AU740010B2 - Method and tool for forming a sealable groove - Google Patents

Description

Regulation 3.2

AUSTRALIA

Patents Act 1952 COMPLETE SPECIFICATION FOR A STANDARD PATENT

(ORIGINAL)

Name of Applicant: G. P. Embelton Co. Pty. Ltd.

Actual Inventor(s): George Robert Embelton Address for Service: DAVIES COLLISON CAVE, Patent Attorneys, 1 Little Collins Street, Melbourne, 3000.

Invention Title: A method and strip for sealing and formation of a sealable groove in a body of settable material The following statement is a full description of this invention, including the best method of performing it known to me/us: IP Australia

D

Documents received on: 0 28 APR 1999 3 Batch No: -1- W\OPER\KAfl701449.DIV -28/4/99 D, 'r la METHOD AND TOOL FOR FORMING A SEALABLE GROOVE This invention relates to method and tool for formation of a sealable groove in a body of settable material.

In concrete construction work, for example, it is frequently necessary to seal gaps between adjacent surfaces, such as opposed surfaces of a groove. Pre-formed sealing strips may be employed for this purpose. A particularly.satisfactory material is expanding cork material such as that sold under the registered trade mark 15 SPANDEX. This material when inserted into a groove will, over time, expand to .:i**firmly press against the opposed' sides of the groove to provide an effective seal.

While the use of sealing strips as above described is convenient and effective where grooves are of standard configuration, such as having planar opposed parallel surfaces, such that strips of standard complimentary configuration can be readily formed, difficulties may arise where it is desired to seal between opposed surfaces which are not so formed. This may arise, for example where one of two opposed surfaces is irregular. This situation arises particularly where grooves formed in concrete or the like-are subjected to erosion such as may occur over a period of service where the concrete work is exposed to the elements, and where it becomes necessary to replace a pre-existing seal. In these cases, where one of the opposed surfaces is linear the sealing strip may be introduced against that surface and any gap as between an opposite irregular surface and the adjacent surface of the sealing strip filled with a fluid settable composition such as cement. In these cases, however, the introduction of the cement filler, which needs to be downwardly compacted, tends to result in the filler passing to the bottom of the groove. It may therefore accumulate at the bottom of the groove and tend to cause the sealing strip to dislodge from the bottom of the groove, or pass the bottom of the sealing strip and be lost if the surfaces to be sealed do not have a base connecting surface. Also, cement filler may bridge the gap which in most instances is formed below the groove by adjacent slabs of concrete between which the groove is formed. This bridging is undesirable because it will then interfere with natural movement of the slabs towards each other, possibly inducing spalling of edges of the slab, directly or indirectly reducing the efficiency of sealing performed by the sealing strip.

One hiethod of sealing between opposed surfaces utilizes a sealing strip which is introduced between the surfaces, and settable material which is provided between the sealing strip and one of the surfaces, wherein the sealing strip is provided with an elongate body portion and a lengthwise extending and laterally extending flexible barrier means, the sealing strip being introduced through an opening defined by the surfaces such that the barrier means resiliently 15 engages said one surface and, when the strip is in position, provides a barrier between .i the body portion and said one surface.

The settable material is preferably introduced into the groove with the sealing strip but may be introduced after introduction of the sealing strip.

A suitable sealing strip for use in the above described method ccmprises an elongate body portion and a resiliently flexible barrier means extending lengthwise and laterally 9f the body portion. Preferably, the barrier means is secured to the body portion adjacent a junction between side and lower end surfaces of the-body portion. Preferably, the body portion includes at least one side surface which is non-linear when viewed in cross-section, such as being sinuous or grooved.

The sealing strip may be formed of expandable material such as a composition including expandable cork. Suitable compositions include those containing cork, rubber and a suitable binder. The barrier may be formed of expanded polyethylene or other flexible and/or resilient materials.

P:\OPER\KAT 2499-9Sp.doc-24/0OLI1 -3- The present invention provides a method of forming a groove in a body of settable material and introducing a sealing strip thereinto, the groove defining an opening and opposed side surfaces for introduction of the sealing strip, comprising penetrating the surface of the material, prior to setting, with a forming tool having opposed side portions mounted for movement towards and away from each other, under a condition where the side portions are adjacent each other, to form a depression in the material, moving the side portions away from each other into a spaced condition whereby to sidewardly expand the depression to form the groove, and removing the tool from the groove, the sealing strip being provided between the side portions of the tool when the side portions are in the spaced condition such that, when the tool is removed, the sealing strip remains in the groove.

oooo This invention also provides a method of forming a groove in a body of settable material and introducing a sealing strip thereinto, the groove defining an opening and 15 opposed side surfaces for introduction of the sealing strip, comprising penetrating the surface of the material, prior to setting, with a forming tool having opposed side portions i mounted for movement towards and away from each other, under a condition where the side portions are adjacent each other, to form a depression in the material, moving the side portions away from each other into a spaced condition whereby to sidewardly expand the depression to form the groove, and removing the tool from the groove, the sealing strip being provided between the side portions of the tool when the side portions are in the spaced condition such that, when the tool is removed, the sealing strip remains in the groove.

