This application is a national phase application filed under 35 USC §371 of PCT Application No. PCT/IB2018/055932 with an International filing date of Aug. 7, 2018, which claims priority of EE Patent Application P201700027 filed Jul. 20, 2017. Each of these applications is herein incorporated by reference in its entirety for all purposes.
This invention relates to aids used in the construction industry for smoothing joints, more specifically the invention relates to a smoothening pad for an applicator for sealants which can be used for finishing and for compressing sealing materials applied to the joints and gaps between various surfaces.
The author of the invention has already been granted protection for an applicator intended for applying and smoothing sealants and including a smoothening pad as the working portion. Document WO2017/051227, 30 Mar. 2017 (OKEI MEISTRID OÜ), describes an applicator (see
The experiments and working with the applicator have shown that a pad made of silicone may wear faster than expected. Also, if the user applies too much pressure on the pad, the wings located at the sides of the pad may twist forward (i.e., toward the smoothed surface of the joint, in the direction opposite to the movement of the applicator) and as a result, the surface of the applied sealing material may become uneven or the excess sealing material that is removed from the joint may move back to the joint. Besides, due to the forward twisting of the wings, the smoothening pad may wear faster than expected.
The object of this invention is to provide a solution for the construction of the smoothening pad for the already patented applicator so as to make the smoothening pad more resistant to wear and to prevent the forward twisting of the smoothening pad wings in cases where the user applies too much pressure on the applicator and consequently, on the smoothening pad.
In addition, the end of the smoothening pad has to be made softer so as to prevent the sealing material from flowing out through the wings. Also, the end of the smoothening pad needs to be softer for the reason that in the cases when the angle of the joint is not 90 degrees (e.g., is only 85 degrees), the softer end of the smoothening pad makes the corner smooth with the first stroke filling the corner better, whereas if the end of the smoothening pad is more rigid, the corner has to be smoothed several times and the applicator needs to be pressed very hard, which means that the user (house painter, for example) needs to spend more time on smoothing the joint and the smoothening pad wears faster.
As a solution, the authors of this technical solution provide a smoothening pad which is made of some elastic polymer (e.g., silicone) that has portions of different hardness or elasticity. The front portion of the smoothening pad (the face), which first comes into contact with the sealing material (wherein the sealing material, as used herein, means silicone (e.g., silicone that solidifies in the air), sealant or some other viscous material (e.g., rubber or various glues used for sealing joints, etc.) that is used in the corners of walls or ceilings and the gaps between surfaces (joints) as an elastic material ensuring the required degree of sealing, the impermeability and appearance of joints), is formed from a softer and more flexible polymer (or with cavities) and the rear portion of the smoothening pad and the wings are made from a harder and more rigid material. This solution ensures that the more flexible front portion or the face of the smoothening pad that smoothes the sealing material in the joint moves more easily along the sealing material, providing an even and smooth surface. At the same time, the more rigid rear portion of the smoothening pad prevents the wings (also made from a more rigid elastic polymer, e.g., silicone) from bending forward, i.e., in the direction opposite to the movement direction of the smoothening pad. In an alternative embodiment, the softer and more flexible front portion of the smoothening pad is covered with a layer of a more rigid elastic polymer (e.g., silicone) so as to make the pad even more resistant to wear, whereas the more rigid upper polymer layer adds elasticity to the front portion of the smoothening pad so as to ensure the required smoothness of the surface of the sealing material. By covering the softer portion of the smoothening pad with a layer of a more rigid polymer, the fast wear of the face of the smoothening pad and stretching of the smoothening pad is prevented.
In addition, the authors of this invention provide a smoothening pad which is made entirely from a more rigid silicone, but during the production process a gap or channels are formed at the end of the smoothening pad that make the end of the smoothening pad more flexible, i.e., which ensure the required flexibility of the polymer (e.g., silicone) used for producing the smoothening pad, or more specifically, the required elasticity of the face of the smoothening pad.
The shape of the smoothening pad is designed so that it imitates a human finger pressed into the corner, wherein the smoothening pad is a pad made of an elastic material (e.g., silicone) that expands backward and has wings that copy the surface of the wall. In the central portion of the pad, there is an elevation, allowing the excess viscous material to be guided back to the surface being sealed or smoothed or the corner between surfaces. In alternative solutions, the shape of the smoothening pad is altered according to the required grade of smoothness or the material used for sealing corners/surfaces.
The invention is now described in more detail in exemplary embodiments with reference to the drawings, in which
The smoothening pad 1 may be used on the applicator that is attached to a sealing material tube (see
The smoothening pad 1 for the applicator is attached to a footing 2 or moulded by mould casting around the footing so that the triangular head 12 of the footing 2 remains inside the smoothening pad 1 (see
The smoothening pad 1 used for smoothing planar joints has an elevation 7 in its central portion (see
The smoothening pad 1 shown in
The smoothening pad shown in
The face 5 of the smoothening pad 1 used for smoothing corner joints also imitates a human finger pressed into the corner (generally, users smooth the silicone used for sealing the corner joints between details with their finger because this is the easiest way for levelling the surface of the sealing material and then removing the excess sealing material). Using the finger for smoothing joints, however, harms the skin on the finger so that after finishing the process the user's finger(s) might be injured and sore.
