• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    A cable arrangement (1) is specified which comprises a first electrical conductor (2) and at least one second electrical conductor (3), which are insulated from one another. In addition, the cable assembly (1) a plurality of in the course of the conductor (2, 3) arranged plug devices (4) each having a plurality of electrical contacts (5..8), wherein in each case at least one contact (5..8) with an electrical conductor (2, 3) is connected. The first conductor (2) is severed at each plug-in device (4), and in each case one end of the first conductor (2) is connected to an electrical contact (5, 6). In addition, a conveyor system (9) with such a cable arrangement (1) and a manufacturing method for such a conveyor system (9) are specified.
    公开号:AT511754A1
    申请号:T948/2011
    申请日:2011-06-29
    公开日:2013-02-15
    发明作者:
    申请人:Tgw Mechanics Gmbh;
    IPC主号:
    专利说明:

    -1-
    The invention relates to a cable assembly comprising a first electrical conductor and at least one second electrical conductor, which are insulated from each other. Furthermore, the Kabeianordnung comprises a plurality of arranged in the course of the conductor plug devices, each having a plurality of electrical contacts, wherein at least one contact is connected to an electrical conductor Furthermore, the invention relates to a conveyor system with a frame and a plurality of interposed, motor-driven Fördermittein and a method for Production of such a conveyor system.
    Cable arrangements of the type mentioned are known per se and are used for wiring a variety of electrical systems. By prefabrication of the cable assembly, the construction of such systems can be very efficient. In particular, a factory-made cable assembly contributes significantly to the reliability of said application hei, because contact errors on dicac way can be largely avoided.
    In particular, conveyor systems can also be wired with such a cable arrangement. Conveyor systems are nowadays widespread and, for example, no storage hall, production facility or postal or baggage distribution system is indispensable. They are used for the comfortable conveying and sorting of sometimes very heavy loads. Over time, many types of conveyor systems have emerged that are optimized for a particular application. Very often conveyor systems are designed as roller conveyors in which the conveyed by individual, temporarily with the conveyed material in contact, conveyor rollers is transported. N2011 / 1B200 15:46:31 29-06-2011 6/26 25 -2-
    For example, JP 2004/331270 A discloses a motorized conveyor for this purpose, in which a control unit arranged in the roller is connected via a cable to a plug which is plugged into a connection box arranged on the frame.
    From EP 0 300 128 A1 a roller conveyor track with a supporting structure in the form of a panel is also known, which essentially represents a flat surface, from which extend downwards U-shaped channels in which the rollers are received, In the Side walls of the U-shaped channels are laid electrical lines, which are exposed at the height of the rollers. When snapping the role of this is contacted by resilient contacts which are attached to the roll, electrically.
    DE 10 2005 046763 A1 also discloses a roller drive or a roller transport device equipped with the roller drive. Said roller drive is electrically contacted via piercing contacts projecting through the frame of the conveyor with a power supply cable and a data cable,
    In addition, the Applicant's Austrian patent application A2009 / 01453 relates to a conveyor system for conveying articles to be conveyed with frame profiles, a bus system and conveyor rollers, of which a conveyor roller comprises an electrical contacting device for connecting drive electronics to the bus system and a roller body and a drive motor arranged within this , The drive electronics are electrically connected by means of insulation displacement or piercing contacts with a cable for power supply and data transmission.
    Finally, US Pat. No. 6,448,933 B1 discloses a further variant of a connection box for a conveyor system, in which a cable for power supply and data transmission is electrically contacted by means of insulation displacement or piercing contacts. NZ011 / 18200 25 • * 15:47:10 29-06-2011 7/26 »* • *» · * · * · f «* * < • · · * < ► · * · -3-
    The object of the invention is now to provide an improved cable assembly, an improved conveyor system and an improved manufacturing method for a conveyor system. In particular, a possibility should be given to electrically wire electrical installations, in particular a conveyor, in a rational manner while at the same time increasing their reliability.
    The object of the invention is achieved by a cable arrangement of the type mentioned, in which the first conductor is severed at each plug-in device and one end of each of the first conductor is connected to an electrical contact.
    Furthermore, the object of the invention is achieved by a conveyor system of the type mentioned above, which comprises a fixed to the frame and electrically connected to the conveyor cable assembly of the type mentioned above.
    Finally, the invention is achieved by a method for producing a conveyor system with a frame and a plurality of motor-driven conveying means arranged therebetween, comprising the steps of: a) producing a plurality of segments of the conveyor system by mounting a cable to the frame,
    B) positioning the segments at their destination, c) connecting the power supply cables of adjacent segments, and d) mounting a cable assembly of the type mentioned on the frame and making electrical contact with the said ones Conveying, wherein the cable assembly is laid over at least two segments uncut.
    Preferably, step a) comprises the mounting of a junction box on the frame and the electrical connection thereof to the power supply cable, wherein the electrical connection of the conveyor to the power supply N2D11 / 10200 -4- 25 • * ► I * * 15:47:48 29 -06-2011 8/26 cable by connecting the conveyor electrically to said junction box. The funding is in this case not directly or directly connected to the power supply cable, but indirectly or indirectly via a junction box, whereby the production of a conveyor may possibly continue to fight.
