• 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 invention relates to a multi-axis swivel head intended to be mounted at the end of a machine tool movable arm (22), said pivoting head comprising, on the one hand, a yoke (30) comprising a support shaft (32). said clevis being adapted to be rotatably mounted on said arm (22), while said support shaft (32) extends substantially perpendicular to said arm (22), and secondly at least two working members (38, 40) installed on said support shaft (32) in positions angularly offset relative to each other, said support shaft (32) being rotatable to be able to alternately carry each of said at least two working members (38, 40) between a retracted position within said yoke (30) and a working position projecting from said yoke. One of said at least two working members (40) is a water jet cutting device.
    公开号:FR3014715A1
    申请号:FR1362813
    申请日:2013-12-17
    公开日:2015-06-19
    发明作者:Jack Leseur;Clement Cauchois
    申请人:Forest Line Albert;
    IPC主号:
    专利说明:

    [0001] The present invention relates to a multi-axis swivel head of a machine tool and in particular to a so-called five-axis machining machine.
    [0002] This type of machine tool comprises a movable arm located at the end of a robot or mounted on a gantry, and a pivoting head mounted at the end of said movable arm. The pivoting head comprises a fork-forming a fork, rotatably mounted at the end of the arm, and the fork-shaped unit is equipped with a support shaft which extends substantially perpendicular to the direction defined by the arm. The support shaft is thus equipped with at least two pins able to receive respectively a working tool. The pins extend in planes substantially parallel to each other and perpendicular to the support shaft; they can also extend in the same plane. They are further angularly offset relative to each other on the support shaft. In this way, the tools can be driven alternately in motion, between a working position in which they come to extend projecting from the fork-lock unit and a retracted position in which they are carried inside the fork-lock, in driving the support shaft in rotation in one direction and then in an opposite direction. In particular, reference may be made to EP1405691 A1, which describes a pivoting head enabling such an implementation. Thus, by equipping the spindles with two different types of tool, it is easy to come and machine a part successively, for example, roughly, then more precisely, practically without dead time, by swapping the position of the two tools by the simple rotation of the support tree. For some complex parts, it is necessary to machine them, but also to cut beforehand or by cutting. These cuts are in certain circumstances, made by means of a water jet cutting device. Also, the parts are first installed on a specific machine tool, having a movable head equipped with an injection nozzle, and a pressurizing pump to be able to inject the water under pressure, usually with an abrasive. Such a machine is in particular equipped with a sludge recovery system resulting from projections of a mixture of water, abrasive and material. Also, when a cutting has to be carried out prior to machining, it is appropriate to carry the part, in a first phase on the water jet machine tool, and then to wear it on the machine tool machining. The transfer time of the part is then added to the cutting and machining times. A problem that arises and that aims to solve the present invention is to reduce the processing time of parts and thus reduce costs.
    [0003] For this purpose, the present invention proposes a multiaxis pivoting head intended to be mounted at the end of a movable machine tool arm, said pivoting head comprising, on the one hand, a clevis having a support shaft, said clevis being suitable to be rotatably mounted on said arm, while said support shaft extends substantially perpendicular to said arm, and on the other hand at least two working members installed on said support shaft in positions angularly offset relative to one another. other, said support shaft being rotatable to be able to alternately carry each of said at least two working members between a retracted position within said yoke and a working position projecting from said yoke. One of said at least two working members is a water jet cutting device. Thus, a feature of the invention lies in the implementation of a water jet cutting device on the support shaft inside the yoke, or fork-block, as well as the tool d machining, so as to cut a part and then machine it without having to disassemble it and even without dead time. The water jet cutting device is thus carried from a working position to a retracted position inside the yoke, by driving the support shaft in rotation, while the other work tool is consequently carried , in working position. In this way, a single machine tool structure is necessary, which reduces the cost of installation, but moreover, the cutting and machining time is shortened, since no dismantling of parts is necessary. In addition, the positioning accuracy of the cutting head and the machining head is greatly improved because of the use of the same carrier shaft to support both. In addition, since it is possible to be able to go from a cutting phase to a machining phase without dead time, it is also possible conversely to be able to go from a machining phase to a cutting phase. . And hence, when the piece has significant dimensions, time savings are made on the movements of the tool head. According to a feature of the invention that is particularly advantageous, said water jet cutting device comprises an injection nozzle and a recovery receptacle mounted opposite said injection nozzle. In this way, it comes to recover sludge cuts incorporating