|Special Public Works Programmes - SPWP - Anti-Erosion Ditches - Training Element and Technical Guide for SPWP Workers, Booklet No. 1 (ILO - UNDP, 84 p.)|
|4. Worksite organisation|
Worksite organisation implies a good management of the work force and the selection of suitable tools.
Erosion control works undertaken within the scope of SPWPs are of direct benefit to the community. The works must be carried out correctly and overseen by skilled supervisors who will be able to give the benefit of their knowledge and experience to the groups of farmers or villages concerned in the works.
An anti-erosion construction site comprises:
- a site foreman;
- gang foremen;
- unskilled workers.
(1 gang foreman is assigned to every 20 to 30 workers.)
The site foreman is responsible for the siting of the ditches. In addition, he supervises the entire worksite and makes sure the work is carried out properly and in compliance with safety regulations.
Before work is commenced, the site foreman and gang foremen clearly explain to the workers the different aspects of the task that lies ahead.
During the course of the work, the workers are free to ask questions and make suggestions with a view to improving the constructions.
On site, a choice of two forms of remuneration may be offered:
- daily rate;
- piecework rate.
The piecework rate applies when a worker is paid for a clearly-defined amount of work or "task". The worker is paid upon completion of the task, regardless of time taken. The piecework rate system is well-adapted to ditch construction.
1 GANG FOREMAN
Workers trained in the making of posts
Workers trained in surveying
1 GANG FOREMAN
20 to 30 workers
Transport of water
Repair of tools
1 GANG FOREMAN
20 to 30 workers
Three types of tool are required in the construction of ditches:
- those which are used in the measurement of distance and slope. These tools enable us to determine the right location for the ditch and are known as SURVEYING INSTRUMENTS;
- those needed for the digging of the trench and backfilling of excavated materials;
- those necessary to check the quality of the work.
We will deal with each of these tools in turn, giving a detailed description of its use.
(a) The SURVEYING CHAIN AND TAPE MEASURE
These two instruments are used to measure distance over the ground.
The SURVEYING CHAIN consists of a series of linked metal rods, each 20 cm long, giving the chain an overall length of 100 m. A handle at each end allows two workers to extend the chain over the ground to be measured.
The use of the TAPE MEASURE is becoming more and more widespread and is fast taking over from the surveying chain.
It consists of a reinforced graduated tape, supple enough to be wound up inside its hard protective case.
The tape is marked off in centimetres, metres or decametres.
TAPE MEASURES are available In varying lengths
- 2 metres;
- 10 metres, or 1 decametre;
- 20 metres, or 2 decametres;
- 50 metres, or 5 decametres.
(b) BENCHMARK POSTS
Benchmarks are put in place to mark the location of the ditch and its different measuring points.
These marks assist us in determining the exact location for a structure and are represented by posts which are driven into the ground at the appropriate spot.
Two types of post are used:
- wooden posts;
- iron posts.
REINFORCED BAR POST
These are 60 cm long, either rounded or square-edged (4-6 cm sides), with a pointed or sharpened end which makes it easier to drive into the ground where required.
The top of the post is painted with brightly-coloured paint so that the mark is clearly visible.
IRON POSTS are made from reinforced iron bars.
The posts are driven into the ground using a 3 kg sledgehammer and should be driven down to a depth of about 20 cm.
(c) TRACING LINE
Stretched between two posts, the purpose of the tracing line is to mark out and line up a ditch.
It is made up of:
- a 20-50 m length of 6 mm cord which must be water-resistant. Synthetic cord may be used (nylon or polypropylene);
- a wooden core around which the cord is wound.
If a tracing line is unavailable, string may be used but this has the disadvantage of being both less smooth and less water-resistant and thus less manageable.
(d) SPIRIT-LEVELLING BOARD
This is a very simple apparatus but one which is very useful for siting a ditch on flat or gently sloping land.
The slope of land is its gradient. Horizontal land is land which has no slope and thus all parts of it are on the same level.
A spirit-levelling board can be made up by the local carpenter. The basic materials required are:
- a 6 m length of plank, 20 cm wide and 35 mm thick;
- a spirit level;
- 2 wooden angle pieces, 20 × 20 cm, 35 mm thick;
- steel nails;
- wood screws.
Its use in the siting of a retaining bank following the contour line
- Mark the starting point by means of a benchmark post.
- Place one of the legs of the frame on the starting point.
- Shift the other leg of the frame along the ground until the plank is horizontal (this is checked by means of the spirit level which is fixed to the top of the plank).
- Put a post in place to mark the spot which has been found.
- Repeat the operation to find a third point, a fourth, and so on,
NOTE: Should the retaining bank need to be built with a certain gradient (G), one of the legs of the frame must be extended in height (H) accordingly, so that H/L = G (L being the length of the frame).
SPIRIT - LEVELLING BOARD
(e) FLEXIBLE TUBE WATER LEVEL
The water level enables us to measure the horizontality of a construction.
To make up a flexible tube water level, the following materials are required:
- a length of small diameter clear plastic tubing (approx. 15m);
- two flat-topped wooden staves, 1 m high;
- string or iron wire to bind the pipe to the stave;
- a tape measure;
- a pair of wire-cutting pliers.
Making up a flexible tube water level
- Make a mark on each of the staves 80 cm from the bottom (check the two against each other to make sure they are identical).
- Place the ends of the plastic pipe level with the top of the staves so that the pipe runs the full length of the staves.
- Attach the tubing to the staves using string or iron wire. Iron wire is more convenient to use as it can be easily manipulated using a pair of pliers.
