AU2003259633B2 - Method for Removing Surface Coatings - Google Patents

Description

S&FRef: 560501D1

AUSTRALIA

PATENTS ACT 1990 COMPLETE SPECIFICATION FOR A STANDARD PATENT Name and Address of Applicant: Actual Inventor(s): Address for Service: Invention Title: Farrow System Limited 66 North Quay Great Yarmouth Norfolk NR30 1HE United Kingdom Nigel Richard Farrow Spruson Ferguson St Martins Tower Level 31 Market Street Sydney NSW 2000 (CCN 3710000177) Method for Removing Surface Coatings The following statement is a full description of this invention, including the best method of performing it known to me/us:- 5845c le~ i METHOD FOR REMOVING SURFACE COATINGS Field of the Invention The invention relates to removing coatings from a surface and more particularly to removing paint, varnish or biological growth from the outer hull of a boat.

Backgzround to the Invention The application is a divisional application of UK patent application number GB 9928726.0.

The removal of a layer or layers from a surface by impacting an abrasive material against the layer or layers is well known. For example, grit or sand-blasting has been used for many years to clean stone buildings, painted metal surfaces such as railings and superstructures including oil rigs. The particles of grit or sand are mobilised by means of a carrier fluid, normally air or water.

The commonly used methods suffer from the drawback that damage is often caused to the material beneath those layers being removed. This is especially true where the methods are employed to remove surfaces from a relatively soft material such as wood or fibre glass. In particular, where fibre glass is being cleared, damage can be caused to the gel coat layer. The problem of damage caused is particularly acute where, for example, antique wooden objects are being cleaned or where the surface is part of a boat.

-2- German patent application DE 19522001 (MINERALIEN WERKE) discloses the use of a mixture of solids, one of the solids having a higher density than the other, in order to clean and treat sensitive or polished surfaces such as brick or marble.

Where water is used as the carrier fluid, then its consumption using conventional methods is often quite high. Where there is a ready supply of water high consumption may not be a problem but where, due to the remoteness of a source, the water needs to be transported to the object to be cleaned, minimisation of water consumption would be advantageous.

It is an object of the present invention to provide a method which alleviates the above disadvantages. It is a further object of the present invention to minimise the usage of the carrier fluid when said fluid is a liquid Summary of the Invention In accordance with the invention there is provided a method of removing a coating such as paint or varnish from a surface; the method comprising: selecting a particulate solid suitable for removing the coating from the surface, the particulate solid having a particle size from 150 to 250 pm; (ii) distributing the particulate solid in water to form a spray mixture; (iii) generating a pressurised jet ofthe spray mixture the pressure of the jet being from 3x10' to 1.5x10' Nm; 2 (iv) impacting onto a coating, the pressurised jet of spray mixture to remove the coating.

Preferably, the particle size is from 170 to 190 im.

The hardness of the particulate solid is preferably less than 8.0 on the Moh scale.

It is particularly preferable for the hardness to be 6 0 to 7.0 on the Moh scale. The preferred particulate solid is olivine.

The solid to water volumetric ratio in the jet spray is preferably approximately 2 to I volume for volume.

The jet advantageously is directed to impact the coating at an angle of approximately In use, the jet is moved preferably in a circular motion back and forth across the coating to be removed.

The pressure of the jet is advantageously from 4x10 5 to I x 0"1Nm- Brief Description of the Drawings The present invention will now be described more particularly with reference to I the accompanying drawing which:shows, by way.of example only,apparatus for removing a coating from a surface in accordance with the method of the invention. In the drawing: Figure 1 is a diagrammatical view of the apparatus.

SDescription of the Preferred Embodiments Referring initially to Figure 1, an apparatus, suitable for use in the method detailed below, comprises a blasting pot I and a compressor 2. Compressed air is passed from the compressor 2, via an inlet valve 3 to the blasting pot 1. Water is supplied to the blasting pot via an inlet pipe 6 The blasting pot I also comprises an outlet pipe 7. The outlet pipe 7 has at its distal end a nozzle 5. Flow of material to the nozzle 5 is controlled by means of outlet valve 4.

In the method according to the invention a spray mixture of olivine and water from the domestic supply, at ambient temperature, is charged to the blasting pot 1.

Compressed air at a pressure of approximately 7x10 5 Nm' 2 from the compressor 2 is then passed through the inlet valve 3 and pressurises the blasting pot I up to 2 approximately 12,10 Nm 2 When a suitable pressure has been reached in the pot 1, the pressure can be released when required by opening the outlet valve 4 which is attached to the nozzle 5. The nozzle 5 is approximately 15 cm long with an outlet diameter of approximately 1.9 cm: The-excess pressure forces the spray mixture of olivine and water out of the pot I and through the nozzle 5 at a pressure, often called the blast pressure, of approximately 6,10 5 Nm 2 When the spray mixture is ejected through nozzle 5 and directed against the surface coating as described hereinbelow, it acts to abrade the coating and remove it whilst leaving the surface beneath the coating relatively undamaged and ready to be treated or for a new coating to be applied. Where necessary, a constant water feed may be introduced via the inlet pipe 6 The nozzle 5 can either be directed by hand or remotely. When directed by hand, the nozzle is held such as to deliver the abrading spray mixture at an angle to the coated surface. The angle is usually approximately 45 0 The distance the nozzle is held from the surface will vary according to the conditions under which spraying is being carried out, the mixture being sprayed and the coating being removed. A distance of approximately 50 cm has been found to give good results for a variety of coatings.