The elements may present substantially parallel outer surfaces when in said second position.

The invention is further described by way of example only with reference to the accompanying drawings in which: Figure 1 is a fragmentary perspective view of a sealing strip; 4 Figure 2 to 4 are cross-sectional 'views showing steps in sealing a groove using the sealing strip of Figure 1; Figure 5 is a cross-sectional view of a further sealed groove; Figure 6 is a view like Figure 5 but showing a modified form of sealing strip; Figures 7 to 13 illustrate a tool in accordance with the invention and its use to form a groove; Figure 14 is a perspective view of a sealing strip, showing an alternative method of use thereof; Figure 15 is a view like Figure 5, but showing a modified form of sealing strip; Figures 16 and 17 are views similar to Figure 10 but showing another tool according to the invention and its use in 15 a method according to the invention; and Figure 18 is a view like Figure 5 but showing a sealing strip having a modified seal element.

Figure 1 shows a sealing strip 10 formed of an elongate rectangular body portion in the form of strip 12 of self expanding sealing material such as SPANDEX, being a composition formed of cork, rubber and a suitable binder. This material when installed, ,for example in' a groove, will self expand to form a tight seal against adjacent side surfaces of the groove. At the bottom of the strip 12 there is provided a barrier means, in the forr of element 14, of expanded polyethylene material, being material which is somewhat flexible and resilient. The element 14 extends lengthwise of the strip and is bonded or otherwise fastened to the under surface of the strip 12 so as to extend sidewardly therefrom.

Figure 2 shows concrete work 18 with a groove 20 formed therein, this havinS opposed side surfaces 22, 24, of which surface 24 is in this case vertical and linear when viewed in cross-section. The opposite surface 22 is however, of irregular form when viewed in cross-section. In order to provide an effective seal of the groove the strip 10 is introduced into the groove by downward movement, with the element 14 lowermost and with the side face 10a of the strip, opposite the side face 106 from which element 14 sidewardly extends, adjacent surface 24. Thus, the element 14 extends sidewardly from the strip 10 towards surface 22. As the strip 10 is directed downwardly, toward the bottom of the groove 20, the outer free edge 14a of the element 14 engages the surface 22 and is upwardly deflected and partially compressed as shown in Figure 3.

As shown in Figure 4, a suitable settable material 26 is then introduced into the space between the side face 10b of strip 10, and the surface 22 of the groove.

15 This material may comprise, for example an acrylate cement such as one formed from hydraulic cement mixed with an acrylic emulsion. This material may be pressed downwardly into the space between face 10a and surface 22 to fill entirely the space down to the location of the element 14, which prevents further downward passage of the material. Thus, the element 14 provides an effective barrier to passage of the material 26 below the sealing strip 10, and thus acts to prevent undesired penetration of material 26 to this location, which would have the undesirable effects above described.

By making element 14 resilient, it will resiliently bias the strip 10 away from surface 22, against surface 24, to facilitate easy entry of the settable material into the space between the sealing strip and the surface 22.

It is possible to adapt the method above described for use in other situations.

For example, Figure 5 shows sealing strip 10 applied in the groove 20 where both opposed side surfaces 22, 24 are generally parallel and planar.

Figure 6 shows a modified form of the strip 10 where the rectangular strip 12 -6of self expanding sealing material is of similar form to that described previously, but where the element 14 is secured to the lower surface of the strip 12 so as to project to either side of the strip rather than simply to one side as shown. In this case, the action of inserting the strip 10 will tend to centre the strip 12 as the opposed side edges 14a, 14b engage the side surfaces 22, 24 of the groove 20. In this case, then, there will be gaps between the side surfaces 10a, lOb and the respective opposed surfaces 24, 22 of the groove. In this case, then, these two gaps are each sealed by introduction of settable material 26.

Figure 18 shows a further modification where the rectangular strip 10 and element 14 are of somewhat similar form and material to that above described. In this case however, the element 14 is considerably thicker, so that when the strip 10 is inserted into the groove the sidewardly projecting portion 14c of the strip is compressed between the side of the strip 12 and the side surface of groove 20, to improve the sealing action.

