• 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:
    A corner (2A,2B) of a glass sheet (2) is ground and polished using a grinding wheel (35) and a polishing wheel (36) which can be selectively activated and are carried by the same motor-driven drive shaft (33) and by displacing, by means of two movement devices (13) (14), the motor-driven drive shaft (33) along two directions (6) (21) which are transverse with respect to each other; in each movement device, the motor-driven shaft (33) is displaced by an electric motor when the grinding wheel (35) is selected and by a corresponding pneumatic actuator when the polishing wheel (36) is selected.
    公开号:EP3702103A1
    申请号:EP20159921.4
    申请日:2020-02-27
    公开日:2020-09-02
    发明作者:Pierfranco Margaria;Aldo FACCENDA
    申请人:Bottero SpA;
    IPC主号:B24B9-00
    专利说明:
    [0001] This patent application claims priority from Italian patent application no. 102019000002925 filed on 28/02/2019 . TECHNICAL FIELD
    [0002] The present invention relates to an assembly for grinding and polishing a corner of a glass sheet. BACKGROUND ART
    [0003] As is known, after grinding and polishing the perimeter surfaces of a glass sheet, machining of the sharp edges, that is to say, the corners where the polished perimeter surfaces come together, is often required.
    [0004] Machining of the sharp edges normally comprises, for each sharp edge, a grinding step consisting in a chamfering or rounding of said corner and, very often, a subsequent step of polishing the previously ground corner.
    [0005] The use of grinding and polishing assemblies for the rounding and subsequent polishing of such corners is known in the prior art, in which first a grinding wheel and then a polishing wheel are gradually moved along a predefined path according to the required geometry of the ground corner.
    [0006] In most applications, the displacement of each wheel along said path is obtained by combining two rectilinear movements along two mutually orthogonal directions. The displacement of the wheels along each of the directions and in relation to the sheet to be machined is obtained by means of a respective electric motor, independent of the other electric motor and controlled together with the other electric motor by a numerical control system common to the two motors.
    [0007] Though widely used, the assemblies of the type described above known in the prior art are difficult to control especially due to the fact that they must be controlled differently depending on whether the grinding wheel or the polishing wheel is used. In detail, the position of the grinding wheel must be strictly controlled since it removes material to define the geometry of the ground corner. The polishing wheel must, instead, be pushed and pressed against the profile that has been ground by the grinding wheel for the sole purpose of polishing the ground corner.
    [0008] If the pushing force applied to the polishing wheel is insufficient, this may, in some cases, result in unpolished corners and, in other cases, corners with different levels of polish. In both cases, the constant quality of the machined sheets cannot be guaranteed and it is often necessary to reject some of them, which clearly causes production problems and affects costs.
    [0009] Pressing the polishing wheel against the sheet with too much force might not adversely affect polishing of the corners, for a certain period at least, but certainly causes rapid wear on the polishing wheel with a consequent increase in tool costs and in the costs of replacing the wheel and loss of production owing to essential machine downtime.
    [0010] Moreover, on the one hand, timely detection of excessive wear on the polishing wheel is not easy since this is not part of any statistical analysis of wheel wear and, on the other, traditional indicators, such as changes in the current absorbed by the respective motor or changes in the torque requested of that motor, are not meaningful, since the polishing wheel remains in contact with the sheet for a very short time and the shorter the path along which the polishing wheel is displaced, the shorter this time. In such conditions, any change in the torque of the respective motor could even be disguised by the moment of inertia of the rotating parts. The polishing wheel often becomes worn so quickly that it is only noticed when several corners have polish defects, but at that point the polishing wheel already needs replacing. DISCLOSURE OF INVENTION
    [0011] The purpose of the present invention is to provide an assembly for grinding and polishing a corner of a glass sheet, which overcomes the problems described above in a simple and cost-effective manner and, in particular, makes it possible to maintain the quality of the machined product and, at the same time, to extend the service life of the wheels used for as long as possible.
    [0012] According to the present invention there is provided an assembly for grinding and polishing a corner of a glass sheet, as claimed in Claim 1.
    [0013] A further purpose of the present invention is to provide a method for grinding and polishing a corner of a glass sheet.
