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    • 专利摘要:
    The invention relates to a rotating cam device (34) for a gripping head (1) provided with gripping members arranged in side-by-side positions and at a variable distance;the device (34) extends along a horizontal axis (35) and has a first cam (50) and at least a second cam (52a), which extend around the horizontal axis (35), are suitable to be engaged by tappet elements (35). 33d, 33c), respectively, by a first and a second gripping member (20d, 20c), and have, at least in part,an angled or helical shape for causing the translation of the tappet elements parallel to the horizontal axis (35) in response to a first and second cam (50, 52a) around the horizontal axis (35); the second cam (52a) is movable with respect to the first cam (50) along the horizontal axis (35), at least when the device (34) is installed in the gripping head (1) and rotates about the horizontal axis (35) ).
    公开号:CH714902A2
    申请号:CH00502/19
    申请日:2019-04-12
    公开日:2019-10-15
    发明作者:Torrero C/O Carle & Montanari - Opm S P A Tonino
    申请人:Carle & Montanari – Opm S P A;
    IPC主号:
    专利说明:

    Illl II II II11111111111 II
    SWISS CONFEDERATION
    FEDERAL INSTITUTE OF INTELLECTUAL PROPERTY (11) CH 714 902 A2
    Patent application for Switzerland and Liechtenstein
    Patent treaty of 22 December 1978 between Switzerland and Liechtenstein
    (51) Int. Cl .: B65G 47/90 (2006.01) B65G 47/46 (2006.01) B65B 5/06 (2006.01) F16H 25/12 (2006.01) B65G 47/91 (2006.01)
    (12) PATENT APPLICATION (21) Application number: 00502/19 (71) Applicant:
    CARLE & MONTANARI - OPM S.P.A., Via Selice Provinciale, 17 / A 40026 Imola (BO) (IT) (22) Date of filing: 12.04.2019 (72) Inventor / ln wind ri:
    Tonino Torrero c / o CARLE & MONTANARI - OPM S.P.A., 4026 Imola (BO) (IT) (43) Application published: 15.10.2019 (30) Priority:
    04/13/2018
    IT 102018000004497 (74) Authorized representative:
    Isler & Pedrazzini AG, Postfach 1772
    8027 Zürich (CH) (54) Rotating cam device for a gripping head provided with gripping members arranged in side-by-side positions and at a variable distance, and gripping head provided with such rotating cam device.
    (57) The invention relates to a rotating cam device (34) for a gripping head (1) provided with gripping members arranged in side-by-side positions and at a variable distance; the device (34) extends along a horizontal axis (35) and has a first cam (50) and at least a second cam (52a), which extend around the horizontal axis (35), are adapted to be engaged by tappet elements (33d, 33c) carried respectively by a first and a second gripping member (20d, 20c), and have, at least in part, an inclined or spiral shape to cause a translation of the tappet elements parallel to the axis horizontal (35) in response to a rotation of the first and second cam (50, 52a) around the horizontal axis (35); the second cam (52a) is movable with respect to the first cam (50) along the horizontal axis (35), at least when the device (34) is installed in the gripping head (1) and rotates around the horizontal axis (35) .
    CH 714 902 A2
    Description
    CROSS REFERENCE TO RELATED PATENT APPLICATIONS [0001] This application claims the priority of Italian Patent Application No. 102 018 000 004 497 filed on April 13, 2018, the content of which is incorporated herein by reference.
    [0002] The present invention relates to a cam device for a gripping head provided with gripping members arranged in positions side by side and at variable distance.
    [0003] To transfer products from a pick-up station to a deposit station, transfer machines are known comprising a robot and a gripping head, which is moved by the robot between the two stations and comprises a series of gripping members arranged in side-by-side positions and operated to grab, hold and release respective products. In the picking station, the products are arranged in a row at a predetermined constant distance, while normally the storage station has one or more containers in which the products must be packaged at a different distance from that of the picking station.
    [0004] The gripping head comprises a horizontal guide, to which the gripping members are slidably coupled. The distance between the gripping members along the horizontal guide is reduced during the transfer from the picking station to the storage station, so as to position the products at the required distance from the storage station.
