AU652432C - Wood preservative applicator - Google Patents
Wood preservative applicatorInfo
- Publication number
- AU652432C AU652432C AU14210/92A AU1421092A AU652432C AU 652432 C AU652432 C AU 652432C AU 14210/92 A AU14210/92 A AU 14210/92A AU 1421092 A AU1421092 A AU 1421092A AU 652432 C AU652432 C AU 652432C
- Authority
- AU
- Australia
- Prior art keywords
- bandage
- matrix
- wood preservative
- reservoirs
- accordance
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Ceased
Links
Description
TITLE: WOOD PRESERVATIVE APPLICATOR
Technical Field
This invention relates to the application of wood
preservative chemicals and in particular to the delivery of wood
preservative chemicals in a dry form onto the surface of wood
structures.
While the invention will be described with reference to
wooden poles, it should be understood that, the invention is
applicable to all wooden structures which are in contact with soil
at ground level.
Background Art
In Australia, wooden poles make up the majority of poles
used as structural supports for power transmission and
telecommunications lines. The service life of poles is greatly
reduced by biodegradation processes at ground level caused by
fungal decay such as soft rot, white and brown rot and termite
attack by damp wood and dry wood termites. Due to the high
capital investment involved in these structural poles, and the
cost of repairing and replacing these poles, it is therefore
desirable to treat the poles in some way to combat
biodegradation in wooden poles and greatly increase their
SUBSTITUTE SHEET
service life. It has even been found that poles treated with wood
preservative chemicals prior to installation can have a longer
service life if they are inspected regularly and given further
remedial treatment during the life of the pole.
Known methods for the remedial treatment of wooden
poles have involved pouring treatment liquids such as creosote
onto the surface of the pole and into the back-fill of the soil.
This method has been found to be unsatisfactory as it relies on
*_ migration of the treatment chemicals from the soil into the wood
and generally requires regular treatments about every two years.
This method is further unsatisfactory as most of the chemicals
used, leach into the soil away from the pole and do not serve
their intended purpose and create an environmental hazard.
The most effective means of controlling fungal decay and
termites is to apply a wood preservative containing bandage or
applicator. In principle these bandages offer the most direct
method of delivering chemicals to the wood whereby the
chemical diffuses freely into the wood.
The principle elements required for any biodegradation of
wooden structures are moisture (generally above about 20%
nutrients and air. Consequently bandages are positioned at
SUBSTITUTE SHEET
ground level as this is where the wood structures are most
susceptible to fungal decay and termite attack.
Bandages supplied in rolls with diffusible chemicals
bonded as dry powder mix to a weather impermeable sheath
have been used in Europe and U.S.A. In addition preservative
liquid or paste have been used onto wood structures as
remedial treatments. These preservatives are either
incorporated into a bandage or applied onto the timber surface
by brushing or spraying. As the chemicals are exposed prior to
being applied to the pole, users are required to wear protective
clothing to avoid contact with the chemicals. This is seen as a
disadvantage especially in climatic conditions where protective
clothing is uncomfortable to wear. Other bandages have been
developed which have been generally cumbersome and difficult
to apply thus limiting their appeal to the industry. The ideal
bandage should be weatherproof, exclude ground water and not
be hazardous to the user, the environment or the general public.
Wood preservative bandages which impregnate an inert
matrix with chemical must not only support the chemical but also
must be sufficiently thick to be able to contain a satisfactory
dosage of chemical. This makes a chemical impregnated
SUBSTITUTE SHEET
bandage difficult to shape to the contours of a wooden structure
and apply.
Disclosure of the Invention
It is an object of the present invention to provide a wood
preservative bandage which is safer to apply and more
environmentally acceptable.
In accordance with the objectives, the invention provides
a wood preservative bandage for wooden structures comprising
a flexible matrix having a surface for contact with the wooden
structure and having formed therein a plurality of individual
reservoirs adapted to receive a wood preservative chemical said
reservoirs communicating with the surface for supplying the
chemical to the surface and a fastening means for securing said
matrix in position on said wooden structure,
said plurality of individual reservoirs being arranged on the
flexible matrix to enable said matrix to be shaped to conform to
the contour of the wooden structure.
As the wood preservative chemical is contained in
reservoirs formed in the matrix, the only physical requirement on
the flexible matrix is that it supports the chemical reservoirs.
Therefore, the matrix can be made from thinner material to the
SUBSTITUTE SHEET
impregnated bandages of the prior art with the consequence that
the bandage of the present invention is easier to shape and
apply to a wooden structure and is not as cumbersome as prior
art bandages.
In a preferred form the reservoirs are closed on the side
of the bandage away from the wooden structure. By providing
the wood preservative chemical in individual reservoirs in the
bandage the problems of the prior art associated with chemical
gravitating to the bottom of the bandage is alleviated.
Furthermore, therefore if the matrix is damaged, loss of
preservative, only occurs from the damaged reservoirs.