    [0014] According to the present invention there is provided a method for grinding and polishing a corner of a glass sheet, as claimed in Claim 14. BRIEF DESCRIPTION OF THE DRAWINGS
    [0015] The invention will now be described with reference to the accompanying drawings, illustrating a preferred embodiment thereof, in which:Figure 1 is a schematic and substantially block diagram view of a machine for grinding glass sheets provided with an assembly for grinding and polishing corners produced according to the teachings of the present invention; Figure 2 is an exploded perspective view of the assembly for grinding and polishing corners in Figure 1; Figure 3 is a cross-sectional view on an enlarged scale along the line III-III of Figure 2; Figure 4 is a cross-sectional view of a part of the assembly for grinding and polishing in Figure 3 arranged in a different functional configuration; Figure 5 is a cross-sectional view along the line V-V of Figure 1; and Figure 6 is a cross-sectional view of a part of the assembly for grinding and polishing in Figure 5 arranged in a different functional configuration. BEST MODE FOR CARRYING OUT THE INVENTION
    [0016] In Figure 1, denoted as a whole by reference numeral 1 is a machine for grinding a glass sheet 2. In the example that is illustrated, the machine 1 is a bilateral machine, of the kind known in the prior art, comprising a base 3 with two lateral shoulders 4, only one of which is visible in the accompanying figures, and a conveyor 5, also of the kind known in the prior art, arranged between the shoulders 4 to feed the sheet 2 to be ground in a longitudinal and rectilinear direction 6 at a predefined speed.
    [0017] On the machine 1, for each shoulder 4, a corner grinding and polishing assembly, denoted as a whole by reference numeral 10, is attached to or integral with the base 3.
    [0018] Again with reference to Figure 1 and, in particular, to Figure 2, the assembly 10, which, in the example described, is an assembly for grinding and polishing the corners at the front 2A and at the rear 2B of the sheet 2, preferably, but not necessarily, while the sheet 2 is being moved along the direction 6, comprises an attachment frame 12, which is permanently connected to the respective shoulder 5 or coupled to said respective shoulder 4 in a releasable manner.
    [0019] The assembly 10 further comprises two configurable electro-pneumatic movement devices, a lower one, denoted by reference numeral 13 and an upper one, denoted by reference numeral 14.
    [0020] The lower device 13 comprises a lower guide and slide assembly 15 (Fig. 2) which, in turn, comprises a rectilinear guide 16 permanently connected to the frame 12 and extending parallel to the longitudinal direction 6 and a slide 18. The slide 18 is coupled to the guide 16 so as to be able to slide in a direction parallel to the longitudinal direction 6. Integrally connected to and carried by the slide 18 is a rectilinear guide 19 of an upper assembly 20 for guiding and sliding the upper device 14. The guide 19 extends in a rectilinear transverse direction 21 orthogonal to the longitudinal direction 6 and to the slide 16 and carries coupled thereto a slide 22 able to move in opposite directions along said transverse direction 21.
    [0021] The lower end of a vertical rectilinear guide 25 is permanently connected to the slide 22, extends upwards and carries, slidingly coupled thereto, a slide 26, able to move in opposite directions from and towards the slide 22 in a direction 27 orthogonal to the directions 6 and 21 driven by a motor 28 integral with the guide 25.
    [0022] The end of an arm 30 is permanently connected, in a known manner, to the slide 26 and extends in a cantilevered manner from the slide 26 and carries, coupled to a free end portion, a grinding head 31.
    [0023] The grinding head 31 comprises a support 32 permanently connected to the arm 30, a vertical wheel shaft 33, which is rotatably coupled to the support 32 in a vertically fixed position and is able to rotate about its vertical axis 33A driven by a motor 34 coupled to the shaft 33 directly or by means of a known transmission, as in the example that is illustrated.
    [0024] A grinding wheel 35 and a polishing wheel 36 arranged on top of the grinding wheel 35 are fitted to a lower end section of the shaft 33 in a known manner. The motor 34 is electrically connected to a numerical control unit 37, of a type known in the prior art and not described in detail, which is part of the assembly 10 and also controls the motor 28. The unit 37 comprises a selection block 38 for selecting one or the other of the wheels 35,36 depending on the machining process to be performed on the sheet 2.
    [0025] Again with reference to Figure 2 and, in particular to Figures 3 and 5, the slides 18 and 22 are moved in opposite directions along the respective guides 16, 19 by respective configurable electro-pneumatic drive devices, denoted by reference numerals 39 and 40, respectively, both controlled by the unit 37.
    [0026] The device 39 comprises a drive screw 41 housed inside the guide 16 parallel to the direction 6 and rotatably coupled to said guide 16 in an axially fixed position by means of a pair of end bearings. The screw 41 is turned in opposite directions by a geared motor 42 of a type known in the prior art, having an electric motor 43 controlled by the numerical control unit 37.
    [0027] With reference to Figure 3, coupled to the screw 41 is a nut-screw 45 carrying, integrally connected to an axial end thereof, a tubular sleeve 46 surrounding the screw 41 with radial clearance (Figure 3).