    [0005] In order to move the gripping members closer and further away along the horizontal guide, solutions are known which comprise a translating plate or a rotating cylinder, having a series of cams or tracks on its own external lateral surface. In both cases, the cams or tracks are engaged by respective tappet elements which, in turn, are carried by the gripping members. The cylinder or the plate are operated in such a way as to slide the tappet elements along the cams and, consequently, make the gripping members translate with predetermined speeds and towards predetermined positions.
    [0006] A solution of the rotating cylinder type, for example, is described in patent EP 2 192 063, where the cams are continuous in a circumferential direction around this cylinder.
    [0007] There is a need to improve the known solutions of the type just described so as to increase the stroke that is performed by the grippers along the horizontal guide due to the rotation of the cylinder.
    [0008] The object of the present invention is to provide a cam device for a gripping head provided with gripping members arranged in side-by-side positions and at a variable distance, which allows to fulfill the above requirement in a simple and inexpensive way, preferably through a relatively small number of pieces and / or so that it can be replaced relatively easily and safely.
    [0009] According to the present invention, a rotating cam device is provided for a gripping head provided with gripping members arranged in positions side by side and at a variable distance, as defined in claim 1.
    [0010] The invention will now be described with reference to the attached drawings, which illustrate an example of non-limiting implementation, in which:
    fig. 1 is a front view, with schematic parts, of a preferred embodiment of the rotating cam device for a gripping head provided with gripping members arranged in side-by-side positions and at a variable distance, according to the present invention, during the removal of some products;
    the fig. 2 and 3 are similar to fig. 1 and show the gripping head in a different operating condition for the transfer and packaging of the picked products;
    fig. 4 is a bottom perspective showing an enlarged detail of the gripping head visible in fig. 1;
    fig. 5 is a perspective of the device of the present invention, illustrated together with a plate component, which can be used when replacing this device from the gripping head;
    the fig. 6 and 7 are perspectives which illustrate two details of the device of the present invention, in enlarged scale and cross-section according to respective horizontal section planes; and fig. 8 illustrates a different rotating cam device, interchangeable with the device of fig. 5.
    [0011] In fig. 1, the reference number 1 indicates a gripping head, which is set in motion by a robot not shown, to transfer products 4 from a pick-up station 2 to a storage station 3 (which are schematically illustrated).
    [0012] In particular, the products 4 to be transferred are arranged in station 2 in a row along a horizontal direction 5, in fixed positions and at a predetermined constant reciprocal distance. Station 3, on the other hand, houses one or more containers 6, in which the products 4 must be packaged. In particular, a row of containers 6 is provided which is parallel to the direction 5 and is moving, preferably at constant speed, during the transfer motion performed by the head 1 towards the
    CH 714 902 A2 station 3 (fig. 2) and during the release of the products 4 into the containers 6 (fig. 3): preferably, the robot imposes on the head 1 a movement synchronized with that of the containers 6 during the release of the products 4. In any case, the present treatment is also applicable to cases in which the container 6 is stationary.
    [0013] Still with reference to fig. 1, the head 1 comprises a support structure 10, which is fixed to the end of an arm of the robot mentioned above, in a manner not illustrated and not described in detail. In particular, the structure 10 comprises: a horizontally elongated upper plate 11; and two sides 13,14 which are arranged in fixed positions at the opposite ends of the plate 11 and project downwards from the plate 11 itself.
    [0014] The plate 11 supports, in fixed positions, one or more pneumatic distributors 15 and a guide 16, which extends along a horizontal rectilinear direction 19 and is preferably arranged on a lower face 17 of the plate 11.
    [0015] The head 1 furthermore comprises a plurality of gripping members arranged in a row, in positions side by side, along the direction 19. In the specific case, the gripping members are also called "fingers". For example, there are eight grippers, indicated respectively with 20a, 20b, 20c, 20d, 20e, 20d, 20c and 20b, following the order of position from left to right in figs. 1, 2 and 3. Advantageously, the gripping member 20a is of an auxiliary type, that is, it is used together with the others only for some types and / or formats of products. In fact, as visible in figs. 2 and 3, in the specific case only the gripping members 20b, 20c, 20d and 20e are used to transfer the products 4, while the gripping member 20a remains inactive. The gripping member 20a can become active when a so-called "format change" is carried out, ie when the head 1 is reconfigured to package different products (for example when the device shown in fig. 8 is used).