Leaching is minimised as only the wooden surface which is in
direct contact with the damaged reservoir surface is exposed.
The matrix may be provided with lines of weakness to
further assist the shaping of the matrix to the contour of the
wooden structure.* These links of weakness are preferably
aligned substantially vertically when the matrix is installed on the
structure. It is preferable that the matrix is weatherproof and is
provided with sealing means above and below the plurality of
reservoirs to exclude the entry of water around the peripheries
of the bandage.
SUBSTITUTE SHEET
The fastening means may be a line of indentations formed
in the matrix above and below the plurality of reservoirs. The
indentations are formed such that the formation of female
members on one side of the matrix causes corresponding male
members to form on the opposite side of the matrix.
When the bandage is positioned on the wooden structure,
one end of the matrix overlaps with the other and the male
members of one end co-operate with the female members of
the other to secure the bandage in position. The fastening
means then also acts as a sealing means for the bandage.
Alternatively, the fastening means may be in the form of
a strap or tape which surround the wooden structure and
secures the matrix to the pole above and below the plurality of
reservoirs.
The foregoing and other features, objects and advantage
of the present invention will become more apparent from the
following description of the preferred embodiment and the
accompanying drawing in which:
FIGURE 1 is an plan view of a bandage in accordance
with the present invention,
FIGURE 2 is an elevational view of the bandage shown
SUBSTITUTE SHEET
through section A-A of in FIGURE 1 , AND
FIGURE 3 is an elevational view of the bandage shown
through section B-B of FIGURE 2.
Best Mode of the Invention
In the embodiment of the wood preservative bandage 1
shown in FIGURE 1 , the flexible inert matrix 2 has a number of
chemical reservoirs 3 formed therein. The chemical reservoirs
are arranged such that when the matrix is applied to a wooden
structure, the reservoirs do not hinder the shaping of the inert
matrix. In the preferred form, the reservoirs are formed in the
matrix such that the reservoirs extend away from the surface of
the matrix in contact with the wooden structure.
The size of the wood preservative bandage will depend on
the wooden structure intended to be treated. It is considered
that for most wooden poles the reservoirs will be provided over
about 1 to 1.5 meters of the inert matrix. The matrix has a
leading edge of one column of unfilled reservoirs. When the
bandage is wrapped around a pole the leading edge is clipped
onto the back of the filled reservoirs at the opposite end of the
bandage. This prevents water from entering through the end of
the bandage. The embodiment shown in FIGURES 1 to 3
SUBSTITUTE SHEET
shows a wood preservative bandage which is 5 reservoirs wide.
For a standard wooden pole for supporting power transmission
and telecommunication lines, a wood preservative bandage
which has reservoirs provided over an area of 100 cm x 20 cm
is used. The preferred reservoirs are about 16 mm in diameter
and 8 mm deep and are arranged in a pattern of 42 reservoirs
long and 8 rows wide. Reservoirs may be of other sizes and
shapes and preferably able to hold a volume of between 500 to
1000 cc of dry chemical. This arrangement allows for even
distribution of the chemical to the treated wood surface.
As an alternative to providing the wood preservation
bandage in predetermined lengths, the bandage may be
produced in continuous rolls and the rolls cut to the required
size as they are being applied.
To form the reservoirs 3, the matrix 2 which is a sheet of
thermoplastic material is heated and subjected to a conventional
vacuum forming operation. These reservoirs then act as moulds
for the wood preservative chemical. A wood preservative
chemical is provided at an elevated temperature which ensures
adequate flowability into the reservoirs. The wood preservative
chemical may comprise any water soluble or diffusible fungicide
SUBSTITUTE SHEET
and insecticide but is preferably a mixture of boron compounds,
such as, disodium octoborate tetrahydrate with or without
fluoride compounds such as sodium fluoride to form a watery
paste.
Starting at one end of the bandage illustrated in FIGURE
1 , between 0.5 and 1.5 kg of the paste, preferably 0.8 kg is
poured into the reservoirs. To ensure that the reservoirs of the
matrix are full, the paste material is allowed to set slowly in an
_ elevated controlled room at about 30°C. The bandage is then
stored in a cold room at a temperature of about 5°C to allow
complete solidification of the paste.
To assist installation to a wooden structure, the matrix may
be further provided with lines of weakness 5 formed between the
columns of the reservoirs. Lines of weakness may be formed by
scoring a line in the matrix thereby making the matrix thinner
and easier to bend at that point.
To maintain position on the wooden structure, the bandage
may be provided with a line of indentations 7,8 respectively
above and below the array of reservoirs. The indentations are
drawn or stamped into the matrix to provide a male extension on
one side of the matrix and a corresponding female formation on
SUBSTITUTE SHEET
the other. Once the bandage is positioned encircling the
wooden structure, the lines of indentations overlap upon
themselves. The overlapping male extensions are then pressed
into the female formations to maintain the position of the
bandage on the wooden structure. Additionally, the leading
edge 9 with a column of unfilled reservoirs is clipped into
position onto the back of filled reservoirs at the opposite end of
the bandage.