While, in the described arrangement, the settable material 26 is applied into the space formed between the sealing strip 10 and a side surface of the groove, it is possible to introduce the settable material with the sealing strip. Thus, Figure 14 20 shows the sealing strip 10 with the rectangular strip 12 of self-expanding sealing material, and the element 14 laid on its side with element 14 extending in upright fashion from the strip 12. Then, the settable material 26 is introduced onto the upper surface 10b of strip 12 and trowelled over this and against the sealing strip 14. Then, the strip 10 is introduced into the groove 20 in the same way as previously described the excess material 26 rising above the groove and being trowelled off as required.

Also, if the material 26 is sufficiently thixotropic, it may be applied to the strip 12 when the strip is in the vertical condition, rather than being on its side as described.

The sealing strip 12 may be of different form to that described. In particular the strip 12 may be configured with a sinuous side surface 10a or 10b or with both side surfaces being so configured, as shown in Figure 15. This facilitates the keying action as between the material 26 and the strip 12. This sinuous configuration may be applied even in the case where strip 10 does not include the clcment 14.

EXAMPLE

INSTAT.ATION OF SPANDEX* In order to effect repair and seal the joint between two concrete slabs, a selfexpanding sealer strip of SPANDEX* material with dimensions of approximately 12mm thickness and 50mm depth was installed using a settable adhesive cement applied to one face prior to installation.

Adhered to the bottom edge of the spandex strip and protruding approximately 8mm, was a semi rigid polyethylene foam element of approximately 6mm thickness, designed to contain the adhesive cement during insertion of the Spandex into the joint groove. To the top edge was bonded a plastic tape to be removed after insertion of the SPANDEX' into the joint, designed to leave a clean upper surface.

Trowelled directly on to the side surface of the SPANDEX" strip, the adhesive 20 cement was of a consistency similar to Plaster of Paris and sufficiently thixotropic to .avoid slump and hold to the vertical face of the SPANDEX' material as it was being inserted into the joint opening.

One side of the joint opening had been cleaned and was substantially normal to the pavement surface. The other joint face was less regular such that the width of the joint gap varied from approximately 14mm to 18 or even 20mm in some places.

The SPANDEX* material was grooved on one side, being the side to which the adhesive was applied and was inserted into the joint opening with its flat side toward the clean, vertical face of the joint.

-8- Some force was required to insert the strip into the joint, with the foam retaining element along the bottom edge and the flat face of the SPANDEX" material hard against the clean face of the joint, because the foam was thicker than the gap between the Spandex and the opposite face of the joint and this resulted in the foam being compressed. Compression of the foam in this way prevented any ingress of the adhesive into the joint below the Spandex. It also forced the adhesive to flow against the face of the joint and firmly held the opposite side of the Spandex strip against the clean face during the insertion process.

Some surplus adhesive was forced from the top of the groove, indicating the gap between the SPANDEX* material sealing strip and the rougher joint face had been filled with the settable material. Such surplus was easily cleared away before the plastic tape bonded to the top edge of the SPANDEX* material was removed to leave a clean, sealed joint repair, flush with the pavement surface.

SPANDEX is a Registered Trade Mark.

e* Referring now to Figures 7 to 13, there is depicted therein a tool forming a groove 20 in 'a body of settable material 18. In this method, the groove is formed after the material 18 has been poured to form an upper surface 18a (Figure 7) but before'the material has set.

The method employs a tool 100 comprising two elongate side elements 102, 104 which have planar outer faces 102a, 104a. The two elements 102, 104 are hinged together in any suitable fashion so as to be swingable about a pivot axis 106 to and between a first position such as shown in Figure 7, at which portions 102c, 104c on which the faces 102a, 104a are formed, extend away from the pivot axis 106 in closely adjacent relationship with inner surfaces 102b, 104b thereof adjacent, and a second position such as shown in Figures 9 and 10 where the portions 102c, 104c are separated. This movement is effected by manipulating portions 102d, 104d of the elements 102, 104, these being in the form of handle-like structures extending away -9from axis 106 in the opposite direction to portions 102c, 104c.

The portions 102c, 104c are somewhat wedge-shaped when the tool is viewed from the end as shown in Figure 7 and, when in the position shown in Figure 7, the tool presents a somewhat wedge-shaped configuration with a somewhat pointed end 100a at the extremities of portions 102c, 104c. On the ether hand, when portions 102d, 104d are moved away from each other, the configuration shown in Figures 9 and 10 is adopted at which the extremities of the portions 102c, 104c are also moved away from each other and the surfaces 102a, 104a are somewhat parallel to each other.

The first step in forming the groove 20 is illustrated in Figures 7 and 8 where the tool 100 is advanced to penetrate the surface 18a of the body of the material 18.

This is done with the pointed end 100a of the tool being lowermost so that this end of the tool penetrates the body of material first. Penetration is carried out to a depth equal to the desired depth of the groove to be formed.