    [0016] The gripping members 20a-20e comprise respective vertical stems 23 and respective support blocks 24 fixed to the upper ends of the stems 23. With reference to fig. 4, preferably the blocks 24 comprise respective end portions 25 which project horizontally and orthogonally to the direction 19 and are arranged vertically under the face 17. The blocks 24 carry, in fixed positions, respective shoes or slides 26, slidingly coupled to the guide 16 whereby the gripping members 20a-20e can translate along the direction 19. In particular, the shoes 26 are fixed above the portions 25.
    The gripping members 20a-20e furthermore comprise respective devices 27, which are arranged in fixed positions at the lower ends of the stems 23 and can be operated, for example pneumatically, to grasp, hold and release the relative products 4. In the specific case, with the exception of the gripping member 20a, the devices 27 comprise respective pairs of suction cups 28 designed to come into contact with the upper face of the products 4. Alternatively, the devices 27 can comprise a different suction system or grippers operated electrically or pneumatically.
    [0018] As visible in fig. 1, the devices 27 are connected to the distributors 15, in particular through internal passages to the stems 23 and through flexible pipes 29 which connect the blocks 24 to connectors provided on the distributors 15. In turn, the distributors 15 are connected to a pneumatic system ( not illustrated) for the generation of the vacuum, so as to put the area under the suction cups 28 in depression when the products 4 must be grasped. The release of the products 4 in the station 3 (fig. 3) takes place by controlling respective solenoid valves of the distributors 15 in order to stop this depression, or in order to generate a slight pneumatic pressure between the suckers 28 and the upper face of the products 4.
    [0019] In the specific and particular illustrated example, the devices 27 of the two gripping members 20b carry respective side plates 30, which are fixed with respect to the corresponding stems 23 and project downwards with respect to the suckers 28 so as to define respective support shoulders , which are orthogonal to direction 19.
    [0020] The gripping members 20b, 20c and 20d are translated along the guide 16 by a moving unit 32 between an enlarged or open configuration (fig. 1) and a compacted or close configuration (fig. 2 and 3), in to which the gripping members 20a-20e are closer to each other, along the direction 19. In particular, in the enlarged configuration the suckers 28 are arranged at a distance equal to that provided between the products 4 to be picked up in the station 2, while in the configuration compacted, the suckers 28 are arranged at a distance equal to that required by the places provided in the container 6 in station 3.
    [0021] Preferably, in the enlarged configuration, the distances between the stems 23 (also as regards the gripping member 20a) are all equal to each other.
    The group 32 is of the cam and tappet type and comprises at least one tappet element on each gripping member. According to a preferred aspect of the present invention, as visible in fig. 4, each of the gripping members 20a, 20b and 20e is provided with a single tappet element, indicated respectively by 33a, 33b and 33e. Each of the gripping members 20c and 20d, on the other hand, is provided with a pair of tappet elements, indicated respectively by 33c and 33d.
    [0023] The tappet elements 33a, 33b, 33c, 33d, 33e are cantilevered by the blocks 24 and are preferably defined by rollers capable of rotating idly around respective axes. In particular, the tappet elements protrude downwards from the portions 25 of the blocks 24 so that their rotation axes are vertical.
    [0024] With reference to figs. 1 and 4, the group 32 further comprises a rotating cam device 34, which extends between the sides 13 and 14 along an axis 35 parallel to the direction 19, below the plate 11 and behind the stems 23. The cam device 34 comprises a support member preferably defined by a shaft 36, which is rotatable around the axis 35 under the action of an actuator 38, preferably defined by a rotary electric motor or a rotary actuator carried by the side 14 in position coaxial with shaft 36 along axis 35.
    CH 714 902 A2 [0025] The opposite axial ends of the shaft 36 are coupled to the sides 13 and 14 so that they can rotate around the axis 35 and so that the cam device 34 can be removed and made interchangeable with respect to the structure 10 The method of coupling between the shaft 36 and the sides 13, 14 is of a known type and not illustrated in detail: for example, it can correspond to the solution indicated in EP 2 192 062.
    [0026] In the particular example illustrated, the cam device 34 comprises a disc 39, which is arranged in correspondence with the gripping member 20a, is axially fixed with respect to the shaft 36 and has an external circular groove 40 engaged by the element of tappet 33a. The coupling between the tappet element 33a and the groove 40 keeps the gripping member 20a in a fixed position along the direction 19 during the rotation of the shaft 36. In fact, as mentioned above, in the illustrated example configuration, the gripping member 20a is inactive, i.e. it is not used; it can be used when the head 1 must operate with another product format (for example with the device of fig. 8).
