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INSTALLATION AND METHOD FOR PROCESSING OPHTHALMIC LENSES

20230271294 · 2023-08-31

    Inventors

    Cpc classification

    International classification

    Abstract

    One exemplary embodiment relates to an installation and a method for processing ophthalmic lenses, with several processing devices for processing the lenses. The embodiment includes a conveying device connecting the processing devices for transporting lens carriers to and from the processing devices, and with a transfer device for changing transport tracks as required. According to the embodiment, it is provided that the processing devices are arranged in front of the first transport track and that the transfer device is designed as a pushing device with a fork-shaped guide device which guides the lens carriers laterally and in the direction of conveyance.

    Claims

    1. An installation configured to process ophthalmic lenses for spectacles comprising: several separate processing devices for independent processing of the lenses, each processing device comprising its own housing, a conveying device connecting the processing devices to one another for transporting lens carriers with the lenses to and from the processing devices, wherein the conveying device comprises at least two transport tracks, wherein a first transport track serves to convey the lens carriers from one processing device to the next and a second, in particular parallel, transport track serves to convey the lens carriers in parallel to the first transport track; one or more transfer devices for transporting and/or changing the lens carriers as required from one transport track to the other transversely to their direction of conveyance, wherein one or more of: the conveying device forms a continuous first transport track in front of the processing devices, wherein the processing devices each comprising their own manipulation device in order to pick up lenses from the first transport track and/or from lens carriers on the first transport track for processing and/or to deliver them to the first transport track and/or to lens carriers on the first transport track, and wherein the transfer device is designed as a pushing device which pushes or pulls the respective lens carrier transversely with respect to the direction of conveyance from one transport track to the other and thereby guiding the lens carrier both in the direction of conveyance and transversely thereto, and wherein the conveying device comprises a common conveyor belt with two transport tracks and an intermediate area arranged therebetween for the lens carriers, so that a lens carrier can be positioned on the conveyor belt between the transport tracks as required, or that the conveying device comprises two conveyor belts for forming two transport tracks and an intermediate position or intermediate plate arranged therebetween for the lens carriers, so that a lens carrier can be positioned as required between the transport tracks on the intermediate position or intermediate plate.

    2. The installation according to claim 1, wherein the pushing device comprises one or more of a guide device and fork which can be moved one or more of vertically and transversely to the direction of conveyance for lateral guidance of the respective lens carrier.

    3. The installation according to claim 1, wherein the pushing device comprises a linear drive for transversely moving one or more of the guide device and fork.

    4. The installation according to claim 1, wherein the pushing device is configured for one or more of: hydraulic or pneumatic displacement of the lens carriers to change the transport track, and wherein the pushing device is designed for displacement of the lens carriers for changing the transport track without lifting the lens carriers.

    5. The installation according to claim 1, wherein the pushing device is assigned an intermediate position and/or intermediate plate arranged between the conveyor belts or transport tracks.

    6. The installation according to claim 1, wherein guide bars that are configured to guide the lens carriers parallel to the direction of conveyance are provided at one or more of the edges of the conveyor belts and transport tracks, wherein recesses of the guide bars are provided in one or more of the region of the pushing device, the region of the intermediate position, and intermediate plate.

    7. A method to process ophthalmic lenses for vision enhancement, wherein the lenses are conveyed in lens carriers by conveying device to separate processing devices, each processing device with own housings, wherein the conveying device forms at least two transport tracks between which the lens carriers can change by means of transfer devices, so that the sequence of feeding the lens carriers to the processing devices can be varied comprising: the processing devices processing the lenses in the order in which the lens carriers are fed in, wherein one or more of: the conveying device forming a continuous transport track in front of the separate processing devices for feeding the lens carriers to the processing devices, wherein the processing devices receive the lenses to be processed from lens carriers on this transport track, wherein, for changing the transport track, the lens carriers are pushed or pulled from one transport track to the other transport track—preferably exclusively—by the action of primarily lateral force without active lifting the lens carriers, and wherein the lens carrier is displaced transversely to the direction of conveyance by means of a pushing device in order to change a transport track, the lens carrier being guided laterally and/or in the transverse direction and in the direction of conveyance and being displaced without being actively lifted.

    8. The method according to claim 7, wherein one or more of the continuous and first transport track is formed by a continuous conveyor belt.

    9. The method according to claim 7, wherein one or more of the conveying device, the continuous transport track, and the continuous transport track conveyor belt is controlled centrally and/or independently of the processing devices or vice versa.

    10. The method according to claim 7, wherein that the processing devices each remove the lenses to be processed from the respective lens carrier with their own manipulation device.

    11. The method according to claim 7, wherein, for changing the transport track, the lens carriers are each displaced transversely to the direction of conveyance by pusher, the lens carriers being guided one or more of laterally and in the transverse direction and in the direction of conveyance.

    12. The method according to claim 7, wherein a central control or the conveying device controls stop devices for positioning the lens carriers in front of the processing devices.

    13. The method according to claim 7, wherein the lens carriers are pushed or pulled hydraulically or pneumatically from one transport track to the other transport track for changing the transport track.

    14. An installation configured to process ophthalmic lenses with several, separate processing devices configured to independently process the ophthalmic lenses comprising: a conveyor device connecting the processing devices to each other for transporting one or more of the ophthalmic lenses and lens carriers to and from the processing device, wherein the conveying device comprises at least two transport tracks, wherein a first transport track serves for the transport of one or more of the ophthalmic lenses and lens carriers from one processing device to the next and a second, parallel, transport track serves for the parallel transport of one or more of the ophthalmic lenses and lens carriers; transfer devices configured to transport one or more of the ophthalmic lenses and lens carrier from one transport track to the other transversely to the direction of conveyance, for temporary pick-up/intermediate storage as required, as well as for further conveyance of one or more of the ophthalmic lenses and lens carriers as required, wherein the conveying device comprises at least one continuous conveyor belt, wherein at least one drive system is provided for the at least one conveyor belt, wherein each processing device is directly adjacent to the first transport track, wherein each transfer device is designed as a pushing device which pushes one or more of the ophthalmic lenses and lens carriers transversely to the direction of conveyance from one transport track to the other.