    [0028] An end section of the sleeve 46 defines the rod 47 of a double-acting pneumatic cylinder 48, which is part of the device 39 and extends coaxially with the axis 41A of the screw 41. The pneumatic cylinder 48, in turn, comprises a liner 49, which is permanently connected to the slide 22 by means of screws, surrounds the rod 47 and has two opposite end sections, denoted by reference numerals 50 and 51, which are coupled to an outer side surface of said rod 47 in a fluid-tight manner so as to delimit with said rod an airtight chamber 52. The chamber houses a plunger 53, which surrounds the rod 47 and is permanently connected to said rod 47. Conveniently, the plunger 53 is formed as one piece with the rod 47. The plunger 53 divides the chamber 52 into two variable-volume airtight chambers, denoted by reference numerals 54 (Figure 3) and 55 (Figure 4). The chambers 54 and 55 are both connected by means of ducts to a pneumatic valve assembly 56 of the type with proportional valves and controlled by the unit 44 to selectively pressurise the chambers 54 and 55 in a continuously controlled manner.
    [0029] Again with reference to Figures 5 and 6, the device 14 is structurally and functionally identical to the device 13 and its component parts are denoted by the same reference numerals as the corresponding parts of the device 13 with the addition of the subscript "'" to distinguish them from the corresponding parts of said device 13. The unit 37 and the pneumatic valve assembly 56 are common to the devices 39 and 40.
    [0030] The method of operation of the assembly 10 will now be described starting from a grinding configuration, illustrated in Figures 3 and 5, in which the block 38 has selected the grinding wheel 35 bringing it into a lowered grinding position, and the devices 39 and 40 are both configured to move the wheel 35, for example to machine a corner 2A. In this configuration, the chambers 54,54' of the cylinders 48,48' are depressurised, whereas the chambers 55,55' are pressurised by the block 56. Once the chambers 55,55' have been pressurised, the respective end sections 51,51' of the corresponding liners 49,49' have respective axial shoulders that are practically in abutment against the corresponding plungers 53,53', thus achieving a rigid coupling between the sleeves 47,47' and said liners. Thus, during the grinding process, the assembly 1 is therefore configured as a conventional grinding assembly driven by electric motors numerically controlled by the unit 37.
    [0031] When, instead, the block 38 selects the polishing wheel 36 to polish the surfaces that have been ground by the grinding wheel 35, the motors 43,43' continue to displace the shaft 31 and the wheel 35 along a path identical or parallel to the grinding path, the chambers 55,55' are depressurised and the chambers 54,54' are pressurised, as illustrated in Figures 4 and 6. In these conditions, a pneumatic spring is created between the plungers 53,53' and the sections 51,51', the stiffness or elasticity of which, depending on the path along which the wheel 36 is moved, is kept constant or changed in a controlled and continuous manner by adjusting the air pressure in the chambers 54,54'.
    [0032] The pressure in each of the chambers 54,54' can be changed by changing the output pressure from the block 56. The variation in pressure in the chamber 54 can be achieved according to a principle of variation equal to or different from that of the chamber 54'. In such conditions, during polishing, the wheel 36 is pushed against the sheet 2, applying, along each of the directions 6 and 21, a respective predefined and constant force as the wear on the wheel 36 changes.
    [0033] Alternatively, the air pressure in the chambers 54 and 54' is first brought to a predetermined constant value by the block 56, and, if necessary, it is adjusted by means of the motors 43,43' during the advancement of the wheel 36, that is, by modifying the instantaneous position of one or both of the plungers 53,53' in relation to a reference position, for example, the grinding position, and thus varying the volume of the chambers 54,54'.
    [0034] The same considerations apply for machining the rear corners 2B, except that the pressurisation of the chambers 54 and 55 is inverted for the grinding step. In particular, during the grinding step the chamber 54 is pressurised and the chamber 55 is depressurised so that the section 50 of the liner 49 is brought to cooperate directly in abutment against the plunger 53.
    [0035] From the above it is apparent that modifications and variations may be made to the assembly 10 described herein without departing from the scope of the independent claims.
    [0036] For example, the liners 49,49' of the pneumatic actuators 48,48' could be permanently connected to the respective nut screws 45,45' and the plungers 53,53' could be permanently connected to the corresponding slides 18 and 22 or in any case act directly or indirectly on the arm 30.
    [0037] Moreover, instead of extending along the directions 9 and 21, the pneumatic actuators could be arranged parallel to but in an eccentric position with respect to said directions 9 and 21.
