This application is a National Stage of PCT/GB2013/052002 filed on Jul. 26, 2013, which claims priority to and the benefit of British application Nos. 1309878.5, filed Jun. 3, 2013 and 1214725.2, filed Aug. 17, 2012, the entire contents of all of which are incorporated herein by reference.
The invention relates to a tool and in particular a tool used for applying, smoothing, leveling and polishing plaster applied to a surface ie wall or ceiling. In addition it can be used for the application and smoothing of Jointing Compounds and decorative finishes. The tool blade encompasses a combination of correct materials for a particular application and its different working stages. It allows improved flexibility to speed up both working and chemical processes at the same time enhancing the finish of the surface, particularly on uneven surfaces. Incorporating different working materials on opposing sides of the tool facilitates improved finish and working times. The tool blades are also easily interchangeable making the tool versatile and economical to maintain.
Conventionally, plaster is applied to walls and ceilings using a plastering trowel which comprises a flat rectangular stainless steel sheet having dimensions of about 280 mm to 460 mm by 120 mm with a generally cylindrical handle mounted spaced from and parallel to the sheet. The same tool is used for smoothing and leveling the plaster once it has been applied. After it has dried a little, the tool is then used to polish the plaster to a smooth finish.
A known plaster “ruling off” leveling tool, known as a ‘Darby’, comprises an extruded aluminum elongate body which may be hollow or solid. The known tool sometimes has a pair of spaced handles extending perpendicularly there from. The spacing of the handles is adjustable in some cases. However, the ‘Darby’ tool, being generally rigid and inflexible, is only useful for “ruling off” and leveling backing plaster (first coat plaster) or scratch coat sand and cement render (first coat render).
The invention provides a tool comprising a handle and a generally rectangular tool blade mounted on the handle, wherein the tool blade comprises a rectangular web member formed of flexible material having two opposite flat side surfaces and at least one straight free edge; wherein a strip of a different material is fixed to the web on one side thereof and extends along the outer part only of the web adjacent to the free edge thereof.
The invention has particular application in a tool for applying plaster to a surface such as a wall. The web is formed from a polymer and provides flexibility. One side of the web can be used for applying and generally leveling and smoothing the plaster and the other side, provided with the strip of a different material such as spring steel, can be used, subsequently, for polishing the plaster surface to a smooth finish.
Embodiments of the inventions are described below with reference to the accompanying drawings, in which:
The tool may have any length, depending on the application. A tool for smoothing, leveling and polishing plaster may have a length up to 2000 mm or even longer. Lengths between 100 to 1800 mm have been found particularly useful. The width of the web is preferably 60 to 100 mm, most preferably about 85 mm.
In the preferred embodiments, the web 2 is an extrusion formed of a rigid or semi rigid PVC or other suitable polymer or elastomer and has a thickness of between 1.0 and 3.0 mm, preferably about 1.7 mm. This gives the web sufficient stiffness and flexibility to operate efficiently.
The handle 3 is a hollow extrusion formed of aluminium and is substantially rigid. The handle has a generally rectangular profile comprising a first side 4 which is generally parallel to the web, a second side 5, generally perpendicular to the web, a third side 6 parallel to the first side and a fourth side 7 parallel to the second side. The second side 5 is formed in a concave profile providing a curved recess 8 extending along the handle and adapted to receive the thumbs of the user. The fourth side 7 is provided with two concave recesses 9 and 10 extending along the length of the handle and adapted selectively to receive the fingertips of the user. The ergonomic design of the handle allows it to be comfortably gripped by the user at all times and especially when working overhead.
The handle 3 is provided with a bifurcated flange 11 at the junction between the web and the fourth side 7 of the handle and extending generally in the plane of the web 2. The limbs of the flange define a recess in the form of a channel which extends along the length of the handle. The recess receives and holds the edge portion of the web. Shoulders are formed on the web to abut the ends of the limbs. In one embodiment (not shown) the recess receives the edge portion as a snap fit by virtue of barbed formations in the recess and on the portion.
The edge portion of the web has an enlarged section 12 running therealong which is held in a complimentary enlarged section of the recess. The enlarged sections of the web and the recess are in the form of a ball and socket when viewed in cross-section. Preferably, the edge portion of the web is received and held in the recess in a slack fit having a nominal clearance all round the edge portion of about 0.125 mm at about 20° C. The shapes and dimensions of the web and recess, and in particular, the loose or slack fit, permit sliding movement of the edge portion of the web along the length of the recess but prevent movement of the web out of the recess in the direction perpendicular to the length of the recess. In this embodiment, the web is fitted to the handle by sliding the edge portion of the web into and along the recess on the handle.
The loose or slack fit of the edge of the web in the handle serves various functions. Firstly, it allows the web to expand differentially to the linear expansion of the handle. This is especially important where the handle and web are made of different materials since without this facility the web might expand more than the handle under ambient conditions. If the web is held rigidly in the handle, it may tend to kink or buckle along its length making it difficult or impossible to use correctly. Secondly, this arrangement enables simple replacement of a worn or damaged web into a handle. Other web profiles of rigid or semi-rigid design may be introduced for other different tasks to be performed.
The lower surface of the web is used for smoothing and leveling wet finish coat plaster applied to a wall or other surface and is formed with a plurality of parallel grooves 13 extending along the length thereof and defining parallel ridges 14 therebetween. The ridges and the flat grooves therebetween are best seen in
A rectangular strip of material 15 is connected to the web on the upper side surface thereof and extends along the outer part only of the web adjacent to the straight free edge thereof such that a portion of the web between the handle and the strip remains uncovered. The strip extends along the tool parallel to the handle.
