• 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:
    The present invention relates to a honing or honing device for automatically applying a substantially constant and uniform pressure of an abrasive hard component to a continuously moving metal strip surface (6) for visual inspection of defects. comprising: - a main frame (1) supporting at least one carriage (4) supporting a hard component (5), said carriage (4) being connected to a drive system (2) for moving the hard component (5) to the surface of the metal strip (6) and to apply a controlled contact pressure thereon to the strip (6); - means for moving transversely and reciprocating at a defined speed the hard component support carriage (4) with respect to the direction of continuous movement of the web (6); characterized in that the device comprises, on each side of the strip, a plurality of hard component support carriages (4) each having a stroke of a defined width and arranged at different locations with respect to the direction of travel and / or in the transverse direction of the web (6), so that a hard component support carriage (4) on one side of the web (6) has a corresponding carriage (4) disposed opposite on the other side of the web the band and so that the two carriages (4) are moved synchronously.
    公开号:BE1025816B1
    申请号:E2017/5080
    申请日:2017-02-08
    公开日:2019-11-18
    发明作者:Michel Dubois
    申请人:Cockerill Maintenance & Ingenierie S.A.;
    IPC主号:
    专利说明:

    DEVICE FOR DETECTING DEFECTS IN STRIPS
    FIELD OF THE INVENTION The present invention relates to an industrial honing (or lapping) device and method intended to reveal defects on strips as part of a visual inspection. In metalworking, honing or lapping consists of machining a surface by rubbing an abrasive stone against it.
    The device and method of the invention are particularly intended for continuous production lines in which the time available for honing is very limited.
    BACKGROUND OF THE INVENTION AND PRIOR ART [0003] The validation of the quality of a surface, in particular in the case of exposed automotive steel sheets, requires specific procedures to highlight possible faults (rolling marks , splinters, bumps, small dirt, spray lines, oxidation, etc.). The current and well-known practice, called the honing procedure, consists in sliding or rubbing a flat stone with a defined pressure on the surface of the sheet. In this operation, all the parts which are either above or below the average surface are rubbed with a pressure different from the rest, leading to a different gloss. Consequently, visual detection is much easier thanks to this variation in contrast when the surface is under correct lighting.
    An example of the effect of rubbing friction is shown in FIG. 1 and in FIG. 2. FIG. 1 refers to an initial surface which includes hollows 101 and bumps 102. When this surface is lit, its appearance seems fairly uniform. During the honing procedure in which the dimensions of the stone are much larger than the distance between the bumps and the hollows and much larger than the size of the bumps and the hollows, the bumps will be abraded, with the possible formation of numerous scratches , while the hollows will not be touched or reached by the stone. Consequently, when this surface is placed under appropriate lighting, the reflection of the incident rays of light 103 will lead to a variation in the brightness of the surface. Generally, the abraded bumps 102 will appear duller than the average surface, while the hollows will be brighter.
    It is also well known that in the treatment of steel, and particularly in continuous galvanizing lines, the sources of defects are
    2017/5080
    BE2017 / 5080 numerous and may be present on each side of a steel sheet. Among the various sources of defects, the presence of dross or an irregular surface on a deflection roller of the treatment line is known to create small indentations in the surface by a drawing effect from the irregular surface of the roller. . The peculiarity of such a defect is that it is periodic. When the distance between two successive identical faults can be measured, the diameter of the roller responsible for them can easily be identified. Therefore, the honing procedure as described above should be carried out not only over the entire width of the steel sheet, which can reach 2 meters, but also over a length which corresponds to at least the largest circumference of roller in the processing line, which means about 5 meters in practice for current line technology.
    Current practice is to perform the honing procedure at most for each coil, but sometimes less often, and this depending on the requirements of the client. It should also be done on each side of the product at least for the most critical surfaces.
    This operation is, conventionally, carried out manually by an operator on the stationary strip or stopped in an inspection cage. This implies that in addition to a large area to be rubbed with the stone (usually 5 to 10 square meters on each side), the time available is limited due to a limited amount of strip length available in the accumulator before the inspection cage which must keep the processing speed constant when the strip is stopped for inspection. In practice, the time available is around 1 minute, depending on the model of the line.