    15. The installation according to claim 14, wherein the pushing device comprises a fork movable transversely to the conveying device and/or transversely to the direction of conveyance.

    16. The installation according to claim 14, wherein the pushing device comprises a linear drive for transverse conveying of the fork.

    17. The installation according to claim 14, wherein the fork of the pushing device can be moved in both directions transversely to the direction of conveyance.

    18. The installation according to claim 14, wherein the pushing device is arranged on one or more of the conveying device and on a processing device.

    19. The installation according to claim 14, wherein that the conveying device comprises a conveyor belt with two transport tracks and a common drive system, or wherein the conveying device comprises two separate conveyor belts, each of which forms the transport tracks.

    20. The installation according to claim 14, wherein each pushing device is assigned an intermediate plate arranged between the conveyor belts.

    Description

    BRIEF DESCRIPTION OF THE DRAWINGS

    [0093] FIG. 1 a schematic section of a proposed installation with a conveying device, two processing devices and a pushing device arranged between them in a plan view;

    [0094] FIG. 2 a schematic partial representation of the conveying device of the proposed installation according to FIG. 1;

    [0095] FIG. 3 a perspective view of a first embodiment of the pushing device of the proposed installation according to FIG. 1;

    [0096] FIG. 4 a side view of the pushing device according to FIG. 3;

    [0097] FIG. 5 a perspective view of a second embodiment of the pushing device;

    [0098] FIG. 6 the pushing device according to FIG. 5 in another perspective;

    [0099] FIG. 7 a schematic representation of a lens carrier in a top view; and

    [0100] FIG. 8 a schematic section of a further embodiment of the installation according to the proposal in a plan view.

    DETAILED DESCRIPTION

    [0101] In the figures, the same reference signs are used for the same components and parts, resulting in corresponding properties and advantages, even if a repeated description is omitted.

    [0102] FIG. 1 shows a schematic section of a preferred embodiment of an installation 1 according to the proposal for processing, in particular ophthalmic, lenses 2.

    [0103] The ophthalmic lens 2 is preferably a spectacle lens, i.e. a lens for spectacles and/or eyeglasses.

    [0104] The ophthalmic lens 2 is preferably made of plastic, but can also be made of glass or another material if necessary.

    [0105] The installation 1 according to the proposal preferably comprises several, separate, processing devices 3 for, in particular, independent processing of the ophthalmic lenses 2.

    [0106] The installation 1 preferably comprises different processing devices 3, e.g. for blocking, for shaping, in particular machining, for polishing, for testing or measuring, for marking, for cleaning and/or for coating ophthalmic lenses 2.

    [0107] Further, not only different types of processing devices 3 but also several of the same type can be integrated into the installation 1 for the same processing.

    [0108] As shown in FIG. 1, the proposed installation 1 comprises a conveying device 4 for transporting the ophthalmic lenses 2 and/or for transporting the lens carriers 5, in particular from one processing device 3 to another. The conveying device 4 comprises the task of feeding the ophthalmic lenses 2 and/or lens carriers 5 to the respective processing device 3, conveying them from one processing device 3 to another processing device 3 after processing comprises been completed, and/or guiding them away from a processing device 3.

    [0109] The conveying of ophthalmic lenses 2 and/or lens carriers 5 onto the conveying device 4 can take place for example by means of a pick-up station (not shown). The lenses 2 and/or lens carriers 5 can be removed from the conveying device 4 by means of a delivery station (not shown).

    [0110] The conveying device 4 comprises preferably at least one conveyor belt 6, in particular a continuous conveyor belt 6, preferably two continuous conveyor belts 6, 6′, as indicated in FIGS. 1 and 2.

    [0111] Further, the conveying device 4 preferably comprises two transport tracks T1, T2, in particular wherein the conveyor belts 6, 6′ are each formed by at least one transport track T1, T2.

    [0112] In the illustration example, the conveyor belts 6, 6′ correspond to the respective transport track T1, T2 (FIGS. 1 and 2). In particular, the conveyor belts 6, 6′ form the respective transport track T1 and T2.

    [0113] In an alternative embodiment (or further embodiment shown in FIG. 8), at least the conveyor belt 6 comprises or forms several, in particular two, transport tracks T1, T2.

    [0114] Preferably, several or all processing devices 3 of the installation 1 comprise their own housing 3a and/or their own manipulation device 3b, as schematically indicated in FIG. 8.

    [0115] The manipulation device 3b serves in particular to receive a lens 2 to be processed, in particular from the respective lens carrier 5, and to transfer it to the associated processing device 3 and/or holds the lens 2 during processing. Alternatively or additionally, the manipulation device 3b preferably serves to deliver a processed lens 2, in particular to a corresponding or the same lens carrier 5.

    [0116] The direction of conveyance of the conveyor belts 6, 6′ is indicated in FIGS. 1 and 2 by an arrow F1 and F2, respectively. The direction of conveyance F1, F2 of the transport tracks T1, T2 is therefore preferably aligned with the direction of conveyance of the conveyor belts 6, 6′.

    [0117] Preferably, the second conveyor belt 6′ in the first illustrated embodiment of the installation 1 according to the proposal, and thus the transport track T2, convey in the same direction as the first conveyor belt 6 or the first transport track T1.

    [0118] However, other constructive solutions are also possible here.

    [0119] The first transport track T1 is preferably directly adjacent to the processing devices 3. In particular, the first transport track T1 serves to convey the lenses 2 or lens carriers 5 from one processing device 3 to the next or connects the processing devices 3 to one another.

    [0120] According to the preceding definition of the term “directly adjacent”, the processing devices 3 and the transport track T1 and/or the conveying device 4 are preferably directly adjacent to each other, in particular at least substantially without distance and/or gap.

    [0121] Accordingly, the processing devices 3 can in particular be positioned directly on the conveying device 4 and/or on the transport track T1.

    [0122] Therefore, a particular advantage of the installation 1 according to the proposal is that, depending on requirements, extensions of the installation 1 by additional processing devices 3 can be carried out very easily, since these only have to be pushed up to the conveying device 4 and/or the first transport track T1.

