• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    Summary The invention presents a control device (300) for controlling a tool (500). The guide device is arranged to guide the tool (500) to form in a structure one or more grooves (101-104) for receiving a water insulation. In addition, an arrangement for forming a groove (101-104) in a structure is presented, and the use of the control device and the arrangement for forming a groove (101-104) in a structure.
    公开号:SE537883C2
    申请号:SE1450754
    申请日:2012-12-07
    公开日:2015-11-10
    发明作者:Mika Lokkinen;Juho Lokkinen
    申请人:Picote Oy Ltd;
    IPC主号:
    专利说明:

    FIELD OF THE INVENTION The invention relates to the renovation of a water-tight water area. In particular, the invention relates to the formation of a coupling profile to be used in connection with a water insulation.
    Previously, waterproofing of a floor drain requires many work steps, which must be carried out very carefully so that the water insulation will be reliably waterproofed. In particular, when a water insulation has been replaced in an existing floor drain, for example in connection with renovation, the old water supply must be carefully removed. The floor drain said that the new water insulation can provide a tight joint. A solution according to the state of the art is to replace the floor drain, but the procedure is costly and time consuming. Removing the old water insulation Than floor drain is also a slow process, and it is black to assess the achieved result and it remains uncertain how tat the new water insulation will be.
    OBJECT OF THE INVENTION The object of the present invention is to provide means for forming a ridge in a structure at an edge of a surface to be waterproofed to receive a water insulating agent, the structure being pine and easily coupled to the water insulation in connection with renovation.
    BRIEF DESCRIPTION OF THE INVENTION A first aspect of the invention is a control device for controlling a tool. The control device is characterized in that it comprises a foundation arranged to be connected to a fixed structure, and a guide in connection with the foundation and arranged variable in relation to the foundation, which guide is arranged to control a tool for forming in the structure one or more spar arranged to receive a water insulating agent.
    In one embodiment, the control comprises coupling means for connecting the tool to the control.
    In one embodiment, the groove to be formed comprises a wider section and a narrower section, of which the narrower section is closer to the upper surface of the structure than the wider section.
    In one embodiment, the structure is a floor drain block or part thereof. In one embodiment, the structure comprises a floor drain arrangement or a portion thereof.
    In one embodiment, the guide is arranged rotatably in relation to the foundation.
    A second aspect of the invention is an arrangement for forming a groove in a structure. The arrangement is characterized in that it comprises a tool for forming in the structure a ridge arranged to receive a water insulating means and a guide device comprising a foundation arranged connectable to a fixed structure, and a guide in connection with the foundation and arranged movably in relation to the foundation, which control is arranged to control the tool, and coupling means for coupling the tool to the control.
    In one embodiment, the control device is the control device in accordance with the first aspect of the invention.
    In one embodiment, the tool is arranged to remove material from the structure to provide a groove in the structure.
    In one embodiment, the material to be removed from the structure comprises water insulating agent.
    In one embodiment, the material to be removed from the structure comprises polymer.
    A third aspect of the invention is the use of the control device in accordance with the first aspect of the invention to form a groove in a structure for receiving a water insulating means.
    A fourth aspect of the invention is the use of the arrangement according to the second aspect of the invention to form a groove in a structure for receiving a water insulating agent.
    DETAILED DESCRIPTION OF THE INVENTION In the following, the invention is described in more detail with reference to preferred embodiments presented in the present example and to the accompanying figures, in which: Figure 1 shows a coupling profile, Figures 2a and 2b Figures 3a and 3b show a control device according to an embodiment of the invention, Figures 4a and 4b show a control device according to an embodiment of the invention in connection with a floor well arrangement, and Figures 5a and 5b show a control device according to an embodiment of the invention in connection with a floor well arrangement, wherein a tool is connected to the control device.
