EP2025464A1 - Schleif-/Polierkopf - Google Patents

Schleif-/Polierkopf Download PDF

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Publication number
EP2025464A1
EP2025464A1 EP07425525A EP07425525A EP2025464A1 EP 2025464 A1 EP2025464 A1 EP 2025464A1 EP 07425525 A EP07425525 A EP 07425525A EP 07425525 A EP07425525 A EP 07425525A EP 2025464 A1 EP2025464 A1 EP 2025464A1
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EP
European Patent Office
Prior art keywords
abrasive
machining head
along
horizontal direction
strips
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Granted
Application number
EP07425525A
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English (en)
French (fr)
Other versions
EP2025464B1 (de
Inventor
Francesco Raineri
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
ENORMIS ITALIA SRL
Original Assignee
Benuzzi Marco
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Benuzzi Marco filed Critical Benuzzi Marco
Priority to EP07425525A priority Critical patent/EP2025464B1/de
Priority to PT07425525T priority patent/PT2025464E/pt
Priority to ES07425525T priority patent/ES2345848T3/es
Priority to AT07425525T priority patent/ATE470536T1/de
Priority to DE602007007079T priority patent/DE602007007079D1/de
Priority to PL07425525T priority patent/PL2025464T3/pl
Publication of EP2025464A1 publication Critical patent/EP2025464A1/de
Application granted granted Critical
Publication of EP2025464B1 publication Critical patent/EP2025464B1/de
Not-in-force legal-status Critical Current
Anticipated expiration legal-status Critical

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Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B24GRINDING; POLISHING
    • B24BMACHINES, DEVICES, OR PROCESSES FOR GRINDING OR POLISHING; DRESSING OR CONDITIONING OF ABRADING SURFACES; FEEDING OF GRINDING, POLISHING, OR LAPPING AGENTS
    • B24B13/00Machines or devices designed for grinding or polishing optical surfaces on lenses or surfaces of similar shape on other work; Accessories therefor
    • B24B13/01Specific tools, e.g. bowl-like; Production, dressing or fastening of these tools