However, to prevent water entering from the above and
below the array of reservoirs, as an alternative to or in
conjunction with the line of indentations has been found useful
to provide straps or tapes (not shown) to secure the upper and
lower bandage seals onto the pole.
While it is preferable for the flexible matrix to protect the
wood preservative chemicals from the effects of the weather, a
weather cover may be provided around the installed matrix for
weather protection.
The bandage is installed at the ground level of the wooden
structure because this is the area of the structure most
susceptible to fungal attack. At the ground level of the wooden
structure, there is sufficient moisture within the wood to allow
SUBSTITUTE SHEET
migration of the chemicals, contained in the reservoirs, to the
surface of the wood. Furthermore, the moisture is absorbed by
the wood preservative chemicals in the reservoirs causing the
dry chemical to swell and providing a back pressure in the
reservoirs to further assist the migration of chemicals to the
surface of the wood. The treatment chemicals then slowly
diffuse into the wood to destroy both the fungal organisms and
termites present and prevent further infestation until the
_ chemicals are exhausted.
After installation of the bandage to a wooden structure a
further back pressure may be provided by compacting the soil
back-fill around the bandage. As the chemicals are absorbed
into the wooden structure, the reservoirs collapse under the
effects of the soil back pressure thereby maintaining the contact
between the chemicals and the wooden structure. Once the
chemicals are exhausted, which is usually after 3 - 5 years, the
bandage is replaced.
SUBSTITUTE SHEET
Claims (12)
1. Wood preservative applicator or bandage for wooden
structures comprising a flexible matrix having a surface for
contact with the wooden structure and having formed therein a
plurality of individual reservoirs adapted to receive a wood
preservative chemical, said reservoirs communicating with said
surface for supplying said chemical to said surface, the plurality
of reservoirs being arranged on the flexible matrix to enable said
matrix to be shaped to conform to the contour of the wooden
surface and fastening means for securing said matrix in position
on said wooden structure.
2. The wood preservative bandage in accordance with
claim 1 wherein said plurality of reservoirs are closed on the
side of the bandage facing away from the wooden structure.
3. The wood preservative bandage in accordance with
claims 1 or 2 wherein the plurality of reservoirs are arranged in
an array of columns and rows, the rows extending along the
length of the bandage.
4. The wood preservative bandage in accordance with
claim 1 wherein the fastening means is a line of indentations
formed in the matrix above and below the plurality of reservoirs,
SUBSTITUTE SHEET said indentations forming male members on one side of the
matrix and corresponding female members on the opposite side
of the matrix such that when the bandage is positioned around
a wooden structure, one end of the bandage overlaps with the
other and the male members of the one end co-operate with the
female members of the other end to secure the bandage in
position.
5. The wood preservative bandage in accordance with
claim 1 wherein the fastening means are straps or tapes which
surround the wooden structure and matrix above and below the
plurality of reservoirs to secure the matrix to the pole.
6. The wood preservative bandage in accordance with
claims 1 or 2 wherein the matrix is provided with lines of
weakness to allow the matrix to be shaped to their contour of
the wooden structures.
7. The wood preservative bandage in accordance with
claim 3 wherein the matrix is provided with lines of weakness
which extend between the columns of reservoirs to allow the
matrix to be shaped to the contour of the wooden structure.
8. The wood preservative bandage in accordance with
claims 1 or 2 wherein the wood preservative chemical comprises
SUBSTITUTE SHEET a water soluble or diffusible fungicide and insecticide.
9. The wood preservative bandage in accordance with
claims 1 or 2 wherein the matrix is provided with an outer cover
which protects the chemicals from the effects of the weather.
10. The wood preservative bandage in accordance with
claims 1 or 2 wherein the reservoirs are arranged on the
bandage to provide an even distribution of wood preservative
chemical over the surface of the structure to be contacted with
the matrix.
11 The wood preservative bandage in accordance with
claim 1 wherein the wood preservative chemical to be supplied
to the surface of the wooden structure is retained within the
reservoir thereby limiting downward movement of said chemicals
when the bandage is in position.
12. The bandage in accordance with any one of the
preceding claims wherein the wood preservative chemicals are
stored within said reservoir such that damage to any one
reservoir results in loss of chemical from the damaged reservoir
only.
SUBSTITUTE SHEET
Applications Claiming Priority (3)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
AUPK516491 | 1991-03-18 | ||
AUPK5164 | 1991-03-18 | ||
PCT/AU1992/000115 WO1992016341A1 (en) | 1991-03-18 | 1992-03-17 | Wood preservative applicator |
Publications (3)
Publication Number | Publication Date |
---|---|
AU1421092A AU1421092A (en) | 1992-10-21 |
AU652432B2 AU652432B2 (en) | 1994-08-25 |
AU652432C true AU652432C (en) | 1996-05-16 |
Family
ID=
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