The strip is formed of a different material to that of the web. In a preferred embodiment, the strip is metal and preferably spring steel, ideally spring stainless steel. In an alternative, other materials different to that of the web may be used for the strip such as other polymers or elastomers such as rubber or silicone and the two materials making up the web may be co-extruded to form the web.
The web is rebated along one side adjacent to its free edge to receive the strip such that the side surface of the strip is flush with the remaining side surface of the web. The strip may be attached by any suitable means such as by gluing or being held onto the web by the web being moulded thereto. If the strip is glued to the web, a pair of recesses 16 may be provided in the web as shown in
The thickness of the strip may be from about 0.1 mm to about 1.00 mm. The preferred thickness is generally 0.25 mm. The use of film or foil material can also be used in the correct application.
As shown, a strip is provided on only one surface of the web. In this tool, the ridged side of the tool is used for smoothing and leveling plaster and the opposing surface, provided with the metal strip at the edge, is used for applying, finishing and polishing the plaster. The different surface textures of the different materials make them suitable for these different operations. The width of the strip and also the opposing ridged portion need only be about 15 mm from the edge since only that portion of the blade contacts the plaster. The widths of the strip and the ridged portion are preferably 10 mm to 30 mm. Because the strip extends only along an outer part of the web, it does not seriously reduce the flexibility of the web.
In an alternative embodiment, not shown, a strip may be provided on both surfaces of the web. In this case, both surfaces of the web will be used for finishing and polishing plaster. In a further embodiment, not shown, a strip may serve as a tip on one side of the blade but be counter-balanced by a similar strip on the opposing side. The counter-balancing strip can be situated slightly away from the edge (approx 15 mm) so as not to interfere with the desired working edge material on this counter-balanced side. This feature in the correct application can enhance stability and ensure the blade remains straight. In another embodiment, not shown, the tool can be adapted to accept two blade combinations on either side of the handle as a multi-tool.
The hollow body of the handle is closed by end caps as shown in
The metal strip is fixed to the web on the face of the web opposite to the side 5 of the handle having the recess 8. As can be seen, in the blade shown here, the strip extends outwardly slightly beyond the free edge of the web.
As before, the handle 3 is provided with a bifurcated flange at the junction between the first and second sides 4, 5 of the handle and extending generally in the plane of the web 2. The limbs of the flange define a recess in the form of a channel which extends along the length of the handle. The recess receives and holds the edge portion of the web.
The width of the web from the handle to its outer straight edge is preferably 60 to 100 mm, most preferably about 85 mm. The strip covers an outer portion only of the web. The width of the strip is about 10 to 30 mm so that the portion of the web between the handle and the strip which remains uncovered is greater than the width of the strip.
In a yet further variation of the blade shown in
In an alternative construction (not shown) the handle and web may be formed of a single plastic extrusion formed of a single material, preferably PVC. In another alternative, the handle and web may be made of different plastic materials, or simply of differently coloured plastic materials blending together at a join along the length of the tool.
In a yet further embodiment (not shown) the handle can be solid and made from wood or other suitable material. In this embodiment the web may be extended to overlie the first side of the handle and be glued or otherwise fixed thereto.
A second tool is shown in
In another embodiment, not shown, one or more outer edges of the blade on each embodiment of the tools may be castellated, serrated, have a saw tooth profile, or have any other irregular profile. Such a tool may be useful, for example, for applying tiling cement. Other edge designs can be used for forming decorative patterns in materials.
In all the embodiments, appropriate stainless steel edge strips (or other chosen material) can either be mechanically fixed or glued to be either rigid or to allow free movement between the two materials if necessary in ranging temperatures. The gluing and double sided adhesive tape method of fixing (depending on the thickness and nature of material) may have to be carried out at a controlled temperature when one of the materials is fully contracted. As an example if spring stainless steel is adhered to PVC at a relatively warm temperature, 20 to 30° C., this can result in distortion or buckling if the tool is used at relatively cool temperatures, say 0 to 20° C., because the PVC will contract more than the steel. For this reason, the steel should be adhered to the PVC at a temperature of less than about 20° C.
Number | Date | Country | Kind |
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1214725.2 | Aug 2012 | GB | national |
1309878.5 | Jun 2013 | GB | national |
Filing Document | Filing Date | Country | Kind |
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PCT/GB2013/052002 | 7/26/2013 | WO | 00 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2014/027177 | 2/20/2014 | WO | A |
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3878581 | Perna | Apr 1975 | A |
4654919 | Liberman | Apr 1987 | A |
4946360 | Brown | Aug 1990 | A |
5351357 | Liberman | Oct 1994 | A |
6616520 | Kawahara | Sep 2003 | B1 |
20050087084 | Gray | Apr 2005 | A1 |
Number | Date | Country |
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2 289 637 | Mar 2011 | EP |
2 308 606 | Apr 2011 | EP |
2 969 192 | Jun 2012 | FR |
WO 9403095 | Feb 1994 | WO |
WO 2007135247 | Nov 2007 | WO |
WO 2009026679 | Mar 2009 | WO |
WO 2013001277 | Jan 2013 | WO |
Entry |
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International Search Report and Written Opinion of the International Searching Authority, mailed Feb. 17, 2014 in PCT/GB2013/052002, 12 pages. |
UK Search Report dated Feb. 13, 2014 in priority application GB 1309878.5, 3 pages. |
UK Search Report dated Nov. 30, 2012 in priority application GB 1214725.2, 3 pages. |
Number | Date | Country | |
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20150225967 A1 | Aug 2015 | US |