Definitions

  • the present invention concerns a machining head for machine tools for the sanding and polishing of surfaces; in particular it concerns a sander and/or polisher head for machining curved surfaces.
  • Machine tools for polishing and/or sanding flat surfaces have been available on the market for some time now.
  • said machines are provided with means for moving machining heads designed to interact with the surface to be polished/sanded.
  • the heads are provided with one or more abrasive elements which slide over the surface being machined.
  • machining heads are circular and are rotated around their axis.
  • the machine tools move the machining head on the surface to be sanded, according to the required path. All the sanding and/or polishing phases can be performed with automatic machine tools, for example numerical control machines, with obvious positive effects in terms of machining speed, process quality and throughput.
  • the current machine tools do not permit fully automated sanding and/or polishing of curved surfaces.
  • the automatic machine tools available on the market are not as effective in machining curved surfaces as they are in machining flat surfaces.
  • the sanding and polishing of curved surfaces is still performed by skilled workers by means of manual tools such as orbital sanding machines, hand sanders, abrasive paper, etc..
  • polishing and/or sanding of curved fibreglass components is performed manually by skilled workers by means of circular or orbital sanders, with abrasive paste or abrasive paper. Polishing of curved metal sheets, for example for vehicle bodywork or for use in the building trade for the construction of curved panels, is also performed manually.
  • JP 10151557 describes a machining head for machines for the sanding and polishing of curved surfaces, for example made of vitreous material.
  • the machining head comprises a drive shaft, for transmission of the rotary movement, to which a convex supporting plate is joined having a constant radius of curvature.
  • the lower surface of the supporting plate is coated in a layer of deformable material to which a plurality of abrasive cylindrical elements are connected.
  • the layer of deformable material permits small movements of each cylindrical element along its axis.
  • the disadvantage is that the curvature of the surface to be machined and the curvature of the machining head must necessarily correspond, so that all the abrasive cylindrical elements interact with the surface being machined and remain substantially perpendicular to the surface during machining.
  • JP 9066469 describes a machining head for curved surfaces which, with respect to the solution of JP 10151557 , permits the treatment of surfaces having different and/or variable curvatures on different parts of the same surface.
  • the head comprises a drive shaft, for transmission of the rotary movement, to which a hollow supporting element is connected.
  • Abrasive elements are connected to the lower wall of the hollow supporting element, in particular they run, each along their axis, in holes purposely obtained in the bottom wall of the supporting element.
  • the hollow supporting element can be filled with a liquid which exerts a hydrostatic pressure on the upper surface of the abrasive elements.
  • a further drawback of the solution according to JP 9066469 is represented by the fact that the dynamics of the machining head are such that the abrasive elements, due to interaction with the surface to be machined, oscillate around the position of equilibrium, with evident disadvantages in terms of quality of the surface finish of the machined part.
  • the object of the present invention is to make available a machining head for machine tools for the sanding and polishing of flat and curved surfaces which effectively solves the problems of the traditional solutions, at the same time being highly accurate and versatile.
  • a further object of the present invention is to make available a machining head for sanding and/or polishing machines by means of which the configuration of the abrasive elements can be adapted, point by point, rapidly and with extreme precision, to the curvature of the surface being machined.
  • the machining head according to the present invention is used for sanding and/or polishing flat and/or curved surfaces with constant or variable curvature.
  • Said surfaces can be made of different materials, for example metal, plastic, fibreglass, glass, wood, rock, stone, marble, resins, stucco, etc..
  • the machining head comprises a main body that can be connected to an external machine tool, a plurality of abrasive elements designed to interact with the surface being machined, supported at the lower portion of the main body and which can be moved along a first vertical direction.
  • the abrasive elements are aligned along a second horizontal direction and the head comprises means for moving the abrasive elements along said second direction.
  • the main body of the machining head is designed to be connected to a machine tool with six axes (movements with six degrees of freedom), i.e. a machine able to move the head independently along six axes (three translation axes and three rotation axes), for example a CNC machine, of the type for CAD-CAM machining.
  • the abrasive elements are abrasive strips, for example made of metal, ceramic or other material with diamond, corundum etc. coating, arranged side by side, perpendicular to the second horizontal direction.
  • the abrasive elements are abrasive strips positioned on top of one another, perpendicular to the second horizontal direction, to form a pack.
  • the abrasive strips come into contact with the surface being machined, each at the relative lower end, or at the level of a portion coated with abrasive material or powders.