    [0027] With reference to fig. 6, the cam device 34 comprises a guide 42, parallel to the axis 35 and fixed with respect to the shaft 36 so as to rotate together with the latter; and a plurality of tubular sectors or sleeves, which are coaxial and arranged around the shaft 36, are supported by the latter so that they can rotate together around the axis 35, but have different diameters to each other so as to be inserted one inside the other without interference.
    [0028] In particular, a sector 45 is provided in a central position, two sectors 46 symmetrical to each other with respect to a vertical plane passing through the center of sector 45, and two sectors 47, which are arranged axially more externally and are symmetrical between them with respect to this vertical plane. Sector 45 is axially fixed with respect to shaft 36 and has an external diameter which is smaller than the internal diameter of sectors 46. In turn, the external diameter of sectors 46 is smaller than the internal diameter of sectors 47.
    The sectors 46 and 47 are coupled to the guide 42 by means of respective shoes or slides 48 so as to be supported by the shaft 36 and to be able to slide axially with respect to the sector 45. The sector 45 preferably has a cam 49 which extends in the direction circumferential, i.e. it develops in an arc of a circle (whereby it lies on a plane orthogonal to the axis 35), and is engaged by the tappet element 33e (fig. 4). Therefore, in the illustrated example, given the shape of the cam 49 and given the fixed axial position of the sector 45, the gripping member 20e remains axially fixed during the rotation of the shaft 36. The sector 45 also has two cams 50 which are symmetrical to each other with respect to cam 49 (i.e. with respect to the vertical plane mentioned above), at least in part they develop helical or spiral (i.e. they are inclined at an angle between 0 ° and 90 ° with respect to the tangential direction to axis 35 ) and are engaged by respective tappet elements 33d of the gripping members 20d. Given the shape of the cams 50, the gripping members 20d translate along the direction 19 to and from the gripping member 20e, which is arranged centrally, during the rotation of the shaft 36.
    [0030] The following discussion will refer only to half of the grippers 20b, 20c, 20d and sectors 46.47, as the other half is symmetrical.
    [0031] Sector 46 has a pair of cams 51a and 52a, and sector 47 has a pair of cams 51b and 52b: the cams 51a and 51 b have a circumferential pattern similar to cam 49, while the cams 52a and 52b have, at least in part, a spiral shape, such as cam 50.
    [0032] As visible in fig. 4, considering the two tappet elements 33d of the gripping member 20d, the first engages the cam 50 of the sector 45, as mentioned above, while the second engages the cam 51 a of the sector 46. Therefore, the two tappet elements 33d they keep the sector 46 connected to the sector 45 and to the gripping member 20d during the rotation of the shaft 36. In other words, the second tappet element 33d, engaging the cam 51 a, performs a movement or dragging function, to move axially the sector 46 together with the gripping member 20d, with respect to the sector and the gripping member 20e, while the first tappet element 33d translates under the action of the cam 50.
    The operation is similar for the sector 47. In fact, of the two tappet elements 33c of the gripping member 20c, the first engages the cam 52a of the sector 46, while the second engages the cam 51 b of the sector 47. In this way, during the rotation of the shaft 36, the cam 52a of the sector 46 causes the translation of the gripping member 20c along the direction 19, from and towards the gripping member 20d, and at the same time the gripping member 20c it drags sector 47 with it thanks to the second tappet element 33c which engages the cam 51 b. This movement occurs while the sector 46 is in turn dragged by the tappet element 33d while the sector 45 rotates.
    Finally, the tappet element 33b of the gripping member 20b engages the cam 52b of the sector 47. Given the shape of the cam 52b, the gripping member 20b translates along the direction 19 to and from the socket 20c and towards the sector during the rotation of the shaft 36.
    [0035] According to variants not shown, the sector 45 is devoid of the cam 49; and / or has only one of the two cams 50; and / or is placed in a position other than the central one provided in the illustrated example; and / or is axially movable along the shaft 36. Furthermore, the cam device 34 could comprise a number of axially movable sectors different from the number indicated by way of example for the sectors 46 and 47 and / or a greater number of sectors axially fixed.
