The present invention relates to an electrolytically acting doctor blade for pickling and cleaning curved metal surfaces, i.e., to the conformation of a doctor blade which, by applying the known electrolytic action to pickle or clean metal surfaces by means of an electrolytic solution suitable to the surface being treated and to the type of deposit to be removed, allows to perform said treatment on curved surfaces, whether they are convex, i.e., with the doctor blade having a concavity, or concave, i.e., with the doctor blade having a convexity adapted to the curvature of the surface being treated.
The prior art includes rectilinear doctor blades used for electrolytically pickling the metal surfaces to be treated, which are comprised of a basically rigid body of the doctor blade so as to act on the convex surface in a limited area of the length of the edge of the doctor blade itself. Moreover, such rectilinear doctor blades, when used on concave surfaces to be treated, can operate only by arranging the direction of the edge of the doctor blade parallel to the generatrix of the concave or convex curved surface. Actually, this electrolytic pickling operation is performed for the external cleaning, i.e., of the convex cylindrical surface, or the internal one, i.e., of the concave cylindrical surface, of tanks, reservoirs, containers and the like for liquids of a variety of food and non-food stuff, where said surfaces require a careful removal of deposits, dirt, scales or patinas, both internal and external, which with use are formed on the metal surface of the tanks, reservoirs and containers themselves.
The aforementioned doctor blades are used by connecting the body of the doctor blade, or electrode, to one end of the electric circuit for initiating the pickling electrolytic action, and the other electric end being connected or placed in electric contact with the surface to be treated. A pad, made of a woven material resistant to the heat generated during the treatment, generally connected and movable together with the body of the doctor blade itself, which is soaked in an electrolytic solution suitable to the surface being treated and the type of scale, dirt, patina or deposit to remove, is interposed between the doctor blade and the surface. The electrolytic solution can soak the pad by submerging it or by being supplied with a pump and a tube for feeding the solution from a reservoir connected or attached to the electric apparatus providing supply to the pickling circuit of the doctor blade.
Therefore, in the background art there are no known doctor blades which, by combining the aforementioned features required for doctor blades which are suitable and used in the electrolytic pickling of metal surfaces, show features of adaptability to the surfaces with curvatures to be treated, to operate on a treatment surface or face corresponding to the length of the doctor blade itself, making it practically usable by the user both as a doctor blade to be used with a manual handle and as a doctor blade to be used at the end of a swinging rod, which the user takes up to reach more easily areas which are far from his working point on the surface being treated.
In the art, in the field of general surface cleaning doctor blades, a doctor blade with such a conformation as to make the rubber edge, in contact with the surface being treated, flexible and deformable when contacting the curved surface upon which the user drags it is known from document US 2002/100135 A1. It is provided with an end of the rubber edge in which there are angles of inclination in the upper part of the edge towards the attachment to the gripping handle of the doctor blade itself: these angles make the end itself of the doctor blade pliable, either at one end or at the opposite end, thus allowing the adaptation of the edge to a concave surface being treated, i.e., making the edge convex; alternatively, the said edge is made with a certain concavity, at the middle part of the edge itself, so as to facilitate the concave conformation of the edge of the doctor blade, also centrally exploiting the flexibility of the rubber edge, and to allow the doctor blade to operate on convex surfaces to be treated.
In fact, the main limitation of the prior art solution described herein is that the doctor blade is not intended for any electrolytic pickling treatment, therefore it does not suggest any means for transforming a doctor blade known in the art of metal surface electrolytic pickling with a structure and/or conformation replacing the rubber edge with the pad soaked in the electrolytic solution required for the metal surface picking treatment, implementing the electrolytic activation of the pickling of the surface involved in the treatment.
Such prior art may be significantly improved as to the possibility of providing an electrolytically acting doctor blade for pickling and cleaning curved metal surfaces, which overcomes the aforementioned limitations of the background art.
Therefore, the technical problem underlying the present invention is to provide an electrolytically acting doctor blade for pickling and cleaning curved metal surfaces which enables the curvature of the doctor blade, while maintaining the presence of the electrode, as in the rectilinear doctor blade known in the art, and of the pad interposed between the electrode and the surface being treated.
