法国专利FR3029819A1 RING STORAGE BARREL AND RING DISTRIBUTION METHOD

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专利摘要:
A barrel (2) for storing a plurality of crimp rings (1), said barrel (2) having a base body (20) including a dispensing outlet (21), a cylindrical main body (22) mounted rotatable along a barrel axis (X2) with respect to said base body (20) in a plurality of angular positions, said cylindrical main body (22) having a plurality of sleeves (23) parallel to each other and adapted to receive each a plurality of rings (1), each sleeve (23) being arranged to open onto said dispensing outlet (21) of said base body (20) for a determined angular position of said cylindrical main body (22).
公开号:FR3029819A1
申请号:FR1462239
申请日:2014-12-11
公开日:2016-06-17
发明作者:Philippe Hauw
申请人:Aerolia SAS；
IPC主号:

专利说明:

[0001] FIELD OF THE INVENTION The present invention relates to the field of crimping a ring on a fixing rod in order to form a riveted connection, in particular in the aeronautical field.
[0002] To connect together two elements together, for example two sheets, it is known to use a controller to set up rivets or the like in predetermined areas of attachment. The automaton can tilt, turn, extend to reach various and varied zones of attachment. By automaton means a mechanical device capable of working automatically, that is to say, without human intervention. The controller is supplied with rivets or the like by a pneumatic conveying line to guide the rivets from a storage location (storage bowl, storage cassette, etc.) to the controller. In practice, the conveying pneumatic pipe may have a length of between 5m and 25m. Such a pneumatic pipe is satisfactory for rivets or a cylindrical ring but is not suitable for a shoulder ring. Indeed, with reference to Figure 1, a shouldered ring 1 comprises a cylindrical body 11 extending axially along an axis X1 and a radial ring 12 at one of its ends which forms a shoulder. If a shouldered ring 1 is introduced into a pneumatic pipe 13 extending along an axis Xc, the shouldered ring 1 is capable of tilting during its transport in the pneumatic pipe 13. The pneumatic pipe 13 is then blocked and it is necessary to perform a maintenance operation, which significantly slows down the operations of solidarity. Finally, shouldered rings 1 are likely to be damaged during their transport, which has another drawback.
[0003] The object of the invention is therefore to remedy these drawbacks by proposing a new ring distribution system whose reliability is increased and maintenance is easy and which can be adapted to shoulder rings.
[0004] GENERAL PRESENTATION OF THE INVENTION To this end, the invention relates to a barrel for storing a plurality of crimping rings, said barrel comprising a base body comprising a dispensing outlet, a cylindrical main body rotatably mounted according to a barrel axis relative to said base body in a plurality of angular positions, said cylindrical main body having a plurality of parallel sleeves and adapted to each receive a plurality of rings, each sleeve being arranged to open onto said outlet dispensing said base body for a determined angular position of said cylindrical main body.
[0005] Advantageously, the sleeves make it possible to store a plurality of rings which are simple to distribute while avoiding a risk of blocking as in the prior art. The rotation of the cylindrical body allows each sheath to be sequentially aligned with the dispensing outlet to rapidly dispense a large number of rings. Such a storage cylinder is particularly suitable for storing and distributing shouldered rings without risk of blockage. The supply cycle time of a ring is advantageously decreased. In addition, such a barrel can store a large number of rings while having a small footprint. Finally, any risk of damaging a ring is avoided. Preferably, the storage cylinder comprises means for pressurizing the sleeve opening on said dispensing outlet. Thus, the storage barrel may dispense rings regardless of the orientation of the storage barrel, particularly when the dispensing outlet is upwardly directed. Preferably, the angular difference between two consecutive sleeves is constant in order to change sheath quickly by simple rotation.
[0006] According to a preferred aspect, at least one angular position of the cylindrical main body is a rest position so as to avoid unintended distribution of rings during handling of the storage barrel. Preferably, the barrel comprises locking means configured to prevent any rotational movement of said cylindrical body relative to said base body about the axis of the barrel for said rest position. Thus, any involuntary rotation of the storage barrel is avoided. Advantageously, the barrel comprises at least one dispensing member adapted to prevent the passage of a ring through the dispensing outlet. Thus, the dispensing member, preferably a dispensing pliers, makes it possible to control the dispensing rate and to distribute each ring individually. The invention also relates to a set of a storage barrel as presented above and a plurality of stepped rings housed in the plurality of sleeves.
[0007] The invention is further directed to a crimping module comprising a storage barrel so that the crimping rings are directly embedded in the crimping module in order to reduce the duration of supply. Advantageously, the crimping module comprises a frame, a storage barrel as previously presented mounted in said frame and a rotation mechanism of the main body cylindrical relative to said base body along the barrel axis. Thus, the crimping module makes it possible to distribute the rings located in the barrels of the storage barrel in a controlled manner.