The smoothening pad 1 for smoothing corner joints has a cavity 14 in the front portion, allowing the front portion 11 and the face 5 of the smoothening pad 1 to move as deep within the corner as possible (the face 5 of the smoothening pad is pressed into the joint as precisely as possible) and push the excess sealing material into the space 15 between the wings of the smoothening pad. On the sides of the smoothening pad 1, wings 6 directed upward have been provided that copy the surfaces of the wall against which the wings 6 of the smoothening pad 1 are pressed when finishing corners with some viscous sealing material. In the central portion of the smoothening pad 1, a small elevation 10 is provided, allowing to guide part of the excess viscous material that accumulates on the front portion 11 of the smoothening pad 1 back to the finished corner, whereas a small cavity 14 provided in the front portion 11 allows the rest of the excess material to move between the wings 6 of the smoothening pad so that the precise amount of material needed for sealing and smoothing the joint remains within it.
The smoothening pad 1 according to the first embodiment has a bolster or pad 8 at the end 13 of the triangular head 12 of the footing 2 in the front portion 11 of the smoothening pad 1 according to the invention that is made from a more elastic polymer (e.g., silicone) (see
In the second embodiment, the whole smoothening pad 1 (body 16 of smoothening pad, wings 6) is made from a polymeric material of the same rigidity/elasticity but there is a gap 17 formed in the front portion 11 of the smoothening pad 1 during the moulding process (see
In the third embodiment, the smoothening pad as a whole (the body 16 and wings 6) is made of a polymeric material of the same rigidity/elasticity but in the front portion 11 of the smoothening pad 1, empty chambers or channels with no outlet 18 are formed during the moulding process (see
In the fourth embodiment, the smoothening pad as a whole (the body 16 and wings 6) is made of a polymeric material of the same rigidity/elasticity and in the front portion 11 of the smoothening pad 1, empty chambers or channels with no outlet 18 are formed during the moulding process as in the third embodiment, but the chambers or channels with no outlet 18 are provided with partitions 19 that divide a channel into at least two sub-chambers 28 (see
So as to fasten or fix the smoothening pad more firmly to the footing 2 and this way prevent the movement of the smoothening pad along the footing or the unfastening of the smoothening pad from the footing, and to ensure necessary sideward rigidity of the smoothening pad 1, a protrusion 20 is formed on the head of the footing 2 that extends vertically to the extent of the front portion of the smoothening pad. The footing with the shape of a triangular head is provided with openings 21 in order to integrate the smoothening pad with the footing during the moulding/forming of the smoothening pad. This way, the footing is firmly fixed inside the smoothening pad.
The footing of the smoothening pad used on a manual applicator is made as one component that also includes a handle, i.e., the footing and the handle are integrated or one of them turns into the other. For the ease of use, the handle 4 has a hollow or curved shape (the edges of the handle curve upward on the side of the face of the smoothening pad).
The smoothening pad for an applicator for joints may be made, for example, by moulding of the polymer in a mould into which either a footing with fasteners or a footing integrated with a handle has already been placed. During the moulding process, the used polymer fills the mould with a shape of the smoothening pad and the opening provided in the head of the footing, thus ensuring that the footing of the smoothening pad remains inside the smoothening pad. In the process of moulding the smoothening pad according to the first embodiment, a polymer bolster is formed onto the end of the head of the smoothening pad footing.
Number | Date | Country | Kind |
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P201700027 | Jul 2017 | EE | national |
Filing Document | Filing Date | Country | Kind |
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PCT/IB2018/055932 | 8/7/2018 | WO | 00 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2019/016785 | 1/24/2019 | WO | A |
Number | Name | Date | Kind |
---|---|---|---|
5471704 | Woolley | Dec 1995 | A |
5675860 | Campbell | Oct 1997 | A |
7972074 | Lepage | Jul 2011 | B2 |
8845223 | Liao | Sep 2014 | B2 |
10294678 | Kensap | May 2019 | B2 |
Number | Date | Country |
---|---|---|
2348237 | Sep 2000 | GB |
H07275764 | Oct 1995 | JP |
2017051227 | Mar 2017 | WO |
Entry |
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International Search Report of International Application No. PCT/IB2018/055932, dated Jan. 24, 2019, 3 pages. |
Written Opinion of The International Searching Authority of International Application No. PCT/IB2018/055932, dated Jan. 24, 2019, 9 pages. |
International Preliminary Report of Patentability of International Application No. PCT/IB2018/055932, dated Jan. 21, 2020, 10 pages. |
Number | Date | Country | |
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20200232234 A1 | Jul 2020 | US |