    [0038] Regardless of how the pneumatic actuators are arranged, the possibility of having a pressurised air chamber interposed along each of the directions between the corresponding electric motor, and of using said chamber as a pneumatic pressure spring to push the polishing wheel 36 means that any of the ground surfaces on the sheet can be polished with the polishing wheel 36 always in the condition called for in the project while therefore constantly maintaining a high production output and the required surface quality. In such conditions, the pushing force is not controlled by the electric motor but by the pneumatic springs.
    [0039] From the above it is apparent that since the assembly 10 described herein is an independent grinding and finishing unit, not only is it suitable for use on bilateral machines other than the one described herein, but also on other non-bilateral grinding machines, such as rectilinear machines or machining centres. In the case of rectilinear machines, the assembly must clearly be turned so that the transverse direction is arranged vertically.
    [0040] Furthermore, from the above it is clear that only one of the devices 13,14 is an electro-pneumatic device.
    权利要求:
    Claims (18)
    [0001] An assembly for grinding and polishing a corner of a glass sheet, the assembly comprising: a grinding wheel and a polishing wheel, which can be selectively activated and are carried by the same motor-driven drive shaft; a first and a second movement device for displacing the motor-driven shaft along a first rectilinear direction and a second rectilinear direction, respectively, which are transverse with respect to each other; each movement device comprising a corresponding rectilinear guide, a corresponding slide, slidably coupled to said guide, a corresponding first mobile drive member for movement of the corresponding said slide, and an electric motor for driving said first mobile drive member; the assembly further comprising an electronic numerical control unit for controlling each of said electric motors, and being characterised in that at least one of the movement devices is a configurable electro-pneumatic device and further comprises a pneumatic actuator having at least one first variable-volume air chamber and means for pressurising said first variable-volume air chamber; said pneumatic actuator comprising a second mobile member, which partially delimits said first variable-volume chamber and is connected to the corresponding said slide; and in that it comprises configuration means that can be activated for connecting the first and the second mobile drive members rigidly together or by interposition of said first air chamber.
    [0002] The assembly according to Claim 1, characterised in that both of the movement devices are configurable electro-pneumatic devices.
    [0003] The assembly according to Claim 1 or 2, characterised in that said electronic control unit comprises selection means for selecting one of said grinding and finishing wheels and control means for controlling said configuration means as a function of the grinding wheel selected.
    [0004] The assembly according to any one of the preceding claims, characterised in that said configuration means comprise pneumatic means.
    [0005] The assembly according to Claim 4, characterised in that said configuration means comprise a second variable-volume air chamber that can be pressurised by means of further pressurisation means.
    [0006] The assembly according to any one of the preceding claims, characterised in that, when said first and second mobile drive members are directly connected to one another, they have respective shoulders that are brought and kept in abutment against each other by said configuration means.
    [0007] The assembly according to Claim 6, characterised in that said shoulders partially delimit said first variable-volume air chamber.
    [0008] The assembly according to any one of the preceding claims, characterised in that said first variable-volume air chamber extends parallel to a corresponding said rectilinear direction.
    [0009] The assembly according to any one of the preceding claims, characterised in that said first variable-volume chamber extends coaxially with a corresponding said rectilinear direction.
    [0010] The assembly according to any one of the preceding claims, characterised in that each said pneumatic actuator is a double-acting pneumatic actuator; said double-acting pneumatic actuator having a liner and a fluid-tight plunger that slides in said liner and delimiting said first variable-volume chamber and said second variable-volume chamber; one between said liner and said plunger being permanently connected to the corresponding said slide, and the other being permanently connected to the corresponding said first mobile drive member.
    [0011] The assembly according to Claim 10, characterised in that said plunger is permanently connected to said first mobile drive member.
    [0012] The assembly according to any one of the preceding claims, characterised in that each said movement device further comprises a nut-screw assembly, which in turn comprises a screw, which extends along the corresponding said rectilinear direction and is rotatably coupled to the corresponding said guide in an axially fixed position, and a screw, which is angularly fixed with respect to the corresponding said guide and is permanently connected to the corresponding said first mobile drive member; said first mobile drive member being tubular and said screw traversing said first mobile drive member and being turned by a corresponding electric motor.
    [0013] The assembly according to Claim 10, characterised in that said plunger is permanently connected to the corresponding said slide, and the liner is permanently connected to said first mobile drive member.