[0008] Preferably, the crimping module comprises a crimping mechanism of a ring on a fixing rod, preferably a crimping nose. The crimping module advantageously comprises a mechanism for positioning a ring on a fixing rod. Preferably, the positioning mechanism comprises at least one receiving finger adapted to extend at least partially into said dispensing outlet. Thus, the receiving finger makes it possible to temporarily receive a ring between its distribution and its placement on a fixing rod.
[0009] Preferably, the positioning mechanism comprises at least one displacement gripper adapted to grip a ring and move it at the fastening pin precisely from its dispensing location. More preferably, the positioning mechanism includes profile tracking means for guiding the movement of the displacement pliers to slide on the fixation rod. The invention also relates to an automaton for crimping a ring comprising at least one movable arm comprising a head and at least one crimping module, as presented above, mounted on said head. Thus, a ring 15 can be crimped in an automated manner on fixing rods whose position and orientation can be various and varied. The invention also relates to a method of dispensing at least one ring by a crimping module as presented above, a sleeve of the storage barrel being aligned with said dispensing outlet, the method comprising: a step of opening of the dispensing outlet so as to allow the circulation of a ring of the sheath via said dispensing outlet; a step of receiving said ring on a receiving finger; a step of closing the dispensing outlet so as to prevent the circulation of rings from said sleeve via said dispensing outlet; and a step of seizing said ring received on said receiving finger to move it. Thus, the dispensing method makes it possible to individually distribute the rings of the storage barrel in a fast manner while facilitating their delivery to the crimping place. PRESENTATION OF THE FIGURES The invention will be better understood on reading the description which follows, given solely by way of example, and with reference to the appended drawings, in which: FIG. 1 is a diagrammatic sectional view of rings. shouldered during their transport in a pneumatic line according to the prior art; FIG. 2 is a schematic representation of an automaton according to the invention for crimping a ring on a fixing rod; - Figure 3 is a schematic representation of a fastening rod through two panels to be secured before a crimping step; FIG. 4 is a schematic functional representation of the crimping module of the automaton of FIG. 3; - Figure 5 is a perspective representation of a ring storage cylinder according to the invention; FIG. 6 is a schematic functional representation of the barrel of FIG. 5 with its rotation mechanism; Figures 7 to 13 are successive schematic representations of a method of dispensing a ring by the storage barrel; and Figures 14 to 23 are successive schematic representations of a method of crimping a ring on a fastening rod.
[0010] It should be noted that the figures disclose the invention in detail to implement the invention, said figures can of course be used to better define the invention where appropriate. DESCRIPTION OF ONE OR MORE MODES OF EMBODIMENT AND IMPLEMENTATION The invention will be presented with reference to FIG. 2 which shows a crimping automaton 100 comprising a movable arm 101, preferably articulated, which comprises a head 102 on which is mounted a crimping module 3. The controller 100 crimps a ring on a fixing rod to form a riveted connection.
[0011] By way of example, with reference to FIG. 3, there are shown two panels E1, E2 of an aircraft fuselage which are traversed by a fixing rod 4 which comprises a projecting end extending longitudinally along a longitudinal axis. crimping axis X4 oriented 3029819 6 vertically from bottom to top. In this example, the attachment rod 4 extends vertically but it goes without saying that it could extend in all directions. In this example, the aeronautical panels E1, E2 are held against each other by biasing means 41, 42 while the fixing rod 4 is held by blocking means 43 known to those skilled in the art. or by another automaton. Advantageously, the head 102 of the automaton 100 is steerable in a plurality of axes and the arm 101 is movable in a plurality of directions to crimp rings on a large number of fastening rods 4 which are more or less distant from the controller 100 and whose X4 crimping axes are oriented in various and varied ways.
[0012] There will be presented a controller 100 for crimping shouldered rings 1, but it goes without saying that the automaton 100 is adapted to crimp different types of rings, in particular, cylindrical rings. As presented in the preamble, a shouldered ring 1 comprises a cylindrical body 11 extending axially along an axis X 1 and a radial ring 12 at one of its ends which forms a shoulder as illustrated in FIG. 1. When crimping a shouldered ring 1, its radial crown 12 must be positioned against the aeronautical panel El.