An object inherent in the above technical problem is to provide a doctor blade having a deformable structure in such a way that the concave or convex conformation may be achieved in a rapid, simple and reversible manner.
A further and not least object of the present invention is to provide the possibility of replacing the electrode in the doctor blade having a deformable structure in a quick and simple manner and/or the single pad mounted thereon.
This problem is solved, according to the present invention, by an electrolytically acting doctor blade for pickling and cleaning curved metal surfaces comprising an electrode made with a metal wire around which a pad made of a felt-like absorbent plastic material, resistant to high temperatures and to the chemicals contained in the electrolytic solution used, is wrapped; gripping means of the doctor blade on the electrode over the length of the face of the doctor blade; electrical connection of the ends of the metal wire by means of a power supply metal cable to initiate the electrolytic action; characterised in that the gripping means of the doctor blade on the electrode are connected to each other by the means placed alongside, in which the connection section, in the deformable body of the doctor blade which has been made pliable, is oriented towards the face of the doctor blade; a push or pull mechanism acts on the ends of the doctor blade and, to obtain a reaction, with a middle part of the mechanism, which is connected to the middle part of the body of the doctor blade, deforms the face of the doctor blade from rectilinear into the arched, convex or concave conformation, depending on the pull or push on the ends of the doctor blade, with respect to the middle part of the deformable body of the doctor blade, exerted by the said mechanism.
In a further constructive form, the push or pull mechanism is placed in the middle of the doctor blade and connected thereto, and has a rail in which a slider is made movable in the push or pull mechanism aligned with the rail; the slider is connected to each of the two ends of the doctor blade by means of rods having a predetermined length.
Furthermore, in an improved constructive form, the slider of the push or pull mechanism is actuated by a screw mechanism with a manual gripping member in a position opposite to the connection between the rail of the slider and the middle part of the doctor blade.
Furthermore, in a specific and preferred embodiment, a handle of the doctor blade is connected to the aforementioned rail of the slider and has a metal cable for the electrical connection to the said metal wire of the electrode.
Moreover, in a further alternative constructive form, if there is an inner pipe for feeding the electrolytic solution in the electrode, on at least one end of the doctor blade there is a connection between the inner pipe and a pipe for supplying the electrolytic solution.
Furthermore, in a specific improved embodiment, at both ends of the doctor blade, a terminal is provided to connect the end of the metal wire of the electrode to the electrical connection metal cable in at least one of them; from one end to the other of the doctor blade, there is an electrical connection metal cable acting as a U-bolt between the said terminals.
Also, in a further advantageous constructive form, the gripping means of the doctor blade are tightened onto the electrode and have gripping teeth on the dorsal end of the electrode.
Furthermore, in an alternative constructive form, a carbon fibre braid in contact with the metal wire of the electrode and the inner surface of the pad is interposed between the pad and the metal wire of the electrode.
Finally, instead of the preceding alternative constructive form, graphite elements, which are tightened onto the metal wire of the electrode and in contact with the inner surface of the pad, are interposed between the pad and the metal wire of the electrode.
Further features and advantages of the present invention, in the production of an electrolytically acting doctor blade for pickling and cleaning curved metal surfaces, will be apparent from the following description of some constructive forms and embodiments, given by way of non-limiting example, with reference to the eight attached drawings.
The deformable body 3 of the doctor blade 1 is made by tightening the clamping elements 4 placed side by side and joined, in the direction F of the face of the doctor blade, by connections 11 between upper clamping elements 5 and also between lower clamping elements 6, so as to achieve an increased pliability of the material forming the said clamping elements, concentrated in such connections 11, tightening means 12, acting between the said upper and lower clamping elements, which, when tightened, grab the dorsal end 13 of the deformable electrode 2 by means of teeth 14 on the outer surface of the pad 7 of such dorsal end.