including, water, abrasive and debris of materials, during the cutting phase, through the recovery receptacle, which is located opposite the injection nozzle in its extension. Indeed, the multi-axis swivel head is driven, relative to the workpiece, so as to carry the injection nozzle on one side of the workpiece and the receiving receptacle on the other side. The stream of water and abrasive particles comes in its course, cross the room, and fall into the receptacle. Therefore, cutting does not cause any projection of water or sludge, which makes possible the implementation of the device on the support shaft, near the other pin, which is, she, driven by an electric motor. In addition, the abrasive particles and the jet water do not penetrate the inside of the spindle, which could damage the mechanical elements, by abrasion and also corrosion. Preferably, said injection nozzle extends in a direction inclined relative to a tangent to said support shaft. Thus, the water jet cutting device comprises a pipe which extends along a tangent to the support shaft, and the injection nozzle extends in the extension of the pipe in a direction inclined with respect to the pipe. . In this way, it is easier to perform the cutting in areas of the recessed part, as will be explained in more detail in the following description. According to a particularly advantageous embodiment, said jet water cutting device comprises a discharge conduit connected to said recovery receptacle. In this way, the cutting sludge is continuously sucked up as and when they are produced. It is then possible to operate the waterjet cutting device regardless of the orientation of the nozzle and the receptacle, especially when the receptacle is located above the nozzle relative to the ground. In addition, said waterjet cutting device advantageously comprises an abrasive particle feed duct connected to said injection nozzle. In this way, the pressurized water supply circuit is independent and is directly connected to the injection nozzle, while the abrasive particles are introduced into the water jet via the supply duct at the level of the water supply. the injection nozzle. According to a particularly advantageous embodiment, said water jet cutting device comprises a V-shaped holding member having two branches for holding said recovery receptacle opposite said injection nozzle. Advantageously, said V-shaped holding member is rotatably mounted about an axis substantially perpendicular to said support shaft. Thus, said V-shaped holding member defines a mean plane and is connected to said support shaft so that said middle plane extends substantially perpendicularly to the support shaft. The axis around which the V-shaped holding member is rotatable, cuts the two branches. In this way, during the cutting phase, the V-shaped holding member can be rotated by a determined amplitude, so as to facilitate the movements of the pivoting head according to the geometry of the part. Preferably, according to said variant embodiment, said V-shaped holding member further comprises a fixing plate provided on one of said two branches in order to fix said V-shaped holding member to said support shaft. As will be explained in more detail in the following description, the plate has controllable locking members for interchanging the V-shaped holding member. In fact, different types of V-shaped holding member are provided, so as to obtain different distances between the injection nozzle and the recovery receptacle to be able to cut pieces of different thicknesses and different geometries. Also, the other of said two branches advantageously receives said recovery receptacle, which is open towards the other branch.
    [0004] According to a particularly advantageous embodiment of the invention, said V-shaped holding member comprises a passage path opening into said receiving receptacle and into said fixing plate to form a portion of said evacuation duct. Thus, the passageway comprises at the mounting plate a connector intended to be connected to the inlet of another portion of the discharge duct, when the fixing plate is fixed on the support shaft. In addition, the multi-axis swivel head further comprises a water pressurizing device coupled to said water jet cutting device, and said water pressurizing device is adapted to be housed inside said movable arm. In this way, the water pressurization device is located closer to the injection nozzle, which reduces pressure losses in comparison with the waterjet cutting installations according to the prior art, where they are distant from each other.
    [0005] Other features and advantages of the invention will appear on reading the following description of a particular embodiment of the invention, given by way of indication but not limitation, with reference to the accompanying drawings in which: Figure 1 is a schematic perspective view of a machine tool including a multi-axis swivel head according to the invention; - Figure 2 is a partial schematic perspective view of an element of the multi-axis swivel head according to the invention according to a first embodiment; FIG. 3 is a partial schematic perspective view of the element shown in FIG. 2 according to another angle of view; FIG. 4 is a partial schematic perspective view of the element represented in FIG. 2 in a first position; working; - Figure 5 is a partial schematic perspective view of the element shown in Figure 2 in a second working position; - Figure 6 is a schematic perspective view of the multi-axis swivel head according to the invention according to a second embodiment, in the working position; - Figure 7 is a schematic view of the multi-axis swivel head shown in Figure 6, in a rest position; and, - Figure 8 is a detail view of an element shown in Figure 6 and 7.