[0013] In this example, with reference to FIG. 4, the crimping module 3 of the automaton 100 comprises: a structural chassis 30 integral with the head 102 of the automaton 100; a storage cylinder 2; a rotation mechanism 5 of said storage cylinder 2; A positioning mechanism 6 of a ring 1 on a fixing rod 4; and a crimping mechanism 7 of a ring 1 on a fastening rod 4. The storage barrel 2 is removably mounted in the crimping module 3 in order to be replaced by a new storage barrel 2 when all 3029819 7 shouldered rings 1 have been distributed. Each element of the crimping module 3 will now be presented. Referring to Figures 5 and 6, the storage barrel 2 comprises a cylindrical main body 22 which extends axially along a barrel axis X2 and which comprises a plurality of sheaths 23 parallel to each other and to said cylinder axis X2 . For the sake of clarity, only one sleeve 23 is shown in FIG. 6. Each sleeve 23 is cylindrical and is adapted to receive a plurality of rings 1, in particular, shouldered rings 1 which are stacked consecutively. In this example, the cylindrical body 22 has a circular section but it goes without saying that it could be different. In addition to its cylindrical main body 22, the barrel 2 comprises a base body 20 and a head body 28 which are mounted at the ends of the cylindrical body 22. The base body 20 has a dispensing outlet 21 to allow dispensing of rings 1 according to a distribution axis Xd parallel to the cylinder axis X2. The cylindrical main body 22 is rotatably mounted about the barrel axis X2 with respect to said base body 20 at a plurality of angular positions. Each sleeve 23 of the cylindrical main body 22 is arranged to open onto said dispensing outlet 21 for a given angular position. Preferably, the angular difference between two consecutive angular positions is constant in order to facilitate the successive passage of the sleeves 23 in front of the dispensing outlet 21. In this example, the barrel 2 makes it possible to define a dozen different angular positions which are spaced angle of 30 °. With reference to FIG. 6, the rings 1 are stacked axially and oriented in a sheath 23 so that their cylindrical rings 12 are turned towards the dispensing outlet 21 of the storage barrel 2.
[0014] Preferably, at least one angular position of the cylindrical main body 22 corresponds to a rest position of the storage barrel 2. In particular, in this rest position, the dispensing outlet 21 is not aligned with a sleeve 23 so that to avoid any unintentional dispensing when handling the storage cylinder 2, 3029819 8 in particular, when it is replaced. In this example, with reference to FIG. 5, the cylindrical main body 22 has a groove 24 in place of a sheath 23 filled with stepped rings 1, said groove 24 not being adapted to receive shouldered rings 1. In other words, the storage barrel 2 comprises, in this embodiment, eleven sleeves 23 to correspond to the eleven angular positions of use of the storage barrel 2, the twelfth angular position being a rest position. Preferably, with reference to FIG. 5, the storage barrel 2 comprises at least one locking member 25 configured to prevent any relative movement between said cylindrical main body 22 and said base body 20. In particular, in the position of FIG. rest, the storage cylinder 2 prevents a sleeve 23 is aligned with the dispensing outlet 21 to prevent unintentional dispensing of a shoulder ring 1 by the storage barrel 2. In this example, the Locking member 25 is in the form of a locking pin, but it goes without saying that it could be different. With reference to FIG. 6, the storage barrel 2 further comprises pressurizing means 26 of the sheath 23 which is active, that is, opening onto said dispensing outlet 21 in order to allow the training of the rings 1 of the sheath 23 to said dispensing outlet 21 along the distribution axis Xd and this, regardless of the orientation of the storage barrel 2. Thus, if the storage barrel 2 is oriented vertically upwards with the body 20 in the upper part, the pressurizing means 26 oppose the gravity and drive the shouldered rings 1 of the sleeve 23 to the distribution outlet 21. In this example, the means of pressurizing 26 are pneumatic but it goes without saying that they could be different. Still with reference to FIG. 6, the storage barrel 2 comprises at least one closure member 27 adapted to grip a ring 1 at the dispensing outlet 21 in order to control the distribution of the shouldered rings 1 of a sheath 23. In this example, the closure member 27 is in the form of a dispensing clamp at at least two positions: a closed position in which the dispensing clip is adapted to grip a ring 1 at its periphery and thus blocking the passage of rings 1 via the dispensing outlet 21 and an open position in which the dispensing clip is adapted to allow the passage of rings 1 through the dispensing outlet 21. Preferably, the closure member 27 is adapted to detect whether a ring 1 is present in the closed position.
[0015] The head body 28 of the storage barrel 2 is adapted to close the access to the housings 23 of the cylindrical main body 22. The head body 28 is rotationally integral with the cylindrical main body 22. Also, preferably, the body head 28 includes angular orientation means 280 adapted to be angularly rotated and to change the angular position of the cylindrical main body 22 relative to the base body 20. In this embodiment, with reference to FIG. the angular orientation means 280 are in the form of one or more flats but it is obvious that they could be in a different form.
[0016] Preferably, the storage barrel 2 comprises means for detecting the presence of rings 1 in a sheath 23 in order to determine whether a new sheath 23 must be aligned with said dispensing outlet 21. More preferably, the barrel of storage 2 comprises removable mounting means 20 in the frame 30 of the crimping module 3. As previously described, with reference to FIG. 4, the crimping module 3 of the automaton 100 also comprises a rotation mechanism 5 of the crank barrel. 2. In this example, the rotation mechanism 5 is in the form of an actuator mounted in the frame 30 and adapted to cooperate with the flats of the head body 28 of the storage cylinder 2 and to drive it in rotation. around the barrel axis X2. With reference to FIG. 4, the crimping module 3 of the automaton 100 also comprises a positioning mechanism 6 of a ring 1 on a fixing rod 4.