A metal cable 16 for the electrical connection to the electrode and a pipe 17 for supplying the electrolytic solution to the doctor blade come out from the handle 15 of the doctor blade 1. In the end clamping elements 4 of the face of the doctor blade 1, there are an electrical connection terminal 18 at each end, for supplying power to the metal wire 8, and, at least at one end, a connection 19 between the supplying pipe 17 and the inner pipe 10 for feeding the electrolytic solution into the pad.
The doctor blade 1 is deformed to form a convex curvature, as shown in
In
A further constructive form, shown in
In the described constructive forms of the deformable electrode, the metal wire 8, 32 is advantageously made of nickel, and the pads 7, 30 are made from a felt-like fabric made of a heat-resistant plastic material produced during the treatment and under the action of the chemicals present in the electrolytic solution used. Said plastic material is typically known as PEEK, the trade name of polyetheretherketone, or also as ZYLON, the trade name with the most suitable thickness of the pad in relation to the pickling effect to be achieved on the metal surface being treated.
The doctor blade according to the invention is used as described for the adjustment of the curvature of the doctor blade 1 by acting on the position of the slider 20 and of the ends 25 of the doctor blade with respect to the middle part of the doctor blade which is connected with the rail 21. After a deformable electrode has been mounted, the doctor blade may be moistened with the electrolytic solution fed into the deformable electrode through the pipe 10 and the holes 29 which it has in the section in contact with the pad 7 or 30. The doctor blade may also be equipped with non-deformable electrodes, but this does not diminish its innovative characteristics, this being a transient effect in that, as visible and manageable, the arched conformation of the doctor blade is one potential use, but the doctor blade 1 may still be used with the rectilinear face F for treating flat surfaces.
Besides, the presence of the pipe 10 for feeding the electrolytic solution is also optional. Actually, a fixed or deformable electrode 2, 26 or 34 may be made without having the pipe 10 for feeding the electrolytic solution: to exploit the electrolytic pickling action, the operator will have to dip the pad of the doctor blade in use in a tray or bucket, not shown, to cause the pad 7 or 30 itself to absorb the amount of electrolytic solution required to make the electrolytic action itself effective.
The advantages of using an electrolytically acting doctor blade for pickling and cleaning curved metal surfaces as described mainly result from the constitutive simplicity of the deformable electrode, both when it has the pad 7 and the braid 9 and in the versions of graphite deformable electrode 26 or 34, i.e., having the clamping elements 4 or 28 distributed in the direction of the face F of the doctor blade so as to make the alignment itself of the aforementioned clamping elements deformable. By displacing the alignment position of the ends 25 of the doctor blade 1 with respect to the middle part, the push or pull mechanism on the rods 24 gives to the position of the pad the convex, linear straight or even concave shape, and vice versa. The mechanism itself may be made differently from what has been described, but still suitable for moving forward (push) or backward (pull) the ends of the rods 24 connected to the slider sliding in the rail 21. The flexibility and deformability of the pad 7 or 30 allows the outer surface of the pad to achieve the required curvature of the face F of the doctor blade. In other words, the advantage that can be obtained is achieving the versatility of the face of the doctor blade 1 in adapting to the curvature most suited to the surface during a pickling or cleaning treatment, whether it is convex, planar or concave.
Obviously, a person skilled in the art, in order to satisfy specific and contingent requirements, may make numerous modifications to an electrolytically acting doctor blade for pickling and cleaning curved metal surfaces, as described above, by the way all falling within the scope of protection of the present invention as defined by the following claims.
Number | Date | Country | Kind |
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102018000007869 | Aug 2018 | IT | national |
Filing Document | Filing Date | Country | Kind |
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PCT/IT2019/050181 | 8/5/2019 | WO |
Publishing Document | Publishing Date | Country | Kind |
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WO2020/031219 | 2/13/2020 | WO | A |
Number | Name | Date | Kind |
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4609450 | Seimiya | Sep 1986 | A |
20120006691 | Luo | Jan 2012 | A1 |
20150014173 | Lapelosa | Jan 2015 | A1 |
Number | Date | Country | |
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20210310147 A1 | Oct 2021 | US |