  • the abrasive strips move along the second perpendicular direction and remove material from the surface being machined.
  • each abrasive strip is laterally hinged in a deformable guide housed in the main body of the machining head, at the level of its lower portion.
  • the connection between each abrasive strip and the deformable guide is such that the strips can oscillate around the relative pin, with respect to the guide, when subject to stress in the two directions along the above-mentioned second direction.
  • the stress acting on the abrasive elements is generated by interaction between the free lower ends of the abrasive strips and the surface to be polished and/or sanded.
  • the end of an abrasive strip runs on the surface to be machined along the second direction, in one of the two directions, said end removes material from the surface below.
  • Movement of the abrasive strips is obtained by providing the machining head with appropriate means for controlling translation of all the abrasive strips along the second horizontal direction, alternately in the two ways.
  • the machining head comprises means for moving the abrasive strips alternately along the second direction, as will be described in detail below.
  • the deformable guide is made of a plurality of laminar plates stacked along the second horizontal direction and held together by at least one tie rod.
  • the laminar plates can be made of plastic, but are preferably made of a metallic material.
  • the abrasive strips are connected to the main body of the machining head by interposition of the laminar plates, which are also stacked perpendicularly to the second direction.
  • the tie rod is a metal cable which crosses each of said laminar plates and keeps them pressed against each other.
  • the means for controlling translation of the abrasive strips comprise a drive shaft which eccentrically engages a carriage to which the guide consisting of the laminar plates is connected.
  • the translatory movement is transmitted to the abrasive strips indirectly, via a carriage, which is also housed in the main body of the machining head.
  • the carriage can be alternately translated in a seat obtained inside the main body along the second horizontal direction.
  • the coupling between the carriage and the drive shaft is such that the rotary movement of the shaft is converted into the reciprocating translatory movement of the carriage.
  • the abrasive strips are directly connected to one another to form a flexible chain, or belt, housed in the main body.
  • the chain, or belt, consisting of the abrasive strips is rotated clockwise or anticlockwise along the second horizontal direction.
  • the machining head can be provided with a belt or chain consisting of the same abrasive strips, which slides along the second direction, in contact with the surface to be machined.
  • the abrasive strips can be detached from one another but coupled to a supporting belt or chain, for example made of plastic, metal or rubber, which can be rotated clockwise/anticlockwise to translate said abrasive strips along said second direction.
  • the machining head comprises means for locally adjusting the height of the laminar plates of the deformable guide or the height of one or more portions of the belt/chain along the first vertical direction.
  • both the deformable guide and the belt/chain can be locally height adjusted (the external deformable guide locally height-connects the belt/chain), with the effect of adapting the vertical position of the abrasive strips to the curvature of the surface being machined over which they slide.
  • the abrasive strips together with the deformable guide or the belt/chain form a tool for sanding/polishing flat and/or curved surfaces which is in turn deformable to adapt to the curvature of said surfaces.
  • the form of the pack of abrasive strips adapts to the curvature of the surface below being machined.
  • the vertical position of the abrasive elements i.e. the position of the abrasive strips, is regulated by adjustment means housed in the main body of the machining head.
  • the means for adjustment of the height comprise a plurality of linear actuators each of which is connected to one or more laminar plates of the deformable guide or to a portion of the supporting belt/chain or of the belt/chain consisting of the abrasive strips.
  • operation of the machining head is characterised according to claim 10.
  • the sanding and/or polishing of surfaces comprises the phases of:
  • an external control unit for example that of the CNC machine tool, operates the means for adjusting the height of the abrasive elements, compensating for the local variations in curvature of the surface.
  • the linear actuators are operated by the control unit, continuously, to vary the vertical position of the deformable guide and, therefore, to vary the vertical position of the abrasive elements, maintaining practically constant contact pressure between each element and the surface.
  • the deformable tool consisting of the abrasive elements and the guide adapts to the form of the surface being machined, thus optimising the action of the abrasive elements and guaranteeing high quality polishing and sanding.
  • an external control unit for example of the electronic type, operates the linear actuators, independently of one another, to adjust the height of the individual portions of the belt or chain, compensating for the local variations in curvature of the surface and maintaining practically constant contact pressure between each abrasive element and the surface being machined. While the machining head is moved by the relative machine tool over the surface to be machined, along the third direction, and the abrasive elements, i.e.