[0017] The positioning mechanism 6 is configured to recover a shoulder ring 1 of the storage barrel 2 and position it on a fixing rod 4 before being crimped by the crimping mechanism 7 which will be presented later.
[0018] With reference to FIG. 4, the positioning mechanism 6 comprises at least one receiving finger 61 adapted to extend at least partially in said dispensing outlet 21 of the storage barrel 2. In this example, the receiving finger 61 is movable and adapted to move at least about the distribution axis Xd in a retracted position, wherein the receiving finger 61 extends at least partially in said dispensing outlet 21, and an extended position, in which the receiving finger 61 extends outside said dispensing outlet 21 to provide a clearance space between the receiving finger 61 and said dispensing outlet 21. Referring to Figure 6, the receiving finger 61 extends coaxially with the Xd distribution axis.
[0019] Preferably, the positioning mechanism 6 comprises a receiving plate 62, extending transversely to the receiving finger 61, in order to receive a shoulder ring 1 as will be presented hereinafter.
[0020] Still with reference to FIG. 4, the positioning mechanism 6 comprises at least one displacement clamp 63 adapted to grip a shoulder ring 1 and move it accurately on a fastening rod 4 located in the vicinity of the crimping module 3 of the automaton 100. Preferably, the displacement clamp 63 is adapted to move in translation along the three axes and adapted to rotate along at least one axis parallel to the distribution axis Xd of the storage cylinder 2. In order to to allow a precise positioning of the shouldered ring 1 on a fixing rod 4, the positioning mechanism 6 further comprises profile tracking means 30 configured to detect the position of a fixing rod 4 relative to the module reference frame 3 and allow the guide of the displacement clamp 63 so that it can slide the shoulder ring 1 on the fixing rod 4 as will be presented by the sui you. In this example, the profile tracking means 3029819 11 are in the form of a profilometer 64 configured to detect by ultrasound or laser beam. The profilometer 64 makes it possible to control the movement of the displacement clamp 63 with respect to the position of the fixing rod 4. Preferably, the servocontrol is carried out by means of controlled cross tables to guide the displacement gripper 63 In this embodiment, with reference to FIG. 4, the crimping mechanism 10 7 is in the form of a crimping nose 71 configured to crimp the said shouldered collar 1 on the transverse plane to the fixing rod 4. said fixing rod 4. The crimping nose 71 is adapted to move along three axes relative to the frame 30 of the crimping module 3. Such a crimping nose 71 is known to those skilled in the art and will not be presented. more in details. It goes without saying that the crimping mechanism 7 could be in a different form. In this example, the crimping nose 71 is aligned with the axis X4 of the fixing rod 4 and mounted in translation relative to the frame 30 of the crimping module 3 so as to allow crimping by translation along the axis X4.
[0021] Preferably, the displacement gripper 63 is configured to detect whether an object is clamped between its jaws, thereby avoiding a crimping step by the crimping nose 71 in the absence of a stepped collar 1 on the rod. 4. With reference to FIGS. 7 to 13, the storage barrel 2 is in an angular position of use, that is to say, a sleeve 23 of the cylindrical main body 22 is aligned with the dispensing outlet. 21 of the base body 20. The shouldered rings 1 of the sheath 23, which are stacked along the distribution axis Xd, are constrained by the pressurizing means 26 to the dispensing outlet 21.
[0022] As illustrated in FIG. 7, the shoulder ring 1 located in the dispensing outlet 21 is blocked by the dispensing member 27 which clamps its periphery. Also, shouldered rings 1 of the sheath 23 abut against the shoulder ring 1 gripped by the dispensing member 27, hereinafter referred to as "crimp ring 1" for the sake of brevity. Also, the shoulder ring adjacent to the crimp ring 1a is referred to as "next ring lb". In this position, the receiving finger 61 is in the extended position, the receiving finger 61 extending outside said dispensing outlet 21 to provide a clearance space between the receiving finger 61 and said dispensing outlet 21 In order to dispense the crimp ring 1a, the displacement gripper 63 is opened and placed in the clearance space, i.e. along the dispensing axis Xd at a distance 10 from the dispensing outlet 21 as shown in Figure 8. Then, the receiving finger 61 is moved along the distribution axis Xd in the retracted position to be introduced into the crimp ring 1 located in the dispensing outlet 21 as shown in FIG. 9.
[0023] Then, with reference to FIG. 10, the method comprises a release step in which the dispensing member 27 is open so as to release the crimping ring 1 which moves along the distribution axis Xd under the Effect of the pressurizing means 26. The shouldered rings 1 of the sheath 23 are then in abutment against the receiving plate 62. Preferably, the distance between the receiving plate 62 and the dispensing outlet 21 is calibrated in a manner that that the next shouldered ring lb is located at the dispensing member 27 as illustrated in FIG. 10. Then, with reference to FIG. 11, the method comprises a blocking step in which the dispenser member 27 is closed so as to pinch the periphery of the next ring 1b. Thus, the shouldered rings 1 of the sheath 23 are in abutment against the next ring 1b. The crimping ring 1a is for its part gripped by the displacement gripper 63 which closes and closes its periphery as shown in FIG. 11. Thanks to the receiving finger 61, the position of the crimp ring is defined. in a precise manner and the displacement clamp 63 can seize the crimp ring 1 a reliably.