    [0123] The second, at least essentially parallel, transport track T2 is used for conveying, in particular in parallel and/or for further transport of the respective ophthalmic lenses 2 or lens carriers 5. In particular, the second transport track T2 serves as a passing track on which the ophthalmic lenses 2 and/or lens carriers 5, which are not to be fed to a processing device 3, are further transported.

    [0124] Preferably, a distance is provided between the, in particular separate, conveyor belts 6, 6′ in such a way that an intermediate space is created between the conveyor belts 6, 6′. This has the advantage that various components, in particular stop devices 31 and/or measuring devices such sensors 32, can be accommodated.

    [0125] FIG. 1 shows several stop devices 31 in the form of separations. These serve in particular to stop a lens carrier 5 as required while the conveyor belts 6, 6′ are running. The lens carriers 5 are stopped in particular in order to position the lens carriers 5 individually at the appropriate points on the conveying device 4—for example on the first transport track T1 in the area of the processing devices 3 or in front of them, in particular for loading and unloading the processing devices 3 with ophthalmic lenses 2, and/or on both transport tracks T1 and T2, in particular in front of or at a pushing device 10.

    [0126] Preferably, the stopping devices 31 are located in front of the respective pushing devices with respect to the direction of conveyance F1, F2, preferably at a distance from the pushing device 10 and/or from each other, in particular of at least one length of the lens carrier 5.

    [0127] Furthermore, stopping devices 31 are provided in the holding area of the processing devices 3, which are in particular spaced apart from each other in such a way that the loading and unloading of the lens carriers 5, in particular with ophthalmic lenses 2, can be performed particularly reliably.

    [0128] The installation 1 according to the proposal preferably comprises sensors 32, such as light scanners, in particular for detecting the presence and/or the position of lenses 2 and/or lens carriers 5, and/or barcode readers, in particular for identifying ophthalmic lenses 2 and/or lens carriers 5.

    [0129] In the example shown, the conveyor belts 6, 6′, which in particular each form a transport track T1, T2, are driven in particular by a common drive system 7 (FIG. 2), preferably in such a way that the two conveyor belts 6, 6′ or the transport tracks T1, T2 convey or circulate in the same direction F1, F2, in particular at the same speed. In a particularly preferred embodiment, this is achieved by a drive shaft connecting the two conveyor belts 6, 6′.

    [0130] A further variant of the conveying device 4 of the installation 1 according to the proposal provides that the two conveyor belts 6, 6′ of the conveying device 4 are driven by two separate drive systems 7 or preferably by a common drive system 7 with planetary gear. In particular, this allows variations in the conveyor or circulation speed of the conveyor belts 6, 6′ or the transport tracks T1, T2.

    [0131] For example, it is conceivable to select a higher speed for the conveyor belt 6′ and thus for the transport track T2 than for the conveyor belt 6 and/or the transport track T1 in order to avoid a buildup of lens carriers 5 and/or to enable a higher throughput when there is a high volume of lens carriers 5.

    [0132] Opposite directions of conveyance F1 and F2 are also conceivable in such an embodiment with separate drives 7 or a corresponding gear coupling.

    [0133] According to another embodiment, as shown in FIG. 8, the conveying device 4 of the installation 1 according to the proposal can also comprise (only) one conveyor belt 6, which is divided into two separate areas, i.e. two transport tracks T1 and T2, and a drive system 7.

    [0134] Preferably, the conveying device 4 of the installation 1 according to the proposal comprises guide bars 8, in particular arranged at the edges of the conveyor belts 6, 6′, as indicated in FIG. 1. Particularly preferably, each conveyor belt 6, 6′ is bounded by two guide bars 8.

    [0135] The guide bars 8 enable the lenses 2 and/or lens carriers 5 to be guided along the transport tracks T1, T2, in particular parallel to the directions of conveyance F1 and F2, in particular in at least a substantially straight line.

    [0136] As can further be seen from FIG. 1, the installation 1 according to the proposal comprises in particular one or more pushing devices 10 as transfer devices for changing the transport tracks T1, T2.

    [0137] The pushing devices 10 are preferably arranged between the processing devices 3. Preferably, pushing devices 10 are arranged between all adjacent processing devices 3. However, embodiments are also possible in which pushing devices 10 are not arranged between all processing devices 3, but only before or after some of them. Optionally, the pushing devices 10 can also be assigned to a processing device 3, in particular directly or indirectly adjacent to a processing device 3.

    [0138] In the illustration example, the processing devices 3, in relation to the direction of conveyance F1, F2, are preferably arranged one behind the other, in particular in a row, especially preferably on a common side of the conveying device 4 and/or a conveyor belt 6, 6′.

    [0139] The pushing devices 10 preferably serve to transport and/or change the lenses 2 and/or lens carriers 5, in particular as required, from one transport track T1, T2 to the other and/or from one conveyor belt 6, 6′ to the other, in particular transversely to the direction of conveyance F1, F2.

    [0140] The transverse conveying can take place in both directions R1, R2 transverse to the direction of conveyance F1, F2. In the example shown, transverse conveying can take place in the transverse direction R1 from the first transport track T1 and/or the first conveyor belt 6 to the second transport track T2 and/or the second conveyor belt 6′ and vice versa in the direction R2 from the second transport track T2 and/or the second conveyor belt 6′ to the first transport track T1 and/or the first conveyor belt 6.

    [0141] For simplicity, the transverse directions R1, R2 in FIG. 1 are shown perpendicular and/or at a right angle relative to the direction of conveyance F1, F2. However, as mentioned above, the transverse conveyance can also take place at any other angles, in particular diagonally, with respect to the direction of conveyance F1, F2.

    [0142] Further, the pushing devices 10 are preferably designed to receive and temporarily store the ophthalmic lenses 2 and/or lens carriers 5 as needed.