    The manual operation of the prior art is known to have a large number of drawbacks:
    - operation quite painful for the operator in charge of it;
    - non-reproducible procedure from one reel to another;
    - No measurement available of the contact pressure, while it is known that the pressure applied by the stone on the surface more or less reveals the defects;
    - safety problems since the operator is in contact with the belt which can move accidentally;
    - inability to perform the honing on both sides of the strip in the time available by a single operator;
    - difficulty for an operator to perform the honing over the entire width of the strip of material 2 meters wide when the pass line is in the position
    2017/5080
    BE2017 / 5080 horizontal. This is due to the difficulty of rubbing the stone from one edge to the other due to the limited length of the arms of human operators.
    Therefore, it is obvious that an automatic system would be very advantageous since all of the above-mentioned problems could be solved with it.
    Document KR 2003-0077104 A discloses an apparatus for inspecting the surface of a steel sheet, provided for simply and precisely inspecting fine roller marks and foreign matter transferred to the surface of the sheet. steel by rubbing the steel sheet so that roughness is formed on the surface of the sheet when processing the sheet in one direction from the unwinder. This apparatus comprises a block of sand which is capable of moving back and forth in a transverse direction of the strip with a homogeneous pressure of the hard component applied to the strip supported by a system of rollers. This device is not suitable for use in strip lines of arbitrary width.
    Document WO 2010/049596 A1 describes a method and a device for lapping a suspended part of at least one side of a metal strip of arbitrary width and in continuous movement, allowing lapping free of artifacts and automated. The device comprises: means for vertically positioning an abrasive element at the surface of said strip, means for horizontally moving the abrasive element transversely to the movement of the strip, said means being able to be coupled to the vertical positioning means and being capable to move back and forth from one edge to the other of the strip, a first means allowing the application of uniform pressure to a suspended part of the moving strip and being coupled to a second means allowing the adjustment of said pressure according to the longitudinal tension of the suspended part of the strip.
    The honing surface being generally chosen so as to cover the maximum bandwidth and the greatest length of cyclic defect, for example the perimeter of the largest roller, this practically does not allow the honing of more than 2 to 3 square meters using a single stone in the time allocated by the upstream tape accumulator.
    In addition, the above technology does not allow honing on both sides of the strip. In addition, with irregular bands, scratches or damage to the stone surface may occur due to the edges of the stationary stone.
    Finally, correlating the transverse speed of the stone with the speed of movement of the strip, as recommended in this document, is not appropriate since the kinematics is only determined by the time available for the
    2017/5080
    BE2017 / 5080 running-in. In addition, adopting too high a speed is contrary to good manual practice currently accepted.
    AIMS OF THE INVENTION The present invention aims to provide a honing system and procedure making it possible to automatically treat, in an industrial strip processing line, and in a controlled manner, a determined area of a strip, on both sides of it, for a determined time, in a vertical or horizontal pass line.
    The present invention also aims to provide a honing machine which is not bulky.
    Brief Description of the Drawings [0016] Figure 1, already mentioned, shows an untreated surface having hollows and bumps.
    Figure 2, already mentioned, shows the surface of Figure 1 modified by the friction effect of the stone.
    Figure 3 is a top view of the embodiment of the 3-stone system according to the invention.
    Figure 4 is a side elevational view of the set of stones with a carriage and a drive device.
    Figure 5 is a cross-sectional view of a preferred embodiment for a double-sided honing system according to the invention, with a main frame and an overall drive system.
    SUMMARY OF THE INVENTION The present invention relates to a mechanical honing device or installation which can be easily implemented in the inspection section of the continuous processing line for a strip and particularly for a steel strip. The invention also relates to a honing procedure on both sides of the strip, both under control and in a reproducible manner, in less than 2 minutes, preferably in less than 1 minute, for a total rubbed surface at least between 1 and 5 square meters per side. The invention can however be used on one side only if necessary.
    The honing or lapping here consists in sliding a hard material on a less hard surface in order to reveal some of the preexisting defects of the surface.