  • the abrasive strips are translated along the second direction by the rotary movement of the relative belt, or chain, the linear actuators are operated independently of one another by the control unit, continuously, to vary the vertical position of one or more portions of the same belt/chain and, therefore, to vary the vertical position of the abrasive elements.
  • the deformable belt/chain consisting of the abrasive elements adapts to the form of the surface being machined, optimising the action of the abrasive elements and guaranteeing high quality polishing and sanding.
  • the linear actuators that adjust the vertical position of the various portions of the flexible guide or belt/chain are operated by the external control unit, of the electronic type, on the basis of data stored or on the basis of a feedback control in relation to the geometry of the surface being machined or, preferably, the control unit operates the linear actuators on the basis of information, contained in an electronic file generated by a CAM system, concerning the geometry of the surface being machined.
  • the control unit acquires from this file the information concerning the curvature of the portions of the surface being machined and controls the actuators of the machining head, independently of one another, to adjust their working range and, therefore, the position of the individual groups of abrasive strips to compensate for the height variations of the surface, due to the different curvatures between the portion being machined and the portion about to be intercepted or machined.
  • the machining head according to the present invention permits extremely effective polishing and/or sanding of flat and/or curved surfaces, also with curvatures varying locally between the various portions of the same surface. Furthermore, by providing the deformable tool, i.e. the guide or the belt/chain with the abrasive strips, with a V profile, it is possible to effectively sand and/or polish also the corners or edges of the surfaces being machined.
  • the machining head is therefore particularly suited to treating large curved surfaces such as, for example, the outer surfaces of hulls of vessels, or the outer surfaces of vehicles, etc.
  • Figure 1 shows a machining head 1 according to the present invention, which can be combined with machine tools for polishing and/or sanding of surfaces, both flat and curved.
  • the machining head 1 comprises a main body 2 for coupling with an external machine tool, for example by means of a tang 21.
  • the machining head 1 is provided with a plurality of abrasive elements 3 designed to come into contact with the surface to be machined.
  • the abrasive elements 3 are provided in the lower portion of the main body 2.
  • each abrasive element 3 is to remove material from the surface being machined to obtain polishing or sanding.
  • Figure 1 is a lateral view of the machining head 1, therefore only one abrasive element 3 is visible.
  • Figure 2 illustrates the machining head from above, showing the portion 21 engaging with the machine tool and a drive shaft 4.
  • the machining head 1 is designed to be moved over a surface S along a direction/path X (in one of the two ways) which for the sake of simplicity will be defined horizontal, but which is substantially parallel to the surface S.
  • the abrasive elements 3 are height-adjustable, i.e. the position of the abrasive elements 3 can be adjusted along a first vertical direction Y, indicated in figure 1 .
  • the first vertical direction Y is perpendicular to the horizontal direction X.
  • Figure 3 shows a front view of the machining head 1, in a first configuration in which the abrasive elements 3 are positioned at the same height with respect to the vertical Y. This configuration is suitable for machining of the flat surface S.
  • the abrasive elements 3 have, in general, an elongated form and when the machining head 1 is operative, they remain in contact with the surface S, each at its lower end.
  • the abrasive elements 3 are aligned along a second horizontal direction Z.
  • the abrasive elements 3 are laminar elements made of metal, or ceramic or even plastic, coated in abrasive material, for example diamond or corundum powder.
  • the abrasive strips 3 are stacked in the second horizontal direction Z, to form a pack of abrasive elements.
  • Figure 3 shows a front view of the machining head 1.
  • the upper portion (or tang) 21 for connection to an external machine tool, preferably CNC, more preferably of the CAD/CAM type, the main body 2 and the abrasive elements 3 in contact with a flat surface S are visible.
  • the abrasive strips 3 are stacked in direction Z, i.e. aligned one on top of the other with respect to the second horizontal direction Z.
  • the abrasive strips 3 are height-adjustable, i.e. the position of the strips along the vertical direction Y can be adjusted within a certain interval to compensate for any variations in curvature of the surface S.
  • the position of each abrasive strip 3 can be adjusted in the vertical direction Y, but preferably the configuration of the strips 3 is modified by varying the vertical position of separate groups of strips 3.
  • the abrasive strips 3 are connected to the main body 2 of the machining head by interposition of a deformable guide 5.
  • the guide 5 develops substantially in direction Z and is at least partly housed in the main body 2 of the head 1.
  • Figures 4 and 5 show respectively a longitudinal section, i.e. along the line A-A of figure 2 , and a transverse section, i.e. along the line B-B of figure 3 , of the machining head 1.
  • the "pack" of abrasive strips 3 can be seen supported by the guide 5, which protrudes partially beyond the lower edge of the main body 2 of the head 1.
  • the guide 5 in turn consists of a plurality of laminar plates 51 stacked in direction Z to form another "pack".
