness
5. Vertical chases_______ of the wall thickness
6. Why is it important to protect pipework from damage?
7. Why do we sleeve pipework?
8. what helps stops fire traveling through pipework?
 TRAFFIC LIGHT IT: WHERE IS YOUR
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