    [0036] As explained above, sectors 46 and 47 move without the need for additional actuators, as they are dragged by the tappet elements 33d and 33c. According to variants not shown, the axially movable sectors are made to translate through one or more actuators. In this way, the sectors 46 and 47 can be independently controlled from each other, and each of the gripping members 20c and 20d can be equipped with a single tappet element instead of having two.
    CH 714 902 A2 [0037] As shown in figs. 5 and 6, preferably the sectors 45, 46 and 47 are lightened or empty in the parts that are not affected by the cams and the shoes 48, to reduce their rotation inertia. Advantageously the cams 49, 50, 51 a, 52a, 51 b, 52b are defined by slits which pass radially through the sectors 45, 46 and 47. According to alternatives not illustrated, the cams are defined by channels, grooves and / or protrusions on the external lateral surface of sectors 45, 46 and / or 47.
    [0038] Preferably, the cams extend around the axis 35 for an angle that is less than 360 °, for example an angle between 180 ° and 260 °.
    [0039] The actuator 38 is controlled so as to rotate the shaft 36 in the opposite direction of rotation when it is necessary to reverse the axial movement of the gripping members 20a-20e between the compacted and enlarged configurations. In particular, the power supply and / or the controls arrive to the actuator 38 from a control unit 55, schematically illustrated in fig. 1. In addition, the unit 55 synchronizes the solenoid valves of the distributors 15. In order to synchronize the actuation of the devices 27, the robot movements and the rotation of the cams around the axis 35, the shaft 36 or l the actuator 38 can be provided with an angular positioning sensor which sends signals indicative of the angle of rotation towards the unit 55.
    [0040] With reference to figs. 6 and 7, the cam device 34 comprises a releasable retention system for constraining the sectors 46 and 47 in a fixed axial position with respect to the shaft 36 when the cam device 34 is decoupled from the structure 10 and therefore the sectors 46 and 47 are disengage from the tappet elements 33d, 33c and 33b.
    [0041] This retention system comprises, for each sector 46 and 47, a relative locking element 60, which is coupled to the shaft 36 so as to be able to move between a retention position and a release position. In the retention position, the locking elements 60 engage respective seats 61 formed in the sectors 46 and 47 so as to axially retain the latter with respect to the shaft 36, preferably when the gripping members 20a-20e are arranged in the enlarged position.
    In the release position, the locking elements 60 are set back so as to disengage the seats 61 and leave the sectors 46.47 free to translate.
    [0043] Preferably, the locking elements 60 are sliding radially in respective seats of the shaft 36. Preferably, a single slider 64 is provided to move all the locking elements 60 together. The slider 64 is coupled to the shaft 36 so to slide parallel to the axis 35 and, in particular, it is arranged in a position diametrically opposite to the guide 42. The translation direction of the slider 64 is therefore orthogonal to that of the locking elements 60. To transfer the motion from the slider 64 to the elements locking elements 60, the latter are coupled to the slider 64 by means of respective transmissions 66, for example of the type having an inclined plane or of the cam and tappet type. At least one preloaded spring 67 exerts a push to bring the locking elements 60 into the retention position. One of the two ends of the shaft 36 houses a release element 68, which is movable with respect to the shaft 36 and automatically moves from an advanced position (not shown) towards a backward position (fig. 7) against the thrust of the spring 67 when the shaft 36 is coupled to the structure 10, due to a suitable shoulder 69 provided on the structure 10. The release element 68 is fixed with respect to the slider 64, so that it causes the translation of all the locking elements 60 in the release position during coupling to the structure 10. On the contrary, when the cam device 34 is uninstalled from the structure 10, the release element 68 automatically returns to its advanced position under the thrust of the spring 67, as it fails the shoulder 69, whereby the locking elements 60 automatically advance to the retention position.
    [0044] The cam device 34 is interchangeable and can be replaced by a different rotating cam device, for example as the one shown in fig. 8 and indicated by the reference number 70. The device 70 comprises a cylinder 71 having on its external surface a plurality of cams, which are therefore axially fixed to each other. These cams are engaged by the tappet elements 33a, 33b, 33c, 33d and are shaped so as to move two groups formed each by four gripping members (a group formed by gripping members 20a, 20b, 20c and 20d and other group formed by gripping members 20e, 20d, 20c and 20b) in a manner not shown. In particular, the two tappet elements 33d of each gripping member 20d engage respective cams 72 which are parallel to each other. Likewise, the two tappet elements 33c of each gripping member 20c engage respective cams 73 which are parallel to each other.