    2017/5080
    BE2017 / 5080 by modifying the reflection of the light thereof after the hard material has rubbed the surface with a defined pressure.
    More specifically, a first aspect of the present invention relates to a honing or lapping device for automatically applying an essentially constant and uniform pressure of a hard abrasive component to a continuously moving metal strip surface, in order to visual inspection of faults, including:
    a main frame supporting at least one carriage supporting a hard component, said carriage being connected to a drive system for moving the hard component towards the metal strip and for applying a controlled contact pressure of the latter on the surface of the metal strip;
    - Means for transversely moving back and forth at a defined speed the hard component support carriage relative to the direction of continuous movement of the strip;
    wherein the device comprises, on each side of the strip, a plurality of hard component support carriages each having a stroke of a defined width and arranged at different locations with respect to the direction of movement and / or the transverse direction of the strip, so that each hard component support carriage located on one side of the strip has a corresponding carriage arranged opposite on the other side of the strip and so that the two carriages are moved synchronously.
    According to preferred embodiments, the device also comprises at least one of the following characteristics or an appropriate combination of these:
    - the hard component consists of at least two parts of any suitable grinding surface such as stone, ceramic, abrasive polymer or emery paper, the different parts of the hard component possibly not having the same size or the same shape;
    - The device comprises from 2 to 5 hard components per side of the strip;
    - the carriage supporting a hard component is coupled to the drive system with a pivoting part allowing the self-adjustment of the hard surface relative to the band, preferably a ball joint, a spring suspension system or a rubber flexible ;
    - the drive system for moving the hard component towards the surface of the metal strip and moving it away from it as well as for applying a controlled contact pressure to the surface of the strip is a screw jack, a hydraulic jack , a pneumatic cylinder or a set of pinion and rack gears;
    2017/5080
    BE2017 / 5080
    - the carriage is provided with a position or edge sensor;
    - the device is controlled by a computer or by a programmable controller;
    - The device has a size less than 2 meters in a direction of movement of the strip, preferably less than 1 meter;
    - The device comprises a main chassis having a "C" or "O" shape having at least one main beam on each side of the strip to support the carriages with their hard components and their drive systems;
    - At least one beam of the main chassis in the shape of a "C" or in the shape of an "O" is arranged to be translated, turned out of the pass line of the strip to a standby position of the device;
    - in the case of a main chassis in the shape of a "C", the beams can be turned vertically according to a "V" opening;
    - The device can be arranged for honing a part of the metal strip in vertical scrolling, in horizontal scrolling or in oblique scrolling;
    - The means for transversely moving back and forth at a defined speed the hard component support carriages relative to the direction of continuous movement of the strip comprises ball screws or guide rails;
    the means for transversely moving back and forth at a defined speed the hard component support carriage with respect to the direction of continuous movement of the strip is arranged so as to allow the driving of each carriage separately, for example using a belt, a timing belt, a cable or a rack. A second aspect of the present invention relates to a method for honing or lapping a metal strip surface moving continuously at low speed, for the visual inspection of defects, by means of the device according to the invention. any of the preceding claims, comprising the steps:
    - Reducing the speed of movement of the strip from a standard speed to a value between 1 and 20 meters per minute, and preferably between 10 and 15 meters per minute;
    - movement of the main chassis supporting the carriages from a standby position to a start work position;
    - for each carriage, moving the hard components downwards to bring them into contact with the strip using the respective drive systems;
    - performing the honing work by moving the carriages in a controllable manner transversely with respect to the movement of the strip, until a desired stony part of the strip is obtained;
    2017/5080
    BE2017 / 5080
    - for each carriage, moving the hard components upwards to move the hard component away from the strip using the respective drive systems;
    - displacement of the main chassis supporting the carriages from the working position to the standby position;
    - possible execution, in the standby position, of an automatic cleaning operation by rubbing the hard components with a brush or a non-woven material;
    - a re-increase in the speed of movement of the tape to a standard speed.