The depression formed by so pressing the tool 100 into the material 18 is, as shown in Figure 9, subsequently widened by moving the portions 102d, 104d of the 20 tool away from each other to correspondingly move the now lowermost ends of the tool likewise away from each other as shown in Figure 9. As mentioned, in this case, the outer surfaces 102a, 104a may assume somewhat parallel disposition, although this is not essential. It may, for example, be desired to form a groove which has downwardly divergent sides or, even for that matter, upwardly divergent sides. In these cases, the extent of opening of the tool is selected as desired.

Following widening of the groove as shown, the groove work is substantially completed by moving block elements 110 to compress the material 18 at the surface 18a to form neat corners 20a, 20b of the groove 20. This may be effected by forcing the elements 110 against the surface and towards the opposed sides of the tool such as by movement in the direction of the arrows A and B in Figure 10 Subsequently the block elements 110 are.removed. the tool reverted to its closed condition and withdrawn from the'groove 20 as shown in Figure 11.

Then, the strip 108 of sealing material is entered into the groove 20 to complete the sealing of the groove, as shown in Figures 12 and 13. This step may be effected either before setting of the material 18 or afterwards.

In Figures 16 and 17, a tool 200 somewhat similar to tool 100 is used in a similar fashion to the manner described with reference to Figures 7 to 11, to form a groove 220. The tool has side elements 202, 204 somewhat similar to side elements 102, 104 of tool 100 and can be pivoted about a pivot 206 to a position (not shown) at which the free ends come together, to facilitate penetration of the body of material 18, and then pivotally separated to form the groove 220. In this case, the sealing strip 108 is introduced into the groove 220 before the tool 200 is withdrawn. The sealing 15 strip may be accommodated within the tool 200 before the tool is advanced into the material 18, or it may be introduced after the side elements of the tool are opened to form the groove.

In the methods described with reference to Figures 7 to 17, the block elements 20 110 may be left in place as the tool 100 or 200 is withdrawn.

The described construction has been advanced merely by way of explanation, and many modifications and variations may be made thereto without departing from the invention.

Claims (5)

1. A method of forming a groove in a body of settable material and introducing a sealing strip thereinto, the groove defining an opening and opposed side surfaces for introduction of the sealing strip, comprising penetrating the surface of the material, prior to setting, with a forming tool having opposed side portions mounted for movement towards and away from each other, under a condition where the side portions are adjacent each other, to form a depression in the material, moving the side portions away from each other into a spaced condition whereby to sidewardly expand the depression to form the groove, and removing the tool from the groove, the sealing strip being provided between the side portions of the tool when the side portions are in the spaced condition such that, when the S. tool is removed, the sealing strip remains in the groove. .e

2. A method as claimed in claim 1, wherein block elements are provided to either side S 15 of the tool and arranged to extend lengthwise and adjacent the side portions and wherein the block elements are used to compress material displaced about the opening by i movement of the side portions into the spaced condition so that a junction between the surface of the material and the side surfaces of the groove extends in a well defined linear manner.

3. A method as claimed in claim 2, wherein compression of the material is effected by ai exerting a compressive force on each of the block elements, the force having a component directed normally to the surface of the material and a component directed toward the tool.

4. A lengthwise extending tool for forming a groove in a body of settable material comprising two elements which are elongate in the lengthwise direction of the tool and which are mounted for pivotal movement about a lengthwise extending pivot axis between a first position, at which first end portions of the elements, away from the pivot axis, are adjacent each other to enable the surface of the settable material to be penetrated by R 3 movement of the tool into the material with an end portion thereof first, which end portion I- )s defined by the end portions of the two elements, and to a second position at which the '13 P OPERDH24984-99 spa2 doc-05/09/01

12- end portions of the elements are pivoted away from each other for effecting said forming of the groove by sideward displacement of the settable material, said elements, at least in said second position, being disposed to permit a lengthwise extending sealing strip to be positioned therebetween, such that the sealing strip, when so positioned, and after said penetration of the tool into the settable material, may remain in groove after subsequent withdrawal of the tool from the settable material. A lengthwise extending tool as claimed in claim 4, wherein the sealing strip is introduced between the elements before said penetration. 6. A lengthwise extending tool as claimed in claim 4, wherein the sealing strip is introduced between the elements after said penetration. 7. A groove-forming method substantially as hereinbefore described with reference to 15 Figures 16 and 17 of the accompanying drawings. 8. A groove-forming tool substantially as hereinbefore described with reference to Figures 16 and 17 of the accompanying drawings. DATED this 5th day of September, 2001 G.P. EMBELTON CO. PTY. LTD. By its Patent Attorneys Davies Collison Cave