    [0045] In this configuration, the gripping member 20a is also used for handling the products.
    [0046] Fig. 5 also shows a plate element 75 which is separate from the cam device 34 and has the function of axially stopping the gripping members 20a-20e of the head 1 along the guide 16 when the cam device 34 or 70 is uninstalled from the structure 10 .
    During use, the plate element 75 is coupled to supports 76 (fig. 4) which are part of the structure 10 and, in particular, protrude downward from the plate 11. For example, the element a plate 75 has a pair of seats 77 which are engaged by two supports 76. The plate element 75 has substantially a comb shape, i.e. it comprises a front edge 78 having a series of retention recesses 79 which are arranged at the positions of the tappet elements 33a-33e (for example when the gripping members 20a-20e are arranged in the enlarged position).
    CH 714 902 A2
    During use, the recesses 79 are engaged by the tappet elements 33a-33e to keep the gripping members 20a-20e stationary.
    [0048] Once the cam device 34 or 70 has been installed in the head 1, the plate element 75 is removed from the supports 76 to free the gripping members 20a-20e.
    [0049] From the foregoing it is clear that, thanks to the spiral profile of the cams 50, 52a and 52b, their rotation around the axis 35 causes an axial translation of the tappet elements 33d, 33c and 33b and therefore a sliding of the members grip 20d, 20c and 20b along the guide 16 between the compacted and enlarged configurations, with motion profiles (speed, accelerations, eco ..) which are set according to the project. At the same time, according to the present invention, the cams 52a and 52b are axially movable to and from the cam 50, whereby an axial translation component is added with respect to that conferred by the cam 52a and 52b alone.
    [0050] It is therefore evident that the axial movement of the cams 52a and 52b allows higher excursions / distances / speeds of the gripping members 20b-20e between the compacted and enlarged configurations, with respect to known solutions where the cams are all fixed along axis 35.
    [0051] In particular, the difference between the diameters of the sectors 45, 46, 47 contributes to leaving free relative sliding and therefore is suitable for compaction.
    Furthermore, the dimensions of the cam device 34 are relatively small.
    [0053] At the same time, the locking elements 60 facilitate the installation and removal of the cam device 34 on the gripping head 1, since they keep the sectors 46 and 47 stationary with respect to the shaft 36 and therefore facilitate these operations. In other words, the block lock of the sectors 46.47 allows to easily couple the cams to the tappet elements 33a-33e, while the latter are, in turn, held still by the plate element 75 during the so-called "format change" ».
    Finally, it is clear from the foregoing that modifications and variations may be made to the cam device 34 and the head 1, described with reference to the preferred example illustrated in the attached figures, which do not fall outside the scope of the present invention. , as defined in the appended claims.
    [0055] As regards the device 34, the cams could have a different shape from that illustrated; and / or structure 10 could have a different shape; and / or sectors 46 and 47 could be different in number from what is indicated and / or be dragged along the axis 35 during the rotation of the device 34 in a way different from that foreseen in the preferred example described.
    Finally, sectors 45, 46, 47 may not be tubular, but extend only over an arc of circumference.
    权利要求:
    Claims (11)
    [1]
    claims
    1. Rotating cam device (34) for a gripping head (1) provided with gripping members arranged in side-by-side positions and at a variable distance; the device (34) extending along a horizontal axis (35) and comprising a first cam (50) and at least a second cam (52), which extend around said horizontal axis (35), are adapted to be engaged by elements of tappet (33d, 33c) carried respectively by a first and a second gripping member (20d, 20c), and have, at least in part, an inclined or spiral shape to cause a translation of said tappet elements parallel to said axis horizontal (35) in response to a rotation of said first and second cam (50, 52a) around said horizontal axis (35); characterized in that said second cam (52a) is axially movable with respect to said first cam (50) at least when said device (34) is installed in said gripping head (1).
    [2]
    Device according to claim 1, characterized in that it comprises a support member (36) which extends along said horizontal axis (35) and comprises two opposite ends adapted to be coupled to a support structure (10) of said head gripping, rotatably about said horizontal axis; said first cam (50) being coupled to said support member (36) in an angularly and axially fixed position; said second cam (52a) being coupled in an axially mobile way and in a fixed angular position to said support member (36).
    [3]
    Device according to claim 2, characterized in that it comprises releasable retention means which keep said second cam (52a) in an axially fixed position with respect to said support member (36), when said support member is decoupled from said support (10).