    The device of the invention has a length of less than 2 meters and preferably less than 1 meter, which allows easy implementation in existing lines. It can be used on horizontal and vertical pass lines with a preference for a vertical pass line.
    The device consists of different parts as will be explained in detail below, each part having a dedicated function in order to uniformly rub a stone with a defined pressure across a band moving slowly, generally between 1 and 20 meters per minute (mpm), but preferably, and in practice, between 10 and 15 mpm, to cover the total length of the strip to be rubbed depending on the time made available by the output accumulator and the line speed of the processing section.
    The set of stones according to the invention is shown in Figure 4. A stone 5, which can be chosen by the user according to needs, will be fixed on a steel or aluminum plate, the carriage 4 will be connected to the shaft of a pneumatic cylinder 2 by means of a rotary device 3. If necessary, several stones can be fixed on the plate 4 to cover the desired surface.
    The pneumatic cylinder 2 performs the lifting function to allow the stone to come above the strip without touching the edges of the strip and the rotary self-adjusting device 3 has the function of ensuring that the stone will touch the strip over its entire surface even if the strip and the cylinder are not perfectly perpendicular, a frequent situation which may be related to the flatness of the strip at this point. This also helps prevent an uneven band from being scratched by the edges of the stone (s). The pressure between the stone and the strip is guaranteed by an adjustable pneumatic system. This allows the contact pressure to be modified in accordance with the specific requirements of the user or with a specific product to be ground (effect of the steel grade, thickness, etc.).
    2017/5080
    BE2017 / 5080 The automatic cleaning operation carried out by rubbing the hard components with a brush or a non-woven material can also be carried out just before or after the honing operation.
    According to Figure 3 and Figure 4, the device of the invention has a main frame to support the complete equipment, from 1 to 5, and preferably from 2 to 3 stones 5 per side, a system for moving the stones transversely 12 relative to the axis of the line of each stone 5, fixed on the carriage 4. A system 2, for example a pneumatic cylinder, is used to move the stone and its plate upwards and towards the bottom as well as to control the pressure applied between the band and the stone.
    The upper and lower stones relative to the two sides of the strip will face each other while moving synchronously to avoid any deflection of the strip when the pressure is applied. In this regard, the present invention provides an alternative solution to document WO 2010/049596 in the case where the honing is carried out on a suspended part of the strip. In the latter case, special means were provided in order to apply a variable pressure of the honing elements according to the longitudinal tension of the strip.
    Description of preferred embodiments of the invention According to FIG. 3, the strip 6 moves in the conventional direction of movement (see the arrow) at a speed preferably between 10 and 15 mpm, while the device for the invention can be used in a wider range, from 1 to 20 mpm. For example, the lower tape speed will be used when a special surface examination is to be performed. However, when such a low speed is used, it is not expected that the entire surface of 5 meters in length can be ground due to the lines currently available with conventional strip processing speeds for sheet steel. .
    The main frame 1 supports the sets of upper and lower stones with their displacement system. This main frame 1 can have an “O” or “C” shape (see FIG. 5). In the "O" shape, in addition to the support beams parallel to the strip and located respectively opposite each side of the strip, there is a perpendicular beam connecting said parallel beams on each lateral edge, while in the form at “C”, this perpendicular beam is only present on one edge of the strip. One or more parts of the main chassis 1 may move. For example, at least one of the beams of the main frame 1 can rotate
    2017/5080
    BE2017 / 5080 or move horizontally or vertically to increase the distance to the belt and / or to facilitate maintenance.
    The assembly of the cylinder 2, of the rotary device 3, of the carriage 4 and of the stone 5 is connected to a guide rail 12. The carriages 4 are moved individually by a mechanical system such as an electric motor, a pneumatic cylinder or similar system 9. The drive system has the appropriate equipment to identify the position of the carriage along its transverse movement.
    Since the total surface of the strip must be covered, more than one set of rail carriages and drive device must be used for each side or face of the strip. The exact number, typically between 2 and 4, must be determined in order to meet the requirements in the time available to perform the operation which include a low belt speed, the extent of surface to be ground and the speed of movement of the Pierre. According to the invention, it is advantageous to drive each carriage separately, but always by synchronizing the corresponding sets of upper and lower stones.