    [0006] Figure 1 illustrates a machine tool 10 comprising a gantry 12 having an upper cross member 13 extended above a work table 14. This allows to immobilize a complex piece 16 having a curve 18 and parallel stiffeners 20. The machine tool 10 comprises a vertical arm 22 shown cutaway and connected to the gantry 12 by a carriage 24 for driving the arm 22 in a direction parallel to the crossbar 13. In addition, the arm 22 is movable in translation according to its own. axis, which extends vertically. The arm 22 has an end 26 on which is mounted a multi-axis swivel head 28. It comprises a yoke 30 forming a fork-shaped unit, and rotatably mounted at the end 26 of the arm 22 around the vertical axis of the arm 22. It further comprises a support shaft 32 rotatably mounted within the yoke 30, along an axis substantially perpendicular to the vertical axis of the arm 22 and which will be described in more detail below with reference to FIGS. 2 to 4.
    [0007] Figure 2 shows the support shaft 32 adapted to be installed inside the yoke 30 or fork-block to be rotated about the horizontal axis B. The support shaft 32 has two opposite circular flanks 34 , 36 and in between, on the one hand a pin 38 extending along an axis tangential to the support shaft 32 perpendicular to the axis B and able to receive a working tool, and secondly a device The water jet cutter 40 extends in a position substantially diametrically opposed to the spindle 38 relative to the support shaft 32. Referring to FIG. water jet cutting device 40. It comprises a V-shaped retaining member 42 having two branches, a free branch 44, and an attachment branch 46 terminated by a mounting plate 48. It comprises a mounted injection nozzle 50 in the extension of a tubing 52. The tubing 52 is tends tangentially to the support shaft 32, while the injection nozzle 50 extends in a direction inclined relative to the tubing 52, for example between 150 ° and 170 °. The mounting plate 48 has a notch 54, and it is connected to the support shaft 32 so that the tubing extends through the notch 54, while the injection nozzle 50 extends towards the end of the free branch 44, and more precisely to a receiving receptacle 56 integral with the end of the free branch 44. The receiving receptacle 56 is of cylindrical shape open towards the injection nozzle 50. It is made in a high-resistance material and is connected to a discharge pipe 58, which extends inside the free branch 44 to then be able to extend through the pivoting head and then to a recovery tank. In addition, the exhaust duct 58 is intended to be depressed by means of a suction pump, not shown, as will be explained below. Furthermore, the mounting plate 48 is fixed on a ring 60 shown in transparency through the support shaft 32, which ring 60 is rotatable by means of an electric actuator 62. In this way, the holding member V 42, as a whole is adapted to be rotated. Advantageously, the tubing 54 supporting the injection nozzle 50 is rotationally integral with the ring gear 60 in order to be able to drive the receiving receptacle 56 as the injection nozzle 50 is driven. In this way, the receiving receptacle 50 56 remains in the axis of the injection nozzle 50 regardless of the position of the nozzle 50. In addition, the injection nozzle 50 has a lateral connection 64 to be able to connect an abrasive particle supply line 66 which appears in Figure 5. This Figure 5, the support shaft 32 engaged between two facing cheeks 68, 70 of the yoke 30 so as to pivot about the horizontal axis B. There is also, d on the one hand the V-holding member 42 equipped with the receiving receptacle 56, and the injection nozzle 50, both of which project from the yoke 30, and on the other hand the complex piece 16 provided with its stiffeners 20. It will be observed that the multi-axis swivel head is adjusted so that the injection nozzle 50 and the receiving receptacle 56 are located on either side of the stiffener 20. The axis of the injection nozzle 50 is then substantially perpendicular to the stiffener 20. 3014 715 8 Before describe the operation of the multi-axis swivel head 28, we will return to Figures 1 and 2, showing a water pressurization device coupled to the water jet cutting device. More specifically, in FIG. 1, the end 26 of the arm 22 houses inside, a pressurizing device 72 comprising an intensifier and an accumulator connected directly to the injection nozzle 50 by means of a high duct. Pressure 74. Also, the water is supplied to the pressurizing device and the intensifier using a low pressure hose 76, while the pressurized oil is supplied by means of two medium pressure hoses 78. The water circuit comprises a booster pump 80, and a water supply 82, while the oil circuit comprises a hydraulic pump 84, a cover 86 and a distributor 88. The hydraulic circuit allows alternately driving a piston in a chamber, and thereby pressurizing water, according to a well-known technique, up to pressures of 4000 to 6000 bar. Thus, thanks to the proximity of the pressurizing device 72 and the injection nozzle 50, the feed duct of pressurized water is therefore shorter, and hence the pressure losses are lower. Also, for a given pressure we obtain a better efficiency of the cut. The lengths with large radius of curvature of rigid piping required on large machines are eliminated, thus avoiding fragile abutments by very high pressure connection. Referring again to FIG. 4 illustrating the multiaxis pivoting head in the cutting position of the stiffener 20. Thus, the implementation of the water under pressure through the nozzle 50 and concomitantly the injection of abrasive particles through the lateral connection 64, causes the cutting of the stiffener 20. In addition, the exhaust duct 58 connected to the receiving receptacle 56 is depressed. In this way, the jet of water passes through the stiffener 20 and then falls into the receiving receptacle 56 located opposite, carrying with it the abrasive particles, debris material and lubricants. The slurry thus formed is sucked continuously through the evacuation pipe 58. In this way, most of the projections due to the jet of water are sucked through the receiving receptacle 56. Also, the other elements of the head pivoting, and in particular the mechanism of the support shaft 32 and the pin 38 are not affected. With this sludge recovery arrangement, the water jet cutter 40 can be arranged near the spindle 38.