    [4]
    4. Device according to claim 3, characterized in that said retention means comprise:
    - at least one locking element movable between a retention position, in which it stops said second cam (52a) in a fixed axial position, and a release position, in which it leaves said second cam (52a) free to translate axially;
    - at least one elastic element preloaded and exerting a push to maintain said locking element in the retention position; is
    CH 714 902 A2
    - a release element arranged at one of said ends, movable in response to coupling to said support structure and coupled to said locking element so as to automatically move said locking element into the release position against the thrust of said elastic element in response to said coupling.
    [5]
    Device according to any one of the preceding claims, characterized in that said first and second cams (50, 52a) are arranged on a first and a second sector (45, 46), coaxial to each other along said horizontal axis (35) .
    [6]
    6. Device according to claim 5, characterized in that said first and second sectors (45, 46) have different distances from said horizontal axis (35) so that they can overlap each other.
    [7]
    Device according to claim 5 or 6, characterized in that it comprises movement means for axially moving said second sector (46) with respect to said first sector (45).
    [8]
    Device according to claim 7, characterized in that said moving means comprise a third cam (51 a) arranged on said second sector (46) and adapted to be engaged by a further tappet element (33d) of said first member grip (20d).
    [9]
    Device according to claim 8, characterized in that said third cam (51 a) is defined by an arc of a circle around said horizontal axis (35).
    [10]
    Device according to any one of the preceding claims, characterized in that it comprises a fourth cam (52b) which extends around said axis of rotation (35), has at least in part an inclined or spiral shape and is movable along said horizontal axis (35) with respect to said second cam (52a).
    [11]
    11. Gripping head (1) comprising:
    - a support structure (10);
    - a horizontal guide (16) brought to a fixed position by said support structure (10);
    - a first and at least a second gripping member (20d, 20c), which are side by side with each other, are slidably coupled to said horizontal guide (16), can be operated to grasp and release respective products (4) and are provided of respective tappet elements (33d, 33c);
    - a movement unit (32) for translating said first and second gripping members along said horizontal guide (16) between a compacted configuration and an enlarged configuration, in which said first and second gripping members are arranged at different distances ; said movement group (32) comprising:
    a) a cam device according to any one of the preceding claims, coupled to said support structure (10); said first and second cams (50, 52a) being engaged by said tappet elements (33d, 33c);
    b) at least one actuator (38) controlled to move said cam device with respect to said support structure (10).
    CH 714 902 A2

    CH 714 902 A2


    CH 714 902 A2

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    CH 714 902 A2
    34 68
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    US3200964A|1965-08-17|Article handling apparatus
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    GB2093813A|1982-09-08|Apparatus for separating and transferring a specific number of biscuits
    同族专利:
    公开号 | 公开日
    IT201800004497A1|2019-10-13|
    US20190315576A1|2019-10-17|
    US10882704B2|2021-01-05|
    DE102019205357A1|2019-10-17|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    KR100248704B1|1997-11-08|2000-03-15|정문술|Device for adjusting spacing of semiconductor device in tester|
    KR100792485B1|2006-07-01|2008-01-10|테크윙|Pick-and-place apparatus|
    AT549279T|2007-10-10|2012-03-15|Langen Packaging Inc|DEVICE WITH SEVERAL MEASURING DEVICES|
    KR100949678B1|2008-04-29|2010-03-26|주식회사 씨어테크|Pick and place apparatus|
    IT1392247B1|2008-11-28|2012-02-22|Opm S P A|GRIPPING HEAD PROVIDED WITH SIDE-HOLDING AND VARIABLE PITCHES|
    IT1392248B1|2008-11-28|2012-02-22|Opm S P A|GRIPPING HEAD PROVIDED WITH SIDE-HOLDING AND VARIABLE PITCHES|
    NL2017095B1|2016-07-04|2018-01-10|Sluis Cigar Machinery Bv|Pick-and-place device|
    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    IT102018000004497A|IT201800004497A1|2018-04-13|2018-04-13|CAM DEVICE FOR A SOCKET HEAD EQUIPPED WITH SOCKET ORGANS ARRANGED IN POSITIONS SIDE BY SIDE AND AT VARIABLE DISTANCE, AND SOCKET HEAD EQUIPPED WITH THIS CAM DEVICE|
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