[0024] Then, with reference to FIG. 12, the receiving finger 61 is moved into the extended position in order to release the crimp ring which can be displaced by the displacement gripper 63 at the crimping location as illustrated in FIG. 13. Thus, the receiving plate 62 can temporarily store a ring after its distribution 5 by the storage cylinder 2. Such a distribution method is advantageous because it allows a routing of a ring to crimp it accurately in a restricted environment.
[0025] When a sheath 23 of the storage barrel 2 is empty, the head body 28 of the storage barrel 2 is rotated by the rotation mechanism 5 of the crimping module 3 around the barrel axis X 2 so as to a new sheath 23, filled with shouldered rings 1, is aligned with the dispensing outlet 21. When all the sheaths 23 are empty, the rotation mechanism 5 moves the head body 28 so that the storage barrel 2 in the rest position. The groove 24 is then aligned with the dispensing outlet 21. Then, the locking member 25 of the storage barrel 2 is activated so as to prevent any rotation of the cylindrical body 22 and thus allow the removal of the storage barrel 20 crimping module 3 and its replacement by a new storage barrel 2 filled with shouldered rings 1. Such replacement is simple and quick to implement. Preferably, an empty barrel 2 is filled by means of a replenishing machine which introduces stepped rings 1 successively and automatically into each of the sleeves 23 of said storage barrel 2. There will now be presented several steps in order to crimping a shoulder ring 1 on a fixing rod 4 quickly and reliably.
[0026] Firstly, a preliminary positioning step of the automaton 100 is implemented. For this purpose, the mobile arm 101 of the automaton 100 is moved so as to move and orient the head 102 of the automaton. 100 so that the frame 30 of the crimping module 3 is positioned near the fixing rod 4 and is oriented precisely with respect to the axis X4 of the fixing rod 4. In this example, with reference to FIG. 4, once the automaton 100 in position, the distribution axis Xd is parallel to the attachment axis X4 and the dispensing outlet 21 is located less than 1 cm from the fixing rod 4, preferably from the order of 5 mm. Following the positioning, the reference frame of the frame 30 of the crimping module 3 is precisely positioned and determined with respect to the reference frame of the fixing rod 4, which facilitates the positioning of a ring 1 on the fixing rod 4. As previously presented, the crimping module includes biasing means 41, 42 for holding the panels E1, E2 together and locking means 43 to hold the fixing rod 4 protruding. Referring to Figure 14, the securing pin 4 is held firmly to protrude from the panels E1, E2. Then, with reference to FIG. 15, the profilometer 64 of the crimping module 3 is brought closer to the fixing rod 4 in order to detect the end and the center of the fixing rod 4, which makes it possible to determine the axis according to FIG. which extends the fixing rod 4 and thus facilitate the positioning of the displacement clamp 63 and the crimping nose 71 along this axis so as to move the ring 1 without damage to the fixing rod 4.
[0027] Then, the crimping nose 71 is moved so as to be aligned with the axis X4 of the fixing rod 4 by the information provided by the profilometer 64. Consecutive or simultaneous, the displacement gripper 63, in which is A shoulder ring 1 is positioned between the crimping nose 71 and the fixing rod 4 as illustrated in FIG. 16. The profilometer 64 can then be raised as shown in FIG. 17. Then, the crimping nose 71 and the displacement tongs 63 are moved simultaneously along the axis X4 of the fixing rod 4 so that the shoulder ring 1 is locked in translation on the fastening rod 4, any withdrawal being prohibited by the nose of crimping 71 as illustrated in FIG. 18. The cylindrical ring 12 of the shouldered ring 1, that is to say its shoulder, is located on the side of the fixing rod 4.
[0028] Contrary to a blow-through route, the shoulder ring 1 is advantageously positioned and maintained before crimping, and this, independently of the orientation of the fixing rod 4. Thanks to the crimping method according to the invention, a rod of fixation 4 downward can be crimped, the displacement clamp 63 to overcome the gravity. With reference to FIG. 19, the displacement gripper 63 is open so as to release the flanged collar 1 whose movements are limited by the fixing rod 4 and the crimping nose 71. The displacement gripper 63 can then be disengaged. as illustrated in FIG. 20. As illustrated in FIG. 21, the crimping nose 71 is displaced along the fastening axis X4 in the direction of the fastening rod 4 in order to deform the stepped ring 1 against the first panel El. During crimping, the shoulder ring 1 is secured to the fixing rod 4. Preferably, the projecting portion of the fastening rod 4 breaks during the crimping step to form a robust link of reduced mass as shown in Figure 22. The crimping being completed, the crimping module 3 of the controller 100 is moved, as shown in Figure 23, to crimp a new flanged ring 1 on another fixing rod 4.
[0029] Thanks to the invention, several rings 1 can be crimped consecutively and automatically to form riveted bonds of quality, in particular, to secure panels of an aircraft fuselage. 25