  • the plates 51 are held together by at least one tie rod 10 ( figures 1 and 5 ), i.e. a flexible metal cable which keeps the plates 51 pressed against one another in the relative seat obtained in the main body 2.
  • the head 1 comprises a plurality of linear actuators 52, 53, 54, 55, 56, each of which are connected to a group of laminar plates of the guide 5.
  • the linear actuators 52-56 are driven by respective motors M, also housed in the main body 2, preferably in its upper portion, via levers and/or transmissions 6. Via the linear actuators 52-56 it is possible to modify the vertical position of one or more metal plates 51 and, consequently, to modify the vertical position, along the direction Y, of the respective abrasive strips 3.
  • Figures 3 and 4 show the machining head 1 in a first configuration, with the abrasive elements 3 located against a flat surface S.
  • the motors M for operation of the actuators 52-56 can be seen.
  • the motors M are fixed to internal supports 22 and 23 of the main body 2.
  • the motors M can be gearmotors with flexible connection to encoder.
  • the levers or transmissions 6 can be of various types. What matters is that the levers/transmissions 6 transform the mechanical work of the relative motor M into a vertical actuation movement in direction Y. In other words, by controlling the function of the motors M, the vertical range in direction Y of the actuators 52-56 is regulated indirectly via the levers/transmissions 6.
  • the actuators 52-56 are linear recirculating ball guides, suitable for transmitting vertical movements.
  • Each actuator 52-56 is fixed integral with one or more laminar plates 51 of the deformable guide 5. In the embodiment shown in figure 4 , each actuator 52-56 is connected to one group of ten laminar plates 51.
  • the deformable guide 5 is straight, i.e. the plates 51 are aligned in direction Z and all have the same height in direction Y. Also the abrasive elements 3, connected to the guide 5, are aligned in direction Z and all have the same height. Operation of the actuators 52-56 will now be described with reference to figure 3 comparing it with figure 6 .
  • Figure 6 is a front view, enlarged, of the lower portion of the machining head 1, shown in a second configuration, i.e. in action on a curved surface S, having a locally variable radius of curvature.
  • the actuators 52 and 53 reduce their range, raising the respective groups of laminar plates 51, i.e. recalling a part of the deformable guide 5 towards the main body 2 of the head 1.
  • the actuators 55 and 56 increase their range, pushing the remaining part of the guide 5 towards the outside of the body 2.
  • the actuator 54 remains at a standstill.
  • the deformable guide 5, and therefore also the abrasive elements 3 connected to it assume the profile of the curved surface S.
  • the actuators 52-56 move the abrasive elements 3 vertically, locally compensating for the variations in curvature of the surface S being machined. If the surface S has a raised or convex area, or has an edge or a corner, when some of the abrasive elements 3 are working in said area, the respective actuators raise the corresponding laminar plates 51, varying the profile of the guide 5 and maintaining practically constant contact pressure between the abrasive elements 3 and the surface S.
  • the respective actuators lower the corresponding laminar plates 51, varying the profile of the guide 5 and maintaining practically constant contact pressure between the abrasive elements 3 and the surface of the depression.
  • Control of the motors M and actuators 52-56 is performed by a control unit of the machining head 1.
  • the control unit is preferably the control unit of the numeric control machine to which the head 1 is connected.
  • the control unit operates on the basis of the geometric specifications relative to the surface S, stored in a memory unit.
  • the control unit processes the geometric data relative to the surface S stored in electronic file.
  • the CAM system of the machine generates the electronic file on the basis of a CAD type file.
  • the control unit controls the motors M and the actuators 52-56 to move the abrasive elements 3 vertically when necessary to compensate for any variations, also local, in the curvature of the surface S.
  • operation of the motors M and actuators 52-56 is regulated on the basis of a feedback control relative to the curvature of the surface S.
  • the machine tool or the machining head 1 can be provided with optical sensors able to identify the curvature of the surface S in different points upstream of the head 1 , which moves in direction X, and able to generate a signal that can be processed by the control unit for regulation of the actuators 52-56.
  • Figure 5 shows the preferred form of the abrasive elements 3, i.e. the strips made of metal, plastic with abrasive coating, or ceramic.
  • said abrasive strips 3 have a rounded lower portion, designed to come into contact with the surface S although, in general, the lower portion can have a different shape according to requirements, for example it can be rectangular, triangular, etc..
  • the abrasive strips 3 have a generally rectangular upper portion, in which the connection with the deformable guide 5 is provided.
  • the pin 7 of each metal strip 3 is supported by a plurality of spheres 8 which act as bearings and create a seat in which the pin 7 can rotate around its axis (axis X ) and can run in direction Z.
  • connection formed by the pin 7 and the spheres 8 permits the oscillation of an abrasive strip 3 around the axis of the pin, in the two ways, along the horizontal direction Z, i.e. the direction of development of the pack of abrasive elements 3, and/or a slight translation of said strip 3 in the guide 5, again along the direction Z and in the two ways.