    [0143] Preferably, the installation 1 or pushing device 10 according to the proposal comprises an intermediate position ZP (FIG. 8) or intermediate plate 9, (FIG. 1), in particular in the area of the pushing devices 10 between the transport tracks T1, T2 and/or conveyor belts 6, 6′. The intermediate position ZP represents in particular a parking or waiting area for a lens carrier 5 and can optionally be formed by the intermediate plate 9. The intermediate plate 9 serves in particular to bridge the distance between the conveyor belts 6, 6′, in particular during transverse conveying of the ophthalmic lenses 2 or lens carriers 5 by means of the pushing device 10 from one conveyor belt 6, 6′ to the other.

    [0144] Furthermore, in the area of the pushing devices 10, in particular in the area of the intermediate plate 9, recesses and/or openings of the guide bars 8 are preferably provided, (see FIGS. 1, 3, 5 and 6), in particular to enable transverse conveying of the lenses 2 and/or lens carrier 5 without stroke.

    [0145] Particularly preferably, the intermediate plate 9, as can be seen in the perspective view according to FIG. 3, is (somewhat) higher than the conveyor belts 6, 6′ themselves and/or comprises, in particular, bevels 9a, 9b on the edges facing the conveyor belts 6, 6′. These serve in particular to convey the lens carrier 5 up onto the intermediate plate 9, preferably without having to lift the lens carrier 5. The higher level of the intermediate plate 9 in relation to the conveyor belts 6, 6′ again serves in particular to ensure that the lens carrier 5 does not get caught on the edge of the respective conveyor belt 6, 6′ when being conveyed from the intermediate plate 9 onto a conveyor belt 6, 6′ or a transport track T1, T2.

    [0146] The transport/change and/or the transverse transport of the ophthalmic lenses 2 and/or lens carriers 5 by the pushing devices 10 can take place on the one hand from one conveyor belt 6, 6′ to the other, in particular independently of the number of transport tracks on a conveyor belt. The transverse displacement can take place both between two spaced conveyor belts 6, 6′, which are connected to each other in particular by an intermediate plate 9, and between two conveyor belts 6, 6′, which are directly adjacent to each other and/or are not spaced from each other.

    [0147] Alternatively, transverse conveying of the ophthalmic lenses 2 and/or lens carriers 5 by the pushing devices 10 can also take place between several transport tracks T1, T2 on a common conveyor belt 6, 6′.

    [0148] As can be seen in FIG. 3, the pushing device 10 preferably comprises a guide device, in particular in the form of a fork 11 and/or with two side elements 11a, 11b. In the illustrative example, the side elements 11a, 11b are connected, preferably integrally, to a holder or holding surface 12.

    [0149] The side elements 11a and 11b preferably comprise inlet bevels at their free ends so that a lens carrier 5 is securely received between the side elements 11a, 11b.

    [0150] In the example shown, the pushing device 10 preferably comprises a stopper 13, in particular a vertical stopper 13, which is recessed into or integrated into or attached to the holder or holding surface 12. Particularly preferably, the stopper 13 is designed as a pneumatic cylinder.

    [0151] The stopper 13 is preferably provided for stopping and/or halting the lens carrier 5, in particular when the conveyor belt 6, 6′ is running. As can be seen in particular from the side view according to FIG. 4, the stopper 13 in the illustrated example comprises an extendable piston 13a. If the piston 13a is extended downward toward the conveyor belts 6, 6′, the lens carrier 5 is stopped by the piston 13a while the conveyor belts 6, 6′ are running or comes to rest against the piston 13a. When the piston 13a is in the retracted state, the lens carrier 5 can continue to run on the conveying device 4 or the conveyor belts 6, 6′.

    [0152] The guide device or fork 11 is preferably movable or displaceable transversely via a lens guide or rail 19 and a carriage, in this case horizontally in the transverse direction R1, R2.

    [0153] FIG. 3 also shows that the holder and/or holding surface 12 and/or the fork 11 is connected, in particular via a mounting bracket 14, to a linear drive, for example via a driver 15, preferably in the form of a carriage.

    [0154] The driver 15 or carriage and/or linear operation serves in particular for a driving and/or linear movement of the guide device and/or fork 11 and thus for the transverse conveying of the lens carrier 5 from one transport track T1, T2 to the other.

    [0155] Preferably, the driver 15 is arranged to be linearly movable, in particular on a transfer cylinder 17.

    [0156] The transfer cylinder 17 is preferably designed as a linear drive, in particular as a pneumatic cylinder.

    [0157] In the example shown, the transfer cylinder 17 is mounted on a carrier 18. Preferably, a guide or rail 19, which is preferably designed as a linear guide, is attached and/or mounted on one longitudinal side, in particular on the bottom side 18a, of the carrier 18.

    [0158] The guide device and/or fork 11 is preferably movable and/or positionable along the guide and/or rail 19, in particular linearly, in particular by means of a slide 16 guided displaceably thereon.

    [0159] In the example shown, the transverse movement of the guide device and/or fork 11 is performed in particular by the linear drive of the transfer cylinder 17.

    [0160] The, in particular linear, displacement and/or movement of the guide device and/or the slide 16 along the guide and/or rail 19 enables particularly reliable or targeted transverse conveyance of the lens carrier 5. The two linear guide components, i.e. the transfer cylinder 17 on the one hand and the guide and/or rail 19 on the other hand, ensure particularly stable transverse conveyance.

    [0161] According to another aspect of the present invention, which can also be implemented independently, the following process can be carried out with the pushing device 10 in combination with the conveying device 4 of the installation 1 according to the proposal:

    [0162] As soon as a lens carrier 5 moves into the guide device, the lens carrier 5 is stopped by the stopper 13 and/or the lowered piston 13a. For transverse conveying of the lens carrier 5 from one transport track T1, T2 to the other and/or from one conveyor belt 6, 6′ to the other, the guide device and/or the fork 11 is transported by means of the transfer cylinder 17 and in particular the supporting linear guide along the guide and/or rail 19 via the intermediate plate 9 from one transport track T1, T2 to the other and/or from one conveyor belt 6, 6′ to the other, the lens carrier 5 being carried along between the side elements 11a, 11b of the guide device and/or the fork 11. When the lens carrier 5 is to be conveyed further on a transport track T1, T2 in the direction of conveyance F1, F2, the stopper 13 and/or the piston 13a moves up in such a way that the lens carrier 5 can pass through the guide device and/or the fork 11 on the moving conveyor belt 6, 6′. This is made possible in particular by the fact that no lateral clamping forces act on the lens carrier 5 from the side elements 11a, 11b.