权利要求:
Claims (10)
[0001]
REVENDICATIONS1. Barrel (2) for storing a plurality of crimp rings (1), said barrel (2) having a base body (20) including a dispensing outlet (21), a cylindrical main body (22) rotatably mounted along a barrel axis (X2) with respect to said base body (20) in a plurality of angular positions, said cylindrical main body (22) having a plurality of sleeves (23) parallel to each other and adapted to each receive a plurality of rings (1), each sleeve (23) being arranged to open onto said dispensing outlet (21) of said base body (20) for a determined angular position of said cylindrical main body (22).
[0002]
2. Barrel according to claim 1, comprising means (26) for pressurizing the sheath (23) opening on said dispensing outlet (21).
[0003]
3. Barrel according to one of claims 1 to 2, comprising at least one dispensing member (27) adapted to prevent the passage of a ring (1) by the dispensing outlet (21).
[0004]
4. A set of a storage barrel (2) according to one of the preceding claims and a plurality of shouldered rings (1) housed in the plurality of sleeves (23).
[0005]
5. Crimping module (3) comprising a storage cylinder (2) according to one of claims 1 to 4.
[0006]
6. crimping module (3) according to claim 5 comprising a crimping mechanism (7) of a ring (1) on a fixing rod (4).
[0007]
7. crimping module (3) according to one of claims 5 and 6 comprising a positioning mechanism (6) of a ring (1) on a fixing rod (4). 3029819 17
[0008]
8. crimping module (3) according to claim 7, wherein the positioning mechanism (6) comprises at least one receiving finger (61) adapted to extend at least partially in said dispensing outlet (21). 5
[0009]
9. An automaton for crimping a ring (1) comprising at least one movable arm (101) comprising a head (102) and at least one crimping module (3) according to one of claims 5 to 8 mounted on said head (102).
[0010]
10. A method of dispensing at least one ring (1) by a crimping module (3) according to one of claims 5 to 8, a sleeve (23) of the storage cylinder (2) being aligned with said outlet dispensing device (21), the method comprising: a. a step of opening the dispensing outlet (21) so as to allow the circulation of a ring (1) of the sheath (23) via said dispensing outlet (21); B. a step of receiving said ring (1) on a receiving finger (61); vs. a step of closing the dispensing outlet (21) so as to prevent the circulation of rings (1) from said sheath (23) via said dispensing outlet (21); and 20 d. a step of seizing said ring (1) received on said receiving finger (61) in order to move it.