    [0008] The cutting of the stiffener 20 is performed by driving in translation the multiaxis pivoting head 28 parallel to the stiffener at a predetermined speed. As soon as the cutting operation is completed, and it is desired to carry out a machining step in the same area of the complex part 16, it is then easy to control the rotation of the support shaft 32. about 180 °, for example in masked time during the displacement of the multi-axis swivel head 28, so as to retract the water jet cutting device 40, and to carry the pin 38 equipped with a tool 90, projecting from the screed and work situation as shown in Figure 5. This figure shows the multi-axis swivel head 28 adjusted above the complex part 16. The waterjet cutting device 40 is then inactive and housed at the The tool 90 is precisely carried against the edge of a recess 92 formed in the complex part 16 so as to deburr said edge, for example. Conversely, when the machining phase is completed and a cutting operation is necessary in the environment close to where the multi-axis swivel head 28 is located, the support shaft 32 is again driven into position. rotation about 180 ° in the opposite direction, so as to make the water jet cutting device 40 operational again. Reference will now be made to FIGS. 6 and 7 to describe a multi-axis swivel head according to another embodiment of FIG. Implementation. The elements identical to the previous implementation mode or having the same functions will bear the same reference assigned a prime sign: "'".
    [0009] Thus, there is shown in Figure 6 a multi-axis swivel head 28 'comprising a clevis 30' and a support shaft 32 'located therein. The support shaft 32 'is equipped with a pin 38' and in a substantially diametrically opposed position of a water jet cutting device 40 '. The latter has an injection nozzle 50 'and opposite, a receiving receptacle 56' mounted on a V-shaped holding member 42 'which will be described in more detail with reference to FIG. V 42 'has a free branch 44', and a fixing branch 46 'also forming the mounting plate 48'. The latter has a notch 94 and centering pins 96, 98 and fixing 100, 102. The end of the free leg 44 'has a receiving receptacle 56' and inside the free leg 44 ', s extends a portion of exhaust duct here masked, and which opens in the plate 48 'at a connector 104. Thus, V hold member 42' can be installed automatically on the support shaft 32 ', the injection nozzle 50 'extending through the notch 94, while, firstly the centering pins 96, 98 and fixing 100, 102 are engaged in holes provided for this purpose, and on the other hand, the connector 104 of the exhaust duct portion is automatically and sealingly connected to another portion of the exhaust duct. In this way, as shown schematically in FIG. 7, different types of V-shaped retaining member 42 'will be installed in a rack and the multi-axis swivel head 28' will be able to be raised to such-and-such type. V-retaining member 42 'for automatic mounting. The types of V-holding member 42 'can be differentiated for example by the distance between the two branches, and therefore the distance between the receiving receptacle 56' and the injection nozzle 50 '. This is, for example, the difference between the first two holding members 106, 108 shown in FIG. 7. The third 110 is not properly operational as a tool and merely serves to protect the injection nozzle 50 '. . The fourth 112 makes it possible to carry a measurement system and it is not operational either as a tool. The last 114 is fully operational and includes a motor for rotating the mounting plate 48 '
    权利要求:
    Claims (11)
    [0001]
    REVENDICATIONS1. Multi-axis swivel head intended to be mounted at the end of a machine tool movable arm (22), said pivoting head comprising, on the one hand, a yoke (30) comprising a support shaft (32), said yoke being suitable to be rotatably mounted on said arm (22), while said support shaft (32) extends substantially perpendicular to said arm (22), and secondly at least two working members (38, 40) installed on said support shaft (32) in positions angularly offset relative to one another, said support shaft (32) being rotatable to be able to alternately carry each of said at least two working members (38, 40) between a position retracted inside said yoke (30) and a working position projecting from said yoke; characterized in that one of said at least two working members (40) is a water jet cutting device.