    An example of the device of the invention shown in Figure 5 is a device preferably dedicated to a galvanizing line treatment for a strip of 1850 mm wide with a maximum processing speed of 180 mpm. Calculations have shown that a set of 3 stones must be installed on each side of the strip to allow honing from a length of 5 meters to an entire width (maximum) in less than 1 minute while the strip moves in the device at a speed between 10 and 15 mpm. The sets of stones can be arranged in a staggered fashion (see FIG. 3), that is to say in a repeating arrangement of elements, line by line, in which a line is offset by half a element relative to the previous or next line.
    In this particular embodiment, three separate rails comprising a drive and control system are used per side. The exact course of each stone will be adjusted in accordance with the exact width of the stone band. For example, in this embodiment, the central stone set will have a stroke of 800 mm, while the two external stone sets will each have a stroke of 550 mm, with an overlap between the above-mentioned strokes.
    Different types and sizes of stones can be used according to the invention.
    However, the size of the stone is typically between 10 x 100 mm and 100 x 200 mm. This is supposed to be the best compromise between availability, weight, surface to be covered and kinetic analysis of the equipment.
    2017/5080
    BE2017 / 5080 When the system is not used, the set of 3 stones will advantageously wait on one end of the main chassis, outside the pass line of the strip. This will allow, if necessary, cleaning and maintenance while guaranteeing operator safety.
    When you want to apply the honing procedure, the line speed in this section will first and preferably be reduced to the target value of about 10 to 15 mpm. Then the stone carts will be moved to their starting position in front of the strip. The stones are lowered towards the band on each side of the band, and contact pressure is applied. The movement of movement of each carriage can now begin. It is controlled by a computer or similar device, by means of a position sensor implemented in the drive system. After obtaining the desired stone length, the stones are moved upwards, the line speed can be increased for up to the processing speed as required. Finally, the stones return to their waiting position.
    The set of stones is made so that it can be easily replaced during maintenance but also in operation. The main chassis and furthermore the entire system could possibly be designed to allow transverse movement so as to place the entire system off the line, for example by mounting the chassis supporting the honing equipment on guide rollers.
    2017/5080
    BE2017 / 5080
    Reference symbols
    12 main frame pneumatic cylinder 5 3 rotary device (ball joint)4 cart5 Pierre6 sheet metal7 ballscrew 10 8 edge sensor9 engine10 coupler11 support12 guide rail 15 101 surface trough102 surface bump103 rays of light
    2017/5080
    权利要求:
    Claims (15)
    [1]
    1. A honing or lapping device for automatically applying an essentially constant and uniform pressure of a hard abrasive component to a continuously moving metal strip surface (6) for the visual inspection of defects, comprising:
    a main chassis (1) supporting at least one carriage (4) supporting a hard component (5), said carriage (4) being connected to a drive system (2) for moving the hard component (5) towards the strip metallic (6) and for applying a controlled contact pressure thereof on the surface of the metallic strip (6);
    - Means for transversely moving back and forth at a defined speed the hard component support carriage (4) relative to the direction of continuous movement of the strip (6);
    characterized in that the device comprises, on each side of the strip, a plurality of hard component support carriages (4) each having a stroke of a defined width and arranged at different locations with respect to the direction of movement and / or in the transverse direction of the strip (6), so that each hard component support carriage (4) located on one side of the strip (6) has a corresponding carriage (4) arranged opposite on the other side of the strip and so that the two carriages (4) are moved synchronously.
    [2]
    2. A honing device according to claim 1, characterized in that the hard component (5) consists of at least two parts of stone, ceramic, abrasive polymer or emery paper.
    [3]
    3. A honing device according to claim 1, characterized in that it comprises from 2 to 5 hard components (5) per side of the strip (6).
    [4]
    4. honing device according to claim 1, characterized in that the carriage (4) supporting a hard component (5) is coupled to the drive system (2) with a pivoting part (3) allowing the self-adjustment of the hard surface with respect to the strip (6), preferably a ball joint, a spring suspension system or a flexible rubber.