  • the abrasive and/or polishing effect of the surface S is obtained when the abrasive strips 3 move in direction Z, with respect to the guide 5, while the machining head 1 moves forward in direction X.
  • the pack formed by the abrasive strips 3 is held together by at least one tie rod 9, preferably at least two tie rods 9, i.e. metal cables that cross all the abrasive strips and keep them pressed one against the other.
  • the ends of the metal cables are preferably provided with adjustable registers, via which it is possible to increase or reduce the force on the tie rods 9 and, therefore, increase or reduce the play between the strips 3.
  • the tie rods 9 are flexible and do not obstruct height-adjustment of the position of the individual abrasive strips 3; at the same time they permit oscillation of the strips 3 each around its related pin 7. It will be clear to a person skilled in the art that when the strips 3 oscillate in direction Z, the angle between consecutive strips 3 can vary, i.e.
  • the strips 3 can slant differently according to the variations in curvature of the surface S (note the different inclination of the strips 3 with respect to the vertical Y and also with respect to the plates 51 of the guide 5, in figure 6 ).
  • the laminar plates 51 of the deformable guide 5, can move only in a vertical direction, without slanting with respect to the vertical Y. In other words, the guide 5 can deform vertically, while the pack of abrasive strips 3 can "deform" both vertically and in direction Z.
  • the machining head 1 is provided with means for translating the abrasive elements 3, i.e. the strips, in direction Z during forward movement of said head 1 in direction X.
  • the head 1 comprises a drive shaft 4 suitable for receiving a rotary movement from the machine tool on which the head 1 is mounted, or driven by a motor M mounted on the head 1.
  • the shaft 4 eccentrically engages a carriage 11.
  • the carriage 11 transforms the rotary movement of the shaft 4 into an alternating translation movement, in direction Z, of the pack of abrasive strips 3.
  • the carriage 11 is directly or indirectly connected to the abrasive elements 3, and transmits to the latter the alternating translation movement in direction Z.
  • the carriage 11 is directly coupled to one single abrasive strip 3 and the latter transmits the movement to the remaining strips 3 of the pack, due also to the action of the tie rod 9.
  • the carriage 11 pushes the abrasive strips 3 forward and back in direction Z.
  • the strips 3 remove material from the surface S, sanding and/or polishing it, moving like bristles while the head 1 is translated in direction X.
  • Operation of the sanding and/or polishing head 1 is simple.
  • the head is translated in direction X on the surface S.
  • the shaft 4 rotating, operates the carriage 11 which transmits the alternating translation movement to the pack of abrasive strips 3, which therefore run along direction Z, in the two directions, with respect to the guide 5.
  • the abrasive strips remove material from the surface S, for example they remove a surface layer, polishing and sanding said surface S.
  • the control unit operates the motors M and the actuators 52-56 to vertically deform the guide 5, i.e.
  • control unit processes the electronic files provided by the CAM system, relative to the geometry of the surface S, and operates the actuators 52-56 to raise or lower, independently, individual groups of abrasive strips 3 when necessary to compensate for variations in the curvature of the surface S, as in the example shown in figure 6 .
  • Figures 7 and 8 refer to a second embodiment of the machining head 1 according to the present invention.
  • said figures show a base drawing of a different embodiment of the deformable guide.
  • the reference numbers identify the same components shown in figures 1-6 .
  • the belt, or chain, 12 is elastically deformable and housed in the main body 2 of the head 1.
  • the belt/chain 12, which replaces the guide 5 of the first embodiment runs around wheels 13, 14, 17 at least one of which is a drive wheel, while the others are driven.
  • the belt/chain 12 is therefore rotated, clockwise or anticlockwise, in a continuous rotary movement.
  • the diagram of figure 7 is based on a continuous clockwise rotation as indicated by the arrow R.
  • a system for compensating the length of the belt/chain 12 is provided. Said system comprises a tensioner 16 and a wheel 15 for contact with the belt/chain 12, and is shown in figure 8 from above.
  • the number of actuators is higher than in the first embodiment: ten units 52-61.
  • Each actuator 52-61 acts independently on a section of the belt/chain 12 to vary the position in the vertical direction Y.
  • the belt/chain can slide on a foot or in a ring of the actuators 52-61.
  • the reference letter S' indicates in figure 7 a hypothetical flat surface, while the reference letter S indicates the curved surface being machined.
  • the machining head 1 in both the first and second embodiment, permits extremely effective polishing and/or sanding of flat and/or curved surfaces S, also having locally variable curvatures between the various portions of the same surface, or surfaces with edges, for example the surfaces of hulls of vessels, or the sheet metal of vehicle bodywork etc.
  • the head 1 is extremely reliable and permits automation of polishing/sanding of curved surfaces, today performed manually by skilled workers.
  • the machining phases currently required to obtain a finished product, i.e. sanded or polished, are, in the following order:
  • the head 1 permits automation of phases F, G, M, N, O, with numerical control machines, with obvious reduction in machining times and, therefore, reduction in costs.