    [0002]
    2. multi-axis swivel head according to claim 1, characterized in that said jet water cutting device (40) comprises an injection nozzle (50) and a recovery receptacle (56) mounted opposite said nozzle injection (50).
    [0003]
    3. multi-axis swivel head according to claim 2, characterized in that said injection nozzle (50) extends in a direction inclined relative to a tangent to said support shaft (32).
    [0004]
    A multi-axis swivel head according to claim 2 or 3, characterized in that said water jet cutting device (40) comprises an exhaust duct (58) connected to said recovery receptacle (56).
    [0005]
    The multi-axis swivel head according to any of claims 2 to 4, characterized in that said water jet cutting device (40) comprises an abrasive particle supply duct (66) connected to said injection nozzle (50).
    [0006]
    6. multi-axis swivel head according to any one of claims 2 to 5, characterized in that said jet water cutting device (40) comprises a V-shaped holding member (42) having two branches (44, 46) for maintaining said recovery receptacle (56) facing said injection nozzle (50).
    [0007]
    7. multi-axis swivel head according to claim 6, characterized in that said V-retaining member (42) is rotatably mounted about an axis substantially perpendicular to said support shaft (32).
    [0008]
    8. multi-axis swivel head according to claim 6 or 7, characterized in that said V-retaining member (42) further comprises a fixing plate (48) provided on one of said two branches (46) to be able to fix said V-retaining member (42) to said support shaft (32).
    [0009]
    9. multi-axis swivel head according to claim 8, characterized in that the other of said two branches (44) receives said recovery receptacle (56).
    [0010]
    A multi-axis swivel head according to claim 4 and any one of claims 6 to 9, characterized in that said V-keeper (42) has a passageway opening into said receiving receptacle (56) and into said fixing plate (48) for forming a portion of said exhaust duct (58).
    [0011]
    The multi-axis swivel head according to any one of claims 1 to 10, characterized in that it further comprises a water pressurizing device (72) coupled to said water jet cutting device (40), and said water pressurizing device (72) is adapted to be housed inside said movable arm (22).
    类似技术:
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    同族专利:
    公开号 | 公开日
    ES2654054T3|2018-02-12|
    EP3083142B1|2017-11-15|
    EP3083142A1|2016-10-26|
    FR3014715B1|2016-02-05|
    WO2015092228A1|2015-06-25|
    US20160311079A1|2016-10-27|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    EP1405691A1|2002-10-03|2004-04-07|Forest Line Albert|Multi-axis rotating head of a machine tool|
    WO2008128303A1|2007-04-24|2008-10-30|Techni Waterjet Pty Ltd|Improved water jet cutting machine|
    DE3434899C2|1983-10-19|1992-04-09|Kuka Schweissanlagen + Roboter Gmbh, 8900 Augsburg, De|
    JP5455541B2|2009-10-14|2014-03-26|三菱重工業株式会社|Stringer manufacturing method|EP3292947A1|2016-09-07|2018-03-14|Water Jet Sweden AB|Machine and method for fluid jet cutting|
    CN106873529B|2017-03-17|2018-12-28|华中科技大学|The algorithm that cutter rings body is projected to the side of triangular plate in a kind of five-axis robot track|
    IT201700114587A1|2017-10-11|2019-04-11|Cms Spa|WATER JET CUTTING SYSTEM|
    CN108927737A|2018-08-07|2018-12-04|诸葛佳缘|A kind of metal surface derusting sand blasting unit|
    法律状态:
    2015-11-23| PLFP| Fee payment|Year of fee payment: 3 |
    2016-11-21| PLFP| Fee payment|Year of fee payment: 4 |
    2017-11-21| PLFP| Fee payment|Year of fee payment: 5 |
    2019-09-27| ST| Notification of lapse|Effective date: 20190906 |
    优先权:
    申请号 | 申请日 | 专利标题
    FR1362813A|FR3014715B1|2013-12-17|2013-12-17|MIXED MULTIAXIS SWIVEL HEAD|FR1362813A| FR3014715B1|2013-12-17|2013-12-17|MIXED MULTIAXIS SWIVEL HEAD|
    EP14827821.1A| EP3083142B1|2013-12-17|2014-12-11|Mixed multiaxial pivoting head|
    PCT/FR2014/053280| WO2015092228A1|2013-12-17|2014-12-11|Mixed multiaxial pivoting head|
    US15/104,857| US20160311079A1|2013-12-17|2014-12-11|Mixed multiaxial pivoting head|
    ES14827821.1T| ES2654054T3|2013-12-17|2014-12-11|Mixed multi-axis pivot head|
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