    [5]
    5. honing device according to claim 1, characterized in that the drive system (2) for moving the hard component (5) towards the surface of the metal strip (6) and away from it as well as to apply contact pressure
    2017/5080
    13 BE2017 / 5080 controlled on the surface of the belt is a screw jack, a hydraulic jack, a pneumatic jack or a set of pinion and rack gears.
    [6]
    6. Honing device according to claim 1, characterized in that the carriage (4) is provided with a position or edge sensor (8).
    [7]
    7. honing device according to claim 1, characterized in that it is controlled by a computer or by a programmable controller.
    [8]
    8. A honing device according to claim 1, characterized in that it has a size less than 2 meters in a direction of movement of the strip, preferably less than 1 meter.
    [9]
    9. A honing device according to claim 1, comprising a main frame (1) having the shape of a "C" or an "O" having at least one main beam on each side of the strip for supporting the carriages ( 4) with their hard components (5) and their drive systems (2).
    [10]
    10. A honing device according to claim 9, characterized in that at least one beam of the main chassis (1) in the shape of a "C" or "O" is arranged to be translated or turned out of the pass line of the tape to a standby position of the device.
    [11]
    11. A honing device according to claim 10, characterized in that, in the case of a main frame (1) in the form of "C", the beams can be rotated vertically to obtain an opening in "V".
    [12]
    12. A honing device according to claim 1, characterized in that it can be arranged for honing part of the metal strip in vertical scrolling, in horizontal scrolling or in oblique scrolling.
    [13]
    13. honing device according to claim 1, characterized in that the means for moving transversely and back and forth at a defined speed the hard component support carriages (4) relative to the direction of continuous movement of the strip (6) includes ball screws or guide rails.
    [14]
    14. A honing device according to claim 1, characterized in that the means for moving transversely and back and forth at a defined speed the hard component support carriage (4) relative to the direction of continuous movement of the strip (6) is arranged so as to allow the drive of each carriage (4) separately, preferably using a belt, a toothed belt, a cable or a rack.
    [15]
    15. Method for honing or lapping a metal strip surface (6) moving continuously at low speed, for the visual inspection of defects, at
    2017/5080
    BE2017 / 5080 means of the device according to any one of the preceding claims, comprising the steps:
    - Reducing the speed of movement of the strip from a standard speed to a value between 1 and 20 meters per minute, and preferably between 10 and 15 meters per minute;
    - movement of the main frame (1) supporting the carriages (4) from a standby position to a position for starting work;
    - For each carriage (4), displacement of the hard components (5) downwards to bring them into contact with the strip (6) using the respective drive systems (2);
    - Execution of the honing work by controllably moving the carriages (4) transversely with respect to the movement of the strip (6), until a desired stoned part of the strip is obtained;
    - For each carriage, moving the hard components (5) upwards to move the hard component (5) away from the strip (6) using the respective drive systems (2);
    - movement of the main chassis (1) supporting the carriages (4) from the working position to the standby position;
    - possible execution, in the standby position, of an automatic cleaning operation by rubbing the hard components with a brush or a non-woven material;
    - a re-increase in the speed of movement of the strip (6) to a standard speed.