    Figure 1 is a cross-sectional view and a partial enlargement 110 of a coupling profile 100 for coupling a water insulation means to a structure which is coated at an edge of a surface to be waterproofed, for example to a floor drain. The coupling profile 100 comprises a groove 101 which becomes wider towards the inside of the profile forming a wider section 102 inside the groove. The shape of the coupling profile 100 is such that it can be mounted firmly and taken on the structure, for example on a floor drain block with a cylindrical or rectangular shape. In the example in the figure, the zones 103 and 104 in the coupling profile form a second groove which becomes wider in the coupling profile when the element 100 is connected to the structure. When waterproofing agent is applied to the profile element, the sealant paste penetrates into the grooves 102, 103 in the profile, and in particular into the wider sections 102, 104 of the grooves. The air in the grooves exits through openings 105, 106 in the profile. After settling, the waterproofing agent adheres to the spar walls adheres to a sealing profile that becomes thicker. Thanks to the paste which adheres to the surface of the coupling profile and in particular to the grooves in the said profile, the edge of the watering ring is made waterproof and sufficiently stable. The coupling profile is arranged for fastening to a structure, e.g. a floor well block (200 in Figures 2a and 2b) for example by welding or gluing the surface 107 and / or the surface 108 to the structure.
    The waterproofing agent can be any type of paste that is lifted by a person skilled in the art, which is used by applying waterproofing to water surfaces such as bathrooms. The material of the coupling profile 100, e.g. plastic, can be suitably selected so that on the one hand the water-insulating agent adheres to the surface and grooves of the profile and on the other hand the profile is made fixed to the structure (eg 200 in figure 2a).
    Figure 2a shows as a structure to be fastened to the profile a floor well block 200, on which a coupling profile element 100 is fixed and pine fixed.
    Figure 2b shows a cross section of the hot well block 200 in figure 2a in a situation where the floor well block 200 and the coupling profile 100 are mounted in place. The floor well block 200 with, for example, a cylindrical shape is fixed to cast concrete 202. The floor well block may also be of another shape, for example a rectangle. Attached to the floor drain block is a coupling profile 100 which is compatible with the shape of the block, e.g. annular, for example by gluing, welding or flaking another joint method which is known to a person skilled in the art 3 on the board. For example, with a roller, spatula or brush, a layer of waterproofing agent 201 is applied to the casting concrete 202 and the coupling profile. While the substance is being applied, it penetrates into the grooves 101, 103 of the coupling profile 100 also into its wider sections 102, 104. 102, 104 air pockets come out of the grooves via openings 105 and 106. When the water insulation means 201 dries, it adheres to both the cast concrete 202 and the profile 100 grooves. As a result, a waterproof joint is provided between the floor well block 200 and the casting concrete 202 by means of the water insulating agent and in a few working steps.
    Figure 3a shows a cross section of a control device 300 in accordance with an embodiment of the invention. The presented guide device is arranged for fastening in connection with the floor well by means of a foundation 306. On the foundation 306 there is a guide 302 which can be rotated in relation to the foundation. If the guide device is to acid the tool to form a groove which is other than a circle to the mold, the guide can be arranged to slide a web of desired shape by means of rails or rollers for example. In the case of a round floor drain, mounting on bearing 304 can be used between the foundation 306 and the guide 302, but the rotational movement can also be made possible by means of rollers or by using an anti-friction agent or coating on surfaces placed against each other. In addition, the guide 302 includes means 310 for coupling the tool to the guide. The tool can be connected to the opening 310, which can be e.g. gaited, wedge-shaped, coated or otherwise arranged on tool coupling. In addition to the opening, it is also possible to use other conventional coupling sets, such as clamps, screws, bolts, skis or the like.
    Figure 3b is a plan view of a control device 300 in accordance with an embodiment of the invention. From above, only the guide 302 and the coupling means 310, 312 for the tool are seen. In this case, the coupling means are threaded openings suitable for the tool, into which openings the tool can be connected by screwing.