    [0163] Optionally, the lens carrier 5 can also pass directly through the guide device and/or the fork 11 while the conveyor belt 6, 6′ is running, i.e. without the lens carrier 5 being conveyed transversely from one transport track T1, T2 to the other. This is provided, for example, if a lens carrier 5 conveyed on the second transport track T2 is not to be processed at the processing device 3 closest in relation to the direction of conveyance F1, F2, but only at a subsequent processing device 3.

    [0164] The pushing device 10 and/or its guide device or fork 11 is particularly preferably designed in such a way that the lens carrier 5 is pushed or pulled to change the transport track T1, T2 and/or to move into an intermediate position ZP and/or an intermediate area Z between the transport tracks T1, T2 and/or from the intermediate position ZP and/or the intermediate area Z into a transport track T1 or T2.

    [0165] The movement is thus preferably performed exclusively by primarily lateral force action, in particular without active lifting of the lens carrier 5 by the pushing device 10 and/or its guide device or fork 11.

    [0166] Particularly preferably, the pushing device 10 and/or its guide device or fork 11 is designed in such a way that the lens carrier 5 is guided or limited in its movement both in the direction of conveyance F1, F2 and transversely thereto—i.e. in particular laterally—in order to be able to move and/or displace the lens carrier 5 safely and quickly and/or in a defined manner in the transverse direction, in particular without the lens carrier 5 being able to twist or tilt or even turn in the horizontal plane. In this context, it should be noted that the pushing device 10 and/or its guide device or fork 11 provides a certain, preferably small lateral play—here particularly preferably between the side elements 11a and 11b—with respect to the lens carrier 5.

    [0167] Alternatively or additionally, the side elements 11a and 11b can optionally also be adjustable relative to each other, for example to adapt to different lens carrier widths.

    [0168] Alternatively or additionally, the guide device or fork 11 can also be rotatable, in particular about a vertical axis, for example to be able to rotate the lens carrier 5, for example by 90° or 180° in the horizontal plane for a subsequently different direction of conveyance, if required.

    [0169] In particular, the pushing device 10 and/or its guide device or fork 11 can thus guide the lens carrier 5 on one or both sides (parallel to the direction of conveyance F1, F2 or transport track T1, T2) as well as on a side leading in the direction of conveyance F1 and/or F2 and/or limit its movement, so that in particular with the conveyor belt 6 or 6′ running further in the direction of conveyance F1 and/or F2, the desired transverse displacement of the lens carrier 5 can be effected as required by corresponding transverse movement of the pushing device 10 and/or its guide device or fork 11.

    [0170] The preferred two-sided or three-sided guidance of the lens carrier 5 (in the illustrated example on the sides by the side elements 11a and 11b and on the leading side by the stopper 13 by the pushing device 10 or its guide device or fork 11) can alternatively also be achieved by a corresponding engagement or overlap. For example, the pushing device 10 and 7 or its guide device or fork 11 can engage over the leading side wall after a lens carrier 5 has stopped and thereby guide or secure the lens carrier 5 accordingly, in particular for the subsequent transverse movement. Various other design solutions are also possible here.

    [0171] It should also be noted that for moving the lens carrier 5 in a transverse direction R1 or R2, a two-sided guide, namely on a side running in the direction of conveyance F1, F2 and on a side running transversely and/or perpendicularly thereto, is sufficient, and the pushing device 10 and/or its guide element can accordingly optionally also be designed with only one side element 11a or 11b or act on the lens carrier 5 for transverse conveyance in one direction.

    [0172] In the embodiment described, the guide device and/or fork 11 of the pushing device 10 is preferably movable only horizontally and/or transversely and only a stopper 13 or piston 13a movable vertically or in some other way (for example, by pivoting) is provided. However, other design solutions are also possible. For example, the guide device and/or fork 11 can optionally also be movable or liftable vertically as a whole, as explained below with reference to a further embodiment. In this case, the movability of the stopper 13 can be omitted.

    [0173] With reference to FIGS. 5 and 6, an alternative embodiment of the pushing device, hereinafter referred to as pushing device 20, is explained in more detail.

    [0174] The pushing device 20 preferably comprises a guide device and/or a fork 21, in particular with two side elements 21a, 21b.

    [0175] According to a particularly preferred aspect of the present invention, which can also be implemented independently, the guide device or fork 21 of the pushing device 20 is adjustable in height or vertically, in particular along the arrow H, particularly preferably by means of a lifting cylinder 23.

    [0176] In the illustrated example, the side elements 21a, 21b are connected, preferably integrally, to an (upper) mounting and/or holding surface 24. In the illustrated example, the pushing device 20 comprises a vertical lifting cylinder 23, preferably a pneumatic cylinder, in particular recessed in and/or coupled to the (upper) holder and/or holding surface 24, the lower end of which is preferably attached to the lower holding surface 22.

    [0177] Preferably, the lifting cylinder 23 is adjustable and/or displaceable in height, in particular by means of a piston 23a, in particular along the arrow H. The vertical displacement of the lifting cylinder 23 along the arrow H causes the fork 21 to be displaced in height, in particular via the upper holding surface 24.

    [0178] In the illustrated embodiment, the fork 21 is in the raised state. In this state, the lens carrier 5 can pass under the fork 21 while the conveyor belt 6, 6′ is running.

    [0179] As can be seen from FIG. 6, a stop element, in particular a substantially vertical holding arm 25, is preferably used to stop the lens carriers 5 on the, in particular circulating, conveyor belts 6, 6′.

    [0180] If the guide device is in its lower position, the lens carrier 5 is stopped by the holding arm 25 when the conveyor belts 6, 6′ are running, while the lens carrier 5 continues to be conveyed by the conveyor device 4 or the conveyor belts 6, 6′ when the guide device is raised.