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引用文献:

公开号 | 申请日 | 公开日 | 申请人 | 专利标题

US392761A|1888-11-13|Button-fastening machine |

US2256012A|1939-08-07|1941-09-16|Charles L Brown|Automatic tool|

US4586405A|1985-07-19|1986-05-06|Imre Berecz|Nut driver|

WO2006056255A2|2004-11-19|2006-06-01|Richard Bergner Verbindungstechnik Gmbh & Co. Kg|Robot hand comprising a hydraulic unit having a storage space with a variable compensating volume|

DE102004006407A1|2004-02-10|2005-09-01|Daimlerchrysler Ag|Device for automated setting of a blind rivet|

EP2417369B1|2009-04-10|2014-04-02|Fatigue Technology, Inc.|Installable assembly having an expandable outer member and a fastener with a mandrel|

JP5809597B2|2012-05-08|2015-11-11|本田技研工業株式会社|nut supply system|

US9316247B2|2013-01-18|2016-04-19|Gage Bilt, Inc.|Feed mechanism for swagable lockbolt collars|WO2017102668A1|2015-12-14|2017-06-22|Richard Bergner Verbindungstechnik Gmbh & Co. Kg|Device and method for setting a connecting element on a workpiece|

DE102017203943B4|2016-03-14|2020-10-29|Richard Bergner Verbindungstechnik Gmbh & Co. Kg|Setting unit and method for setting a connecting element on a workpiece|

US10710747B2|2016-11-30|2020-07-14|The Boeing Company|Compound contour vacuum track for automation of final assembly from the interior of a fuselage|

US10723484B2|2016-11-30|2020-07-28|The Boeing Company|Automated fastening machine using a compound contour vacuum track for automation of final assembly from the interior of a fuselage|

US10821496B2|2018-03-16|2020-11-03|The Boeing Company|Offset fastener installation system|

US10926316B2|2018-03-16|2021-02-23|The Boeing Company|Collar positioning system|

法律状态:
2015-11-19| PLFP| Fee payment|Year of fee payment: 2 |

2016-06-17| PLSC| Search report ready|Effective date: 20160617 |

2016-11-14| PLFP| Fee payment|Year of fee payment: 3 |

2017-05-05| TP| Transmission of property|Owner name: STELIA AEROSPACE, FR Effective date: 20170405 |

2017-05-05| CD| Change of name or company name|Owner name: STELIA AEROSPACE, FR Effective date: 20170405 |

2018-09-28| ST| Notification of lapse|Effective date: 20180831 |

优先权:

申请号 | 申请日 | 专利标题

FR1462239A|FR3029819B1|2014-12-11|2014-12-11|RING STORAGE BARREL AND RING DISTRIBUTION METHOD|FR1462239A| FR3029819B1|2014-12-11|2014-12-11|RING STORAGE BARREL AND RING DISTRIBUTION METHOD|

US14/961,585| US9868148B2|2014-12-11|2015-12-07|Cylinder for storing rings|

EP15198398.8A| EP3031548B1|2014-12-11|2015-12-08|Ring setting module and method for distribution of rings using a ring storage barrel|

CA2914158A| CA2914158A1|2014-12-11|2015-12-08|Storage drum for clamps and clamp distribution process|

BR102015031179A| BR102015031179A2|2014-12-11|2015-12-11|ring storage barrel and ring distribution method|

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