    Figure 4a shows a cross section of a control device 300 in accordance with an embodiment of the invention connected to the floor drain. The foundation 306 is designed according to the inner surface of the floor drain in such a way that when the foundation is inserted in the floor drain, the foundation is centered in the middle of the floor drain. In this case, it is preferable that different floor drains have different foundations, so that the foundation will be attached to the floor drain at rail level and at rail height, and also centered in the middle of the floor drain. The foundation 306 may be slightly shaped and its edges may be coated with, for example, gunnnni or silicone to increase the friction between the foundation and the floor drain. The foundation may also comprise, for example, separate centering means, wherein the foundation 306 can be centered in a plurality of different floor wells. The centering can, for example, create space by means of projections in the foundation, which length of projections can be regulated, for example, by screwing or rotating a given part of the projection.
    Above the foundation 306 centered in and fixed in the floor well there is a guide 302 and in between a layer 304 which allows easy rotation of the guide 302 while the foundation 306 remains stationary. The tool coupling means 310, 312 of the control are arranged in such a way that the tool to be connected to the control is guided to a position where a groove is to be formed. The figure shows already completed spars 101-104.
    Figure 4b is a plan view of a control device 300 in accordance with an embodiment of the invention, connected to a floor drain. It can be seen from the figure how the spares are formed below the openings 310, 312 which act as coupling means for the tool. In this case, two grooves 101, 103 are interlocked inside each other, so that the openings which act as tool coupling means are at different distances from the center of the guide 302.
    Figure 5a shows a cross section of a control device 300 connected to a floor well in accordance with an embodiment of the invention, a tool 500 and a tool piece 502 connected to the control device. The tool is preferably a drill, a screwdriver, a mini-milling tool or the like, to which a rotatable piece can be connected. Preferably, the tool is battery powered, but manual and power powered devices can also be used with certain reservations. In its simplest embodiment, the piece 502 of the tool 500 may be provided with a cylindrical shaft and a ball in the spirit. The shaft and the ball are at least partially rough, uneven or toothed, so that it is possible for material to be removed from the structure 400.
    In this case, the groove is formed by inserting the tool 500 into the opening of the guide 302 while the tool piece 502 rotates, the bit 502 penetrating into the structure 400. When the tool 500 is connected to the guide 302 and the bit 502 is at suitable depth, the guide 302 is rotated a vary, whereby a groove is formed in the structure, which groove is wider in the lower part 102 than in the upper part 101. When the groove 101, 102 is completed, the tool 500 and the piece 502 can be retracted than the groove in the same place as the piece 502 was introduced into the structure, whereby the spar will have only one stable where the upper part 101 and the lower part 102 of the spar are equally wide.
    The guide device 300 can be used in the renovation of a water surface which comprises a floor drain coupling profile 100 as described above, and thus the previously provided water insulation means must be removed from the grooves of the existing coupling profile 100. Consequently, in this case, a groove is formed in the coupling profile by depositing the water-insulating agent, at least in part, in the coupling profile. In this case, the tool 500 preferably uses such a piece 502 which is not suitable for removing material constituting the structure 400 of the coupling profile 100, but it effectively removes the waterproofing agent which is softer. In this case, the coupling profile remains essentially unchanged, but the water insulation agent is removed, and the coupling profile will again have a saving for a new water insulation agent treatment. In this case, the tool 500 may use a piece 502, in the spirit of which there is a planar section of a sphere instead of a ball, as wide as the shaft, i.e. a center zone of a sphere. At least a portion of the surfaces in the spherical zone are preferably rough, uneven or toothed, so that the piece can effectively remove the waterproofing agent. A piece of this kind can be inserted into the groove filled with the watering means for bit rotation in such a way that the part which is a spherical zone to the shape is inclined to be in the direction of the narrower part of the spar, Upper part 101, 103 before insertion into the groove . Withdrawal of the piece from the created spar after removal of the water insulation agent is performed by placing the piece's spherical zone in the same way as the piece was inserted into the spar. In this case, the groove will be wider throughout the lower part 102, 104 than in the upper part 101, 103.
    The ridge 101, 102 to be formed can be of any shape raised, comprising a straight ridge, in which it is possible to mount on a watertight set, for example the edge of a cradle-to-cradle floor drain. In this case, the foundation 306 of the guide device 300 can be connected to cradles in the spirits of the groove 101, 102 to be formed, and the guide 302 rolls or slides on the foundation.