    [0181] The transverse conveying of the ophthalmic lenses 2 and/or lens carriers 5 takes place in the case of the pushing device 20 in an identical manner as in the case of the pushing device 10 (see above), i.e. by linear movement or a linear guide and/or a linear drive.

    [0182] A particular advantage of the pushing device 20 and/or, in particular, of the preferably height-adjustable guide device and/or fork 21 of the pushing device 20 is that the lens carrier 5 can leave the pushing device 20 more quickly and/or be carried along with the conveyor belt 6, 6′ by a rapid raising of the fork 21. This can prevent a jam of lens carriers 5 and/or achieve a higher throughput. For transverse conveying of the ophthalmic lenses 2 and/or lens carriers 5 from one transport track T1, T2 to the other, the fork 21 with the lens carrier 5 always remains on the conveyor belt 6, 6′ or the intermediate plate 9.

    [0183] The guide device and/or fork 11, 21 of the pushing device 10, 20 is preferably wider than the lens carrier 5, in particular in order to ensure a substantially resistance-free driving of the lens carrier 5 into and/or through the fork 11, 21. The width of the fork 11, 21 is advantageously selected in particular so that the lens carrier 5 can be pushed particularly reliably, in particular with little play, from one transport track T1, T2 to the other and/or from one conveyor belt 6, 6′ to the other when it is carried along and/or conveyed transversely by the fork 11, 21.

    [0184] FIG. 7 shows a schematic top view of a preferred embodiment of a lens carrier 5 for accommodating at least one ophthalmic lens 2, in particular two in the example shown.

    [0185] Preferably, two ophthalmic lenses 2 and/or a pair of lenses to be processed are accommodated by a lens carrier 5, as is common in lens or ophthalmic lens production.

    [0186] The lens carrier 5 preferably comprises two receiving sites 41, in particular for receiving ophthalmic lenses 2. The receiving places are in particular designed in such a way that slipping of the ophthalmic lenses 2 can be avoided, in particular during conveying and/or stopping of the lens carrier 5. In particular, this allows the ophthalmic lenses 2 to remain particularly stable in their spatial position on the lens carrier 5 and therefore loading and unloading, in particular in the holding area of the processing devices 3, can be carried out particularly reliably.

    [0187] Preferably, the distance between the ophthalmic lenses 2 and/or the receiving sites 41 within a lens carrier 5 in the illustration example is at least substantially the same as the distance between an ophthalmic lens 2 and/or a receiving site 41 in a lens carrier 5 and the adjacent ophthalmic lens 2 and/or the adjacent receiving site 41 in a directly adjacent lens carrier 5. This simplifies the handling and/or positioning of the ophthalmic lenses 2, in particular on the transport track T1 at the processing devices 3 for loading and unloading the processing devices 3 with ophthalmic lenses 2.

    [0188] The distance a between the centers of the receiving sites 41 of the lens carrier 5 in the illustrated embodiment is approx. 130 mm with an error tolerance of 10 mm. The length 1 of the lens carrier 5 is preferably twice the distance a, i.e. approx. 260 mm with an error tolerance of 10 mm. The width b of the lens carrier 5 is preferably approx. 220 mm with an error tolerance of 10 mm.

    [0189] A further aspect of the present invention, which can also be implemented independently, is that the width of the conveying device 4 and/or of the conveyor belts 6, 6′ is preferably determined by the width of the lens carrier 5, in particular by the number of transport tracks.

    [0190] Preferably, the width of a transport track T1, T2 corresponds at least to the width b of a lens carrier 5.

    [0191] Furthermore, the width of the conveyor belts 6, 6′ preferably corresponds in each case to the number of transport tracks per conveyor belt. In other words, the width of a conveyor belt preferably corresponds to at least the number of transport tracks multiplied by the width b of the lens carrier 5.

    [0192] In the embodiment example, the width of the conveyor belts 6, 6′ is in each case at least the width b of a lens carrier 5, i.e. at least approx. 220 mm, taking into account the error tolerance.

    [0193] The width of the conveying device 4 is preferably at least equal to the number of transport tracks multiplied by the width b of the lens carrier 5.

    [0194] In the case of several, i.e. at least two conveyor belts 6, 6′, the width of the conveying device 4 preferably corresponds to at least the number of conveyor belts 6, 6′ multiplied by the width b of the lens carrier 5, i.e. preferably at least the multiple of approx. 220 mm, taking into account the error tolerance.

    [0195] In the case of mutually spaced conveyor belts 6, 6′, the width of the conveying device 4 preferably corresponds to at least the number of transport tracks T1, T2 multiplied by the width b of the lens carrier 5, in particular plus the distance between the conveyor belts 6, 6′.

    [0196] According to the proposal, the width of the conveying device 4 is preferably at least twice the width b of the lens carrier 5, i.e. at least approx. 440 mm in the illustrated embodiment, taking into account the error tolerance, in particular plus the distance between the conveyor belts 6, 6′.

    [0197] In the case of the embodiment with two transport tracks T1, T2 on a common conveyor belt 6, the width of the conveyor belt 6 corresponds to the width of the conveying device 4 and is preferably at least twice the width of the lens carrier 5.

    [0198] In addition to the aforementioned embodiment example of the lens carrier 5, narrower variants of the lens carrier 5 are also conceivable, which are generally known to the skilled person. These can have, for example, a length l of between 245 and 265 mm, in particular approx. 250 mm, a width b of between 120 and 130 mm, in particular approx. 125 mm, and/or a distance a between the receiving sites 41 of between 110 and 135 mm, in particular approx. 130 mm. Other dimensions are of course also conceivable.

    [0199] Furthermore, known per se, in particular stackable embodiments, for example double trays, of the lens carriers 5 can be used. In the case of lens carriers 5 stacked one on top of the other, it is useful to take their height into account. This is possible, for example, by raising or lowering the conveying device 4 or the processing devices 3 by the respective height of the additional lens carrier 5.