    [0014] A method for grinding and polishing a corner of a glass sheet, the method being implemented using a grinding and polishing assembly as per any one of the preceding claims and comprising a step of grinding the glass sheet and a subsequent step of polishing the ground surface; said method being characterised in that said grinding step is carried out by selecting the grinding wheel and displacing said motor-driven shaft by means of electric motors, and in that said polishing step is carried out by selecting the polishing wheel and using at least one pneumatic actuator for pushing the polishing wheel against said ground sheet.
    [0015] The method according to Claim 14, characterised in that said polishing step is carried out by activating configuration means so as to set, in at least one of said directions, a first variable-volume air chamber of a corresponding said pneumatic actuator between a first mobile drive member driven by the corresponding said electric motor and a second mobile drive member driven by the corresponding said pneumatic actuator and pressurising said first variable-volume air chamber so as to push the polishing wheel by means of the corresponding second mobile drive member.
    [0016] The method according to Claim 15, characterised in that said grinding step is carried out after rigidly connecting together the first mobile drive member and the corresponding said second mobile drive member.
    [0017] The method according to Claim 16, characterised in that the permanent connection of said first mobile drive member to the corresponding said second mobile drive member is obtained by depressurising the corresponding said first variable-volume air chamber and pressurising a corresponding second variable-volume air chamber of the corresponding said pneumatic actuator.
    [0018] The method according to any one of Claims 15 to 17, characterised in that the pushing force on said polishing wheel is applied by varying the pressure in said first variable-volume air chamber.
    类似技术:
    公开号 | 公开日 | 专利标题
    CN204770786U|2015-11-18|Six main shafts bore boring combined machine tool
    US3088250A|1963-05-07|Automated roll grinder
    US6416382B1|2002-07-09|Bilateral automatic machine for edge-machining plates of glass, stone-like materials and the like
    CN104759962B|2017-08-29|A kind of novel numerical control profile glass edge grinding machine
    KR101213517B1|2012-12-20|Polishing device, and method for polishing a workpiece surface
    CN106736911B|2020-07-03|Centerless grinding machine
    CN100379520C|2008-04-09|Method and device for grinding a rotating roller using an elastic steady-rest support
    CH620389A5|1980-11-28|
    US8696410B2|2014-04-15|Device for finish-machining of optically effective surfaces of, in particular, spectacle lenses
    CN205343337U|2016-06-29|Plank processing equipment with locate function
    US3393538A|1968-07-23|Tanning and tawing | machine for splitting hides and skins
    US7189143B2|2007-03-13|Machine for superfinishing by honing
    CN101947755B|2012-07-25|Grinding wheel corrector
    KR101783941B1|2017-11-06|Roller cleaning apparatus to move forward and backward
    CN103429386A|2013-12-04|Device for the fine machining of optically active surfaces on in particular spectacle lenses
    ES2457598T3|2014-04-28|Device for machining narrow surfaces of work pieces preferably in the form of a plate
    EP1285726B1|2006-05-03|Centerless grinding method for barshape work centerless grinder
    CN103317407A|2013-09-25|Diamond tool bit slope grinding device
    US6419443B2|2002-07-16|Glass product machining apparatus
    CN204195429U|2015-03-11|Automatic polishing compensates and drives planker
    GB1583741A|1981-02-04|Apparatus for the peripheral machining of non-circular workpieces in particular piston rings
    US2545730A|1951-03-20|Grinding machine
    US4495734A|1985-01-29|Grinding arrangement for chopping cutter of drum-chopper machine
    CN103752935A|2014-04-30|Steel pipe cutting machine
    CN201271836Y|2009-07-15|Polisher
    同族专利:
    公开号 | 公开日
    IT201900002925A1|2020-08-28|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    法律状态:
    2020-07-31| PUAI| Public reference made under article 153(3) epc to a published international application that has entered the european phase|Free format text: ORIGINAL CODE: 0009012 |
    2020-07-31| STAA| Information on the status of an ep patent application or granted ep patent|Free format text: STATUS: THE APPLICATION HAS BEEN PUBLISHED |
    2020-09-02| AK| Designated contracting states|Kind code of ref document: A1 Designated state(s): AL AT BE BG CH CY CZ DE DK EE ES FI FR GB GR HR HU IE IS IT LI LT LU LV MC MK MT NL NO PL PT RO RS SE SI SK SM TR |
    2020-09-02| AX| Request for extension of the european patent|Extension state: BA ME |
    2021-02-19| STAA| Information on the status of an ep patent application or granted ep patent|Free format text: STATUS: REQUEST FOR EXAMINATION WAS MADE |
    2021-03-24| 17P| Request for examination filed|Effective date: 20210216 |
    优先权:
    申请号 | 申请日 | 专利标题
    [返回顶部]