    Figure 5b is a plan view of a control device 300 connected to a floor well in accordance with an embodiment of the invention, a tool 500 being connected to the control device.
    It is obvious to a person skilled in the art that the exemplary embodiments above are somewhat simple in structure and operation for ash-making purposes. By following the model shown in this patent application, it is possible to construct different solutions using the inventive idea presented in this patent application. 7
    权利要求:
    Claims (12)
    [1]
    A guide device (300) for guiding a tool (500), may comprise that the guide device (300) comprises a foundation (306) arranged connectable to a fixed structure, and a guide (302) in connection with the foundation and arranged to be movable in relation to the foundation, which guide is arranged to guide a tool (500) for forming in the structure (400) one or more grooves (101-104) arranged to receive a water insulation.
    [2]
    A control device according to claim 1, characterized in that the guide (302) comprises coupling means (310, 312) for coupling the tool (500) to the guide (302).
    [3]
    Guide device according to claim 1, characterized in that said groove (101-104) comprises a wider section (101, 103) and a narrower section (102, 104), the narrower section of which is closer to the upper part of the structure (400). surface on the wider section.
    [4]
    Control device according to claim 1, characterized in that said structure (400) is a floor well block or a part thereof.
    [5]
    Control device according to claim 1, characterized in that said structure (400) comprises a floor drain arrangement or a part thereof.
    [6]
    6. A control device according to claim 1, characterized in that said guide (302) is arranged rotatably in relation to said foundation.
    [7]
    Arrangement for forming a ridge in a structure, not to mention that it comprises a tool (500) for forming in the structure a ridge (101-104) arranged to receive a water insulation and a guide device (300) for guiding the tool (500), which guide device (300) comprises a foundation (306) arranged connectable to a fixed structure, and a guide (302) connected to the foundation and arranged movably in relation to the foundation, which guide is arranged to guide the tool (500), and coupling means (310, 312) for coupling the tool (500) to the guide (302).
    [8]
    Arrangement according to claim 7, characterized in that said control device (300) is the control device according to any one of claims 1-6.
    [9]
    An arrangement according to claim 7, characterized in that said tool (500) is arranged to remove material from said structure 35 to form a groove in the structure. 8
    [10]
    Arrangement according to claim 9, Ica n n et ec kn at that said material comprises water insulation.
    [11]
    Use of the control device (300) according to claim 1 for forming a groove (101-104) in a structure (400) for receiving a water insulation.
    [12]
    Use of the arrangement of claim 7 to form a groove (101-104) in a structure (400) to receive a waterproofing. 9 1/100 100 200 200 th CJI at 03 Cr3 11 /;
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    同族专利:
    公开号 | 公开日
    FI125297B|2015-08-14|
    SE1450754A1|2014-06-26|
    WO2013083878A1|2013-06-13|
    FI20116255A|2013-06-10|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    US3386337A|1966-04-05|1968-06-04|Nasa Usa|Portable milling tool|
    US5304018A|1992-03-20|1994-04-19|Lavanchy Wayne N|Plunge cutting device and method for plastic pipe members such as pipe couplings, flanges, hubs, and the like|
    IT242332Y1|1996-02-09|2001-06-14|Edil Plast Srl|MODULAR AND MODULAR CHANNEL FOR THE FORMATION OF SCHOOL CHANNELS WITH WALKABLE AND / OR DRIVEABLE GRID.|
    FI103429B1|1998-03-20|1999-06-30|Muoviserres Oy|Method and arrangement for the installation of a floor drain|CN111922402B|2020-08-13|2022-02-22|惠州欣业达五金有限公司|Hardware milling device|
    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    FI20116255A|FI125297B|2011-12-09|2011-12-09|Guide device and arrangement for forming a groove|
    PCT/FI2012/051216|WO2013083878A1|2011-12-09|2012-12-07|A guiding device and an arrangement for forming a groove|
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