- Once the level has been put together, place the staves side by side, making sure the marks are exactly opposite each other.
- Fill the tube from one end with water until the level of water reaches the marks on the staves.
- Check that there are no air bubbles in the tube.
- The apparatus is now ready for use.
FLEXIBLE TUBE WATER LEVEL
When transporting the level to the worksite, it is easier to empty the pipe of water and refill it on the spot where it is to be used. For this, a supply of water must be provided.
To avoid water being spilt from the tube when the level is being moved about during the course of the work, put a finger over the ends of the pipe. Alternatively, a cork or stopper may be used as long as one remembers to remove them before re-using the level.
Each time the level is to be used, it is essential to first make sure the water level meets the marks on the staves when the latter are placed at the same height. Add more water if it is required.
Materials needed for assembling a flexible tube water level
CLEAR PLASTIC TUBING
Use of the water level
A water level is used to:
- measure the difference in level or height between two given points;
- trace out the contour lines of a slope.
MEASURING THE DIFFERENCE IN LEVEL
Measuring the difference in level
To find the difference in level or height between points A and B:
- Place the two staves side by side with the marks exactly opposite each other, making sure the level of the water inside the tube also corresponds to the marks on the staves. If the water level is too high, tip some water out. If the level is too low, add some water.
- Place one of the staves on point A and the other on point B. At the lowest point A, the level of water in the pipe will rise above the mark. At the highest point B, the water level will fall below the mark.
- Using a tape measure, calculate the difference between the water level and the mark on one of the staves.
- The difference in level between points A and B will be equal to twice this difference.
Tracing out the contour lines of a slope
- Put the staves side by side, with the marks on them and the level of the water in the tube at the same level.
- Drive a post into the ground in place of the first stave (A).
- Move the second stave (B), leaving stave A where it is, and place it somewhere else on the slope.
- The water level on stave B is no longer opposite its stave mark.
- If stave B is raised, the water level will fall in relation to the stave mark.
- If stave B is lowered, the water level will rise above the stave mark.
By moving stave B to different locations along the ground, we will discover the place where the two marks meet.
When the water is level with the stave mark, a post is put in place of the stave and this post will thus be on the same level as the first post which marks the place of stave A.
Stave A is then moved to replace stave B and the operation is repeated to locate a third point, C.
This simple piece of equipment enables us to measure differences in level and to trace out contour lines to an accuracy of 2 cm over 100 m.
POINT B HIGHER THAN POINT A
POINT B LOWER THAN POINT A
POINT B LEVEL WITH POINT A
(a) The PICKAXE
This tool consists of a long wooden handle and a metal head. The metal head is double-ended: one end is pointed and the other is in the form of a wide cutting edge.
The pointed end is used to pierce through the hard surface of the soil and to break up stony ground.
The cutting edge is useful for slicing through roots and for shifting clods of earth.
(b) The DABA (traditional African hoe)
The daba can be used in place of a pick on soft ground.
It is also used to scrape the surface of the ground clear of vegetation.
DABA (traditional African hoe)
(c) The SHOVEL and SPADE
There are several variations of the basic shovel and spade. The most commonly used for earthworks are the round-mouthed shovel and square-mouthed spade.
This type of shovel is ideal for digging but is ineffective when it comes to scraping flat surfaces. On soft or sandy ground, a square-mouthed spade is equally useful. This latter type has a wide straight cutting edge. A tread is fitted to the top of the metal head to enable the worker to force the spade into the ground with his foot.
(d) The CROWBAR
This tool is essentially a solid metal bar which is used to penetrate and break up rocky ground.
An improvised crowbar can be forged from a length of 16 mm reinforced iron. One end is pointed to break through rock and the other flattened so that the bar can be struck with a sledgehammer.
We use the crowbar when the going becomes too difficult for the shovel or spade.
To break through rock, the following procedure is used:
- Select the weaker areas of the rock where cracks are to be found.
- Place the pointed end of the crowbar inside one of the cracks
- Force the crowbar into the crack by hitting its other end with a sledgehammer.
- Holding the-top of the crowbar, move it backwards, forwards and from side to side to separate the pieces of rock.
- Remove the loosened pieces of rock.
USING A CROWBAR - 1
USING A CROWBAR - 2
USING A CROWBAR - 3
(e) The SPLITTING WEDGE
This is simply a forged piece of metal which is used to break up already cracked rock. It has a pointed side which is wedged into a crack and a flat side which is struck with a sledgehammer.
- Wedge the pointed side into a crack in the rock.
- Strike the flattened side with a sledgehammer in order to widen the crack.
- Clear the rocks away by hand or with a pickaxe.
(f) The EARTH RAMMER
This tool is made up of a circular plate of metal or wood attached to a 1.30 m long wooden handle.
Its purpose is to pack down the earth: in the context of ditch-digging, it is used more particularly to pack down the retaining banks.
(g) The PLOUGH
This implement is used to break up and turn over the uppermost layer of soil. A farmer ploughs a field as the initial step towards cultivating the land. The plough can also be employed in the construction of anti-erosion ditches. In the latter context, its role is to break up the soil and render it easier to dig. Ploughs are drawn either by animals (oxen, buffalo, horses, camels) or by tractor. They may vary in form but the basic implement must include:
- a ploughshare which acts as a blade, cutting the turf and turning it over;
- two handles with which the operator can steer the implement;
- some type of harness or hitch.
SINGLE FURROW PLOUGH
TRADITIONAL ASIAN PLOUGH