    [0200] FIG. 8 shows in a sectional, schematic plan view a further embodiment of the installation 1 according to the proposal, as already mentioned. In the following, in particular essential differences compared to the already described embodiments and variants are explained, whereby the previous explanations and explanations apply in particular accordingly or supplementarily, even if a repeated description is omitted.

    [0201] In the embodiment according to FIG. 8, the (common) conveyor belt 6 preferably forms both transport tracks T1, T2, i.e. the first transport track T1 and the second transport track T2.

    [0202] The conveying device 4 and/or the conveyor belt 6 preferably comprises an intermediate area Z between the two transport tracks T1, T2 in order to be able to park the lens carrier 5 in an intermediate position ZP between the two transport tracks T1 and T2, if necessary.

    [0203] Instead of one conveyor belt 6 forming the two transport tracks T1, T2 and the intermediate area Z, several correspondingly coupled conveyor belts 6 can also be used for this purpose.

    [0204] The installation 1 and/or the conveying device 4 preferably again comprises stopping devices 31, 31a, 31b in order to be able to stop the lens carrier 5 as required at desired points on the conveying device 4 and/or the conveyor belt 6 and/or on the transport tracks T1 and T2, in particular in front of the processing devices 3 and/or in front of and/or at the pushing devices 10 and/or in the intermediate area Z or at the intermediate positions ZP—in particular also when the conveyor belt 6 continues to run.

    [0205] The stopping devices 31 can, for example, be arranged laterally on the conveyor belt 6 and/or laterally on the outside of the transport tracks T1 and/or T2.

    [0206] The stop devices 31 can, for example, also stop or halt a lens carrier 5 in the intermediate area Z as required and, if arranged laterally, can be designed, for example, in the form of a bridge in order to be able to act accordingly in the intermediate area Z. However, other design solutions are also possible. For example, the stopping devices 31 can also be arranged only in the intermediate region Z or above it, as indicated by the reference signs 31a as an example. In this case, the stop devices 31a can also be stationary and/or fixed or, alternatively, can be moved away from the path of movement in order to allow the lens carriers 5 to be conveyed further in the intermediate area Z, i.e. to form an additional transport track between the two transport tracks T1 and T2.

    [0207] Alternatively or additionally, stop devices 31 can also be provided in the region of the transport tracks T1, T2, in particular in the region of the first transport track T1, which are arranged primarily or exclusively above the conveyor belt 6 and/or the respective transport track T1 and/or T2, in particular in order to be able to position the processing devices 3 as close as possible to the conveyor belt 6 and/or the first transport track T1, without the stop device 31 having to be arranged between the processing device 3 and the conveyor belt 6 and/or the first transport track T1. These stop devices 31b are then preferably movable out of the path of movement, for example by linear movement and/or pivoting, in order to release a conveyance of the lens carriers 5 on the corresponding transport track, in this case the first transport track T1, in the direction of conveyance F1, as required, or to selectively stop the lens carriers 5, in particular in front of the respective processing device 3.

    [0208] Optionally, a pushing device 10 can also cooperate with associated stopping devices 31, 31a, 31b. In this case, the stopping devices 31 can also form part of the pushing device and/or part of the guide device of the pushing device 10. This is indicated by way of example in FIG. 8 for the right pushing device 10.

    [0209] In the illustrated example, the lens carrier 5 is located on the second transport track T2 on the pushing device 10 and is held and/or stopped in the direction of conveyance F2 by the stop device 31 associated with the second transport track T2. Thus, the stopping device 31 guides the lens carrier 5 in the direction of conveyance F2 when the lens carrier 5 is displaced transversely by the pushing device 10.

    [0210] In this case, the right-hand pushing device 10 guides the lens carrier 5 laterally via its guide device, in this case the side elements 11a and 11b, so that safe and defined guidance of the lens carrier 5 takes place during transverse displacement.

    [0211] In the optional intermediate area Z, the preferably stationary stop device 31a is then connected in the illustration example in order to hold the lens carrier 5 back against further conveyance in the direction of conveyance F1, F2 when the conveyor belt 6 continues to run, and/or to guide it on its leading side during transverse conveyance.

    [0212] Finally, during further displacement to the first transport track T1, the oppositely arranged stopping device 31 can then, if necessary, hold and guide the lens carrier 5 again in the direction of conveyance F1, so that in the illustrated example the right-hand pushing device 10 also enables and/or ensures safe guidance of the lens carrier 5 during transverse displacement both in the direction of conveyance F1 and in the lateral direction through interaction with the stopping devices 31, 31a.

    [0213] However, other constructive solutions are also possible.

    [0214] In the pushing device 10 on the left in FIG. 8, it is indicated that its guide device or fork 11, which is in particular U-shaped, does not require a stop device 31 or 31a. In this case, the guide device and/or fork 11 can preferably be raised vertically in order to be able to release the lens carrier 5 again for further conveying, as already described by way of example for the pushing device 20 with reference to FIGS. 5 and 6.

    [0215] Individual aspects and features of the various embodiments and variants can also be combined with one another as desired, but can also be implemented independently of one another.

    [0216] The guide device and/or fork 11, 21 of the pushing device 10, 20 is preferably U-shaped and/or rigid.

    [0217] The side elements 11a, 11b and/or 21a, 21b can optionally be adjustable—in particular manually or by motor—and/or widened at their free ends to form inlet slopes (as indicated in particular in FIG. 5) for the lens carrier 5 to be accommodated.

    [0218] In general, it should be noted that the installation 1 and/or conveying device 4 preferably forms or comprises a continuous first transport track T1 in front of the processing devices 3, the processing devices 3 each comprising their own manipulation device 3b for receiving lenses 2 from the first transport track T1 for processing and for delivering them back to it after processing in particular.

    [0219] The pushing device 10, 20 is preferably designed to push or pull the respective lens carrier 5 transversely to the direction of conveyance F1, F2, in particular from one transport track T1, T2 to the other, and in so doing to guide the lens carrier 5 both in the direction of conveyance F1, F2 and transversely thereto.

    [0220] The lens carriers 5 are preferably pushed or pulled by the pushing device 10, 20 during the transverse direction R1, R2 exclusively by primarily lateral force action without active lifting.