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Finish Polishing, Edge Sharpening, And Grinding By Specific Grinding Devices (AREA)
  • Grinding And Polishing Of Tertiary Curved Surfaces And Surfaces With Complex Shapes (AREA)
  • Polishing Bodies And Polishing Tools (AREA)
EP07425525A 2007-08-10 2007-08-10 Schleif-/Polierkopf Not-in-force EP2025464B1 (de)

Priority Applications (6)

Application Number Priority Date Filing Date Title
EP07425525A EP2025464B1 (de) 2007-08-10 2007-08-10 Schleif-/Polierkopf
PT07425525T PT2025464E (pt) 2007-08-10 2007-08-10 Lixadeira / cabeça de polimento
ES07425525T ES2345848T3 (es) 2007-08-10 2007-08-10 Cabezal de pulido/esmerilador.
AT07425525T ATE470536T1 (de) 2007-08-10 2007-08-10 Schleif-/polierkopf
DE602007007079T DE602007007079D1 (de) 2007-08-10 2007-08-10 Schleif-/Polierkopf
PL07425525T PL2025464T3 (pl) 2007-08-10 2007-08-10 Głowica szlifująca/polerująca

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
EP07425525A EP2025464B1 (de) 2007-08-10 2007-08-10 Schleif-/Polierkopf

Publications (2)

Publication Number Publication Date
EP2025464A1 true EP2025464A1 (de) 2009-02-18
EP2025464B1 EP2025464B1 (de) 2010-06-09

Family

ID=38982890

Family Applications (1)

Application Number Title Priority Date Filing Date
EP07425525A Not-in-force EP2025464B1 (de) 2007-08-10 2007-08-10 Schleif-/Polierkopf

Country Status (6)

Country Link
EP (1) EP2025464B1 (de)
AT (1) ATE470536T1 (de)
DE (1) DE602007007079D1 (de)
ES (1) ES2345848T3 (de)
PL (1) PL2025464T3 (de)
PT (1) PT2025464E (de)

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN101559574B (zh) * 2008-04-18 2011-03-23 北京胜为弘技数控装备有限公司 六轴联动数控砂带磨床及加工汽轮机叶片的方法
WO2023133196A3 (en) * 2022-01-07 2023-09-28 Dc Precision Ceramics, Llc Sanding systems, methods, and devices

Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4461127A (en) * 1981-11-19 1984-07-24 The Boeing Company Abrading tool
JPH0966469A (ja) * 1995-08-30 1997-03-11 Nisshin Steel Co Ltd 自由曲面研磨砥石
JPH10151557A (ja) * 1996-11-20 1998-06-09 Nippon Electric Glass Co Ltd ガラス物品の曲面研磨装置
DE10110526A1 (de) * 2000-03-04 2001-09-13 Doris Franka Vorrichtung zur Feinbearbeitung durch Schleifen, Läppen oder Polieren

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US4461127A (en) * 1981-11-19 1984-07-24 The Boeing Company Abrading tool
JPH0966469A (ja) * 1995-08-30 1997-03-11 Nisshin Steel Co Ltd 自由曲面研磨砥石
JPH10151557A (ja) * 1996-11-20 1998-06-09 Nippon Electric Glass Co Ltd ガラス物品の曲面研磨装置
DE10110526A1 (de) * 2000-03-04 2001-09-13 Doris Franka Vorrichtung zur Feinbearbeitung durch Schleifen, Läppen oder Polieren

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN101559574B (zh) * 2008-04-18 2011-03-23 北京胜为弘技数控装备有限公司 六轴联动数控砂带磨床及加工汽轮机叶片的方法
WO2023133196A3 (en) * 2022-01-07 2023-09-28 Dc Precision Ceramics, Llc Sanding systems, methods, and devices

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PT2025464E (pt) 2010-08-05
ES2345848T3 (es) 2010-10-04
DE602007007079D1 (de) 2010-07-22
EP2025464B1 (de) 2010-06-09
ATE470536T1 (de) 2010-06-15

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