    类似技术:
    公开号 | 公开日 | 专利标题
    EP0329237B1|1992-11-11|Silk screen printing machine
    FR2583313A1|1986-12-19|METHOD AND APPARATUS FOR COATING A CONTINUOUS FLOOR BY SCRATCHING
    BE1025816B1|2019-11-18|DEVICE FOR DETECTING DEFECTS IN BANDS
    FR2482890A1|1981-11-27|BRUNNING MACHINE GEARS
    EP0885389A1|1998-12-23|Apparatus for acoustic flaw detection in a moving strip
    EP1336454A1|2003-08-20|Method and apparatus using abrasive belt for superfinishing workpiece bearing surfaces, in particular for the surperfinishing of cam surface on a camshaft
    FR2897555A1|2007-08-24|MACHINE AND METHOD FOR MARKING SHAPE PIECES
    EP1552892A1|2005-07-13|Machine for straightening metal bands
    EP2134480A1|2009-12-23|Method for cleaning a rolling mill roll and corresponding device
    FR3094907A1|2020-10-16|Abrasion process
    BE1017060A3|2008-01-08|
    FR2898881A1|2007-09-28|METHOD AND INSTALLATION FOR INSPECTING A WOUND STRIP
    EP0846525A1|1998-06-10|Method for edge grinding of glass plates
    EP0038729B1|1984-06-27|Apparatus for applying a coating layer to a continuously travelling web
    EP0915747B1|2001-12-12|Metal part having external surface with particular profile, polishing method for its production and device for implementing the method
    BE1027608B1|2021-09-09|MACHINE AND PROCESS FOR SHAPING PASSONS
    EP2349641A1|2011-08-03|Method and device for honing metal strip of arbitrary width in continuous motion
    EP0322325B1|1992-04-22|Machine for working up leather
    FR3068457B1|2019-08-16|METHOD FOR DETERMINING A DIMENSION BETWEEN THE BACK AND THE SHARP WIRE OF A VIBRATING BLADE MOUNTED ON A CUTTING TOOL
    EP3034306A1|2016-06-22|Assembly for pretreatment of an object intended for being printed with at least one ink
    BE1018153A3|2010-06-01|Dough rolling apparatus, has upper strand moved to front edge of plate rolling machine and fixed on plate, and front plate of reel oscillating on pivotal parts, where posterior part of plate rolling machine is pivoted on hinge
    FR2806941A1|2001-10-05|Cold laminated very thin steel strip oil removal method, for drying cold laminated steel strip, involves that pressure zones are displaced along a cylinder during the strip drying process
    BE679638A|1966-10-03|
    FR3095140A1|2020-10-23|ROLLING ROLLER CYLINDER HANDLING DEVICE
    FR3071180A1|2019-03-22|RECTIFICATION DEVICE.
    同族专利:
    公开号 | 公开日
    BE1025816A1|2019-07-16|
    EP3208596A1|2017-08-23|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    GB709833A|1950-12-14|1954-06-02|Glaceries Sambre Sa|Improved process and means for moving a continuous sheet of glass in glass grinding and/or polishing plants|
    US2705853A|1950-12-14|1955-04-12|Glaceries Sambre Sa|Means for moving a continuous sheet of glass in glass surfacing plants|
    US3006116A|1959-02-17|1961-10-31|Lloyd H Knost|Apparatus for honing hard surfaced materials|
    US3107456A|1961-09-14|1963-10-22|Libbey Owens Ford Glass Co|Apparatus for surfacing glass|
    US4421624A|1980-03-25|1983-12-20|Hitachi Shipbuilding & Engineering Co., Ltd.|Apparatus for continuously processing a band-shape material|
    US6322426B1|1998-10-14|2001-11-27|Nissin Unyu Kogyo Co., Ltd.|Method for mirror process of external surface of long sized metal|
    US20070099546A1|2003-12-10|2007-05-03|Poul Erik Jespersen|Grinding apparatus for treatment of a surface|
    US20080064304A1|2005-03-15|2008-03-13|Kiyoshi Iga|Grinding Apparatus And Grinding System|
    US20110053461A1|2008-03-31|2011-03-03|Yukinori Masuda|Polishing apparatus and polishing method|
    US20110318991A1|2008-10-27|2011-12-29|Siemens Vai Metals Technologies Sas|Method and device for honing metal strips of arbitrary width in continuous motion|
    KR20030077104A|2002-03-25|2003-10-01|주식회사 포스코|An apparatus for inspecting the surface of strip|
    法律状态:
    2019-12-16| FG| Patent granted|Effective date: 20191118 |
    2020-10-28| MM| Lapsed because of non-payment of the annual fee|Effective date: 20200229 |
    优先权:
    申请号 | 申请日 | 专利标题
    EP16156751.6A|EP3208596A1|2016-02-22|2016-02-22|Device for detection of defects in strips|
    EP16156751.6|2016-02-22|
    [返回顶部]