    [0221] The lenses 2 are preferably conveyed to and/or away from the processing devices 3 via lens carriers 5.

    [0222] The processing devices 3 particularly preferably process the lenses 2 only in the order in which the lenses 2 and/or lens carriers 5 are fed, in particular only via the first transport track T1.

    [0223] However, it is also possible that a processing device 3 and/or the conveying device 4 does not stop a lens carrier 5 arriving on the first transport track T1 before the processing device 3, but allows it to continue moving in the direction of conveyance F1. This is possible, for example, in order to realize an optimized sequence, or is necessary, for example, if the processing device 3 has failed.

    [0224] It is also an aspect of the present invention that the pushing device 10, 20 is used for processing ophthalmic lenses 2 in order to change lens carriers 5 between transport tracks T1, T2 and an optional intermediate area Z in a simple manner, quickly and safely.

    [0225] In particular, the present invention relates also to any one of the following aspects which can be realized independently or in any combination, also in combination with any aspects described above or in the claims: [0226] 1. Installation 1 for processing ophthalmic lenses 2, in particular for spectacles, with several, in particular separate, processing devices 3 for independent processing of the ophthalmic lenses 2, [0227] with a conveyor device 4 connecting the processing devices 3 to each other for transporting the ophthalmic lenses 2 and/or lens carriers 5 to and from the processing device 3, [0228] wherein the conveying device 4 comprises at least two transport tracks T1, T2, [0229] wherein a first transport track T1 serves for the transport of the ophthalmic lenses 2 and/or lens carriers 5 from one processing device 3 to the next and a second, in particular parallel, transport track T2 serves for the parallel transport of the ophthalmic lenses 2 and/or lens carriers 5; [0230] with transfer devices for transporting, as required, the ophthalmic lenses 2 and/or lens carrier 5 from one transport track T1, T2 to the other transversely to the direction of conveyance F1, F2, for temporary pick-up/intermediate storage as required, as well as for further conveyance of the ophthalmic lenses 2 and/or lens carriers 5 as required, [0231] characterized in [0232] that the conveying device 4 comprises at least one continuous conveyor belt 6, [0233] that at least one drive system 7 is provided for the at least one conveyor belt 6, [0234] that each processing device 3 is directly adjacent to the first transport track T1, [0235] that each transfer device is designed as a pushing device 10, 20 which pushes the ophthalmic lenses 2 and/or lens carriers 5 transversely to the direction of conveyance F1, F2 from one transport track T1, T2 to the other. [0236] 2. Installation 1 according to aspect 1, characterized in that the pushing device 10, 20 comprises a fork 11, 21 movable transversely to the conveying device 4 and/or transversely to the direction of conveyance F1, F2. [0237] 3. Installation 1 according to one of the preceding aspects, characterized in that the pushing device 10, 20 comprises a linear drive for transverse conveying of the fork 11, 21. [0238] 4. Installation 1 according to one of the preceding aspects, characterized in that the fork 11, 21 of the pushing device 10, 20 can be moved in both directions R1, R2 transversely to the direction of conveyance F1, F2. [0239] 5. Installation 1 according to one of the preceding aspects, characterized in that the pushing device 10, 20 is arranged on the conveying device 4 and/or on a processing device 3. [0240] 6. Installation 1 according to one of the preceding aspects, characterized in that the conveying device 4 comprises a conveyor belt 6 with two transport tracks T1, T2 and a common drive system 7. [0241] 7. Installation 1 according to one of aspects 1 to 5, characterized in that the conveying device 4 comprises two separate conveyor belts 6, 6′, each of which forms the transport tracks T1, T2. [0242] 8. Installation 1 according to aspect 7, characterized in that the conveying device 4 comprises a common drive system 7 for driving the separate conveyor belts 6, 6′. [0243] 9. Installation 1 according to aspect 7, characterized in that the conveying device 4 comprises one drive system 7, 7′ per conveyor belt 6, 6′. [0244] 10. Installation 1 according to one of the preceding aspects, in particular according to one of aspects 7 to 9, characterized in that each pushing device 10, 20 is assigned an intermediate plate 9 arranged between the conveyor belts 6, 6′. [0245] 11. Installation 1 according to one of the preceding aspects, characterized in that guide bars 8, in particular for guiding the ophthalmic lenses 2 and/or lens carriers 5 parallel to the direction of conveyance F1, F2, are provided at the edges of the conveyor belts 6, 6′. [0246] 12. Installation 1 according to aspect 11, characterized in that recesses of the guide bars 8 are provided in the region of the pushing devices 10, 20 and/or in the region of the intermediate plate 9. [0247] 13. Use of a pushing device 10, 20 for transversely conveying a lens carrier 5 during the processing of ophthalmic lenses 2, wherein the lens carrier 5 is displaced transversely to the direction of conveyance F1, F2 by means of a pushing device 10, 20 in order to change a transport track T1, T2, the lens carrier 5 being guided laterally and/or in the transverse direction R1, R2 and in the direction of conveyance F1, F2 and being displaced without being actively lifted.

    TABLE-US-00001 List of reference signs:  1 Installation 19 Rail  2 Lens 20 Pushing device  3 Processing device 21 Fork  3a Housing 21a Side element  3b Manipulation device 21b Side element  4 Conveying device 22 Holding surface  5 Lens carrier 23 Lifting cylinder  6 Conveyor belt 24 upper holding surface  6′ Conveyor belt 25 Holding arm  7 Drive system  7′ Drive System 31 Stop device  8 Guide bars 31a Stop device  9 Intermediate plate 31b Stop Device  9a Bevel 32 Sensor  9b Bevel 10 Pushing device 41 Receiving site 11 Fork 42 Profile 11a Side element 11b Side element F1 Direction of conveyance 12 Holding surface F2 Direction of conveyance along T2 13 Stopper H Arrow H 13a Piston RL, Transverse direction 14 Fastening bracket R2 Transverse direction 15 Driver T1 first transport track 16 Slide T2 second transport track 17 Transfer cylinder Z Intermediate rea 18 Carrier ZP Intermediate Position 18a Bottom side a Distance b Width l Length