Although a coating can be removed by simply passing the nozzle across the surface in a single sweeping action, a number of passes could be carried out, each subtending the same angle to the surface, or subtending a different angle.

In addition, a circular motion may also be imparted to the jet spray to improve coating removal. The circular motion can be imparted manually, by the action of a jet spray or by mechanical means. For example, the action of the spray leaving the nozzle is used to induce motion in the nozzle, by giving the direction of the spray a radial component relative to the longitudinal axis of the nozzle.

Alternatively, a small motor is used to move the nozzle in a circular motion.

For ease of operation, the outlet valve 4 is conveniently situated adjacent to the nozzle but can be remote from it. The nozzle can have different forms to deliver particular jet sprays where required. The width of the outlet of the nozzle should be wide enough to prevent clogging, and narrow enough to allow concentration of the force delivered-by the spray .onto a small enough area to be effective. For hand-held nozzles the outlet is typically 1 to 2 cm in diameter.

The inlet air pressure admitted through value 3 is typically 6,10 5 to 10,105 Nm 2 Although compressed air supplied by an on-site compressor will usually be most convenient, air or other gases supplied in pressurised cylinders can also be used, for example, where no power source for a compressor is available. The pressure built up inside the pot 1, prior to spraying is typically less than 20,10' Nm- and is normally less than 14j,05 Nm- 2 The blast pressure can be up to 12,10' Nm-, but can be as low as 4,10 5 Nm- 2 The pressure used will depend very much on the coating being removed, and on the nature of the surface which is coated.

During use, the initial pressure built up in the pot will drop back from its initial value, perhaps down to approximately 3.10. Nm 2 The composition of the jet spray delivered can be varied by alteration of the rate of water addition to the pot, but can also be varied.by changing the operating S pressures. The composition can thus be adjusted to suit the nature of the coating material being removed, and the surface which it coats. A typical composition will be between approximately I and 3. of particulate solid to liquid As alternatives or in addition to olivine (also known as forsterite) which depending on its composition has a Moh hardness of between 6.5 to 7 other minerals such as andalusite, spodumene, diaspore, congolite, spessartine and andesine may also be used: In addition, man-made materials in the form of a particulate solid of the requisite hardness range may also be used.

The particulate solid can have a particle size of 60 to 100 mesh. It has been found that if the particles are too large, then they can cause damage to the surface itself, rather than simply removing the coating. A mixture of particles having differing mesh sizes could also be used.

The water used can, in addition to coming from the domestic supply, also be fresh water or sea water. If sea water is used then the surface should preferably be rinsed off with domestic supply water, prior to its being re-coated. As alternatives "i to or in addition to water, certain organic or inorganic solvents may also be employed. Examples of solvents which can be employed are alkyl alcohols, such as ethanol, propanol, iso-propanol, ethylene glycol or propylene glycol. Other solvents which may be contemplated include acetone, butanone and sulpholane Especially suitable are those which may have a solublising or swelling effect on the surface coating being removed, thus rendering it more easily removable.

When necessary, suitable measures will need to be taken to protect the operator and the environment from these solvents.

In addition to liquids as described above, other fluids may be employed, either partially or fully in their place Suitable examples of fluids which may be used include air or nitrogen.

The water supplied from a domestic or external source is normally provided at a temperature of below 20C. Where necessary however it may be heated up to about Heating the water to a temperature of between 25 to 40C has been found to reduce water consumption. The heating may be accomplished by means of an -7independent heating element mounted within the blasting pot or alternatively to the water inlet supply. As an alternative, where a petrol or diesel powered generator is used to operate for example a compressor to produce compressed air, then the exhaust pipe can pass through the water, on its way to the gases being vented, and the heat from the exhaust can be utilised to raise the temperature of the water.

The apparatus used can conveniently be bolted to a trailer or other suitable transporting vehicle to enable it to be taken more easily to where it is required.

This will also allow for example, a supply of water for spraying to be taken, where it would otherwise be difficult to obtain.

It will of course be understood that the invention is not limited to the specific details described herein, which are given by way of example only, and that various modifications and alterations are possible with the scope of the appended claims.

Claims (9)

1. A method of removing a coating from a protected surface, the method comprising: selecting a particulate solid suitable for removing the coating from the surface, the particulate solid having a particle size from 150 to 250 pm; (ii) distributing the particulate solid in water to form a spray mixture: (iii) generating a pressurised jet of the spray mixture, the pressure of the jet being from 3,10' to 1.5,10" Nm 2 (iv) impacting onto a coating the pressurised jet of spray mixture to removethe coating.

2. A method according to claim 1, wherein the particulate solid has a particle size of from 170 to 190prm.

3. A method according toeither claim I or claim 2. wherein the hardness of the particulate solid is less than 8.0 on the Mob scale

4. A method according to claim 3, wherein the hardness of the particulate solid is from 6.0 to 7.0 on the Moh scale.

A method according to any preceding claim, wherein the particulate solid is olivine.

6. A method according to any preceding claim. wherein the solid to water volumetric ratio in the spray mixture is 2 1.

7. A method according to any preceding claim, wherein the mixture is directed so as to impact the coating at an angle of

8 A method according to any preceding claim, wherein the jet spray is moved, in use, in a circular motion back and forth across the coating. A 4 9

9 A method a ccording to any preceding claim, wvherein the pressure is from 4,10~ to 1,10" Nm 2 A method as claimed in Claim I for removing a coating From a protected surface, substantially as herein described wvith reference to the accompanying drawing.