    Due to the special nature of the cable arrangement, that is to say by the provision of different types of electrical conductors, a multiplicity of tasks can be undertaken by one and the same cable arrangement. In particular, so that the wiring of electrical systems is simplified, in which the electrical units to be wired on the one hand with continuous electrical conductors, but in addition also to be connected with cable segments. Said cable arrangement allows the mentioned wiring in one step. On the one hand, this provides a possibility for the rational wiring of electrical systems, but also achieves a high quality of the wiring through the prefabrication of the cable arrangement.
    In particular, said cable arrangement is suitable for electrically connecting a plurality of motor-driven conveying means of a conveyor system, since the mentioned properties of the cable arrangement there have a particularly positive effect on the manufacturing process and the operation of the conveyor system.
    In particular, it is advantageous if the frame of the conveyor system according to the invention comprises a plurality of segments and the cable arrangement is laid over at least two segments uncut. In this variant of the invention, the individual segments are prefabricated in the factory and only combined at their destination to a conveyor system. Step b) implies the juxtaposition of the segments or combination to a conveyor system. Of course, step d) can also take place before step c). Furthermore, the assembly of the connection box on the frame in step a) before the installation of the power supply cable can be done. During final assembly, the power supply cables of the individual segments are now electrically connected to each other. N2011 / 18200 15:48:30 29-06-2011 9/26 25 · -5-
    The cable arrangement, on the other hand, is uncut at all, over at least two segments, i. in one piece, relocated.
    It is advantageous if the first conductor of the cable assembly is provided as a daisy-chain line and at least a second conductor as Oatenbusleitung. Because of the continuous routing of the cable assembly across multiple segments, a reliable high data rate data connection between the conveyor rollers and a central controller can be realized. The daisy-chain cable can be used to address the conveyor rollers during conveyor initialization. For this purpose, the individual segments of the daisy chain line are connected via switches which are arranged in the conveying means or in the connection boxes. At the beginning of the initialization process, these switches are open. Now, at one end of the daisy-chain line, a signal is input, e.g. a voltage is applied, which causes the closest the feed point of the voltage conveyor to report via the data line at a central controller. The other funding can not detect this signal, however, because the daisy-chain line is separated by the switch in the individual funding or connection boxes yes. As a result, an address is assigned to the harvested conveyor, and the associated switch is closed, so that now also another funding can receive the said signal and in turn reports to the central controller. In this way, the funding can be addressed gradually. Alternatively or additionally, it would also be conceivable for the said connection cable to be used for communication between two adjacent connection boxes without the aid of the data cable.
    In particular, the advantage of the invention appears in the wiring of a conveyor, are provided in the conveyor rollers as a conveyor. Due to the comparatively small distance between the individual conveyor rollers, such a conveyor system has a large number of conveyor rollers. Increasingly, a large number of motor-driven and individually controllable conveyor rollers are installed in a conveyor system in order to be able to flexibly control the transport of goods on the conveyor system. However, this requires a very high effort for the wiring, N2011MS200 Γ Λ ΠγΛΛ 15:49:13 29-06-2011 10/26 25 • »
    By the use of the cited cable arrangement, and in particular also in the case of the above-mentioned conventional methods, it is very time-consuming on the one hand and not particularly reliable on the other hand On the one hand, a high degree of prefabrication and, on the other hand, a reliable data connection can be combined with each other by means of the above-mentioned manufacturing method.
    Further advantageous embodiments and modifications of the invention will become apparent from the dependent claims and from the description in conjunction with the figures.
    It is advantageous if two second conductors are designed as a twisted pair line and provided as a data bus line. In this way, the data bus is particularly insensitive to electromagnetic Störfeldem, as they can occur especially in the harsh environment of a conveyor system.
    In this context, it is particularly advantageous if the conveyor system comprises a power supply cable arranged on the frame and electrically connected to the conveying means, wherein the cable arrangement is arranged on the outside of the frame and the power supply cable is arranged on the inside of the frame. Thus comes the scope of the conveyor between the cable assembly and the power supply cable or between the cable assembly and a drive motor / a drive control to lie, so electromagnetic fields that arise around the power supply cable or in the drive motor or its control, are well shielded from the data bus. The data transmission can thus be more reliable or faster.
    It is advantageous in this context if the electrical connection of the cable arrangement with the conveying means takes place through a recess in the frame. In this way, wiring does not need to be cumbersome over the frame. It is particularly advantageous in this context if a plug-in device of a connection box is arranged in the region of said recess. In this way, the cable arrangement can be plugged directly through the recess in the frame on the junction box, thus ensuring that the wiring of the cable is connected to the cable Conveyor system is further simplified. It is also favorable if at least one second conductor is provided as a power supply line. In this variant, the conveyor need not have any separate Energieversorgungskabei at all, but at least a second letter of the cable assembly acts as a power supply line. The wiring of a conveyor system is then limited essentially to the attachment of the plug devices of the cable arrangement to the connection boxes or conveying means.
    At this point, it should be noted that the variants mentioned for the cable arrangement and the resulting advantages are mutatis mutandis applicable to the conveyor system and its manufacturing method and vice versa
    For a better understanding of the invention, this will be explained in more detail with reference to the following figures.
    Each schematically simplified representation:
    Figure 1 shows a cable assembly with a first electrical conductor and two designed as a twisted pair line second conductors.
    Fig. 2 is an exemplary conveyor system seen obliquely from above and
    Fig. 3 is an exemplary conveyor seen obliquely from below.
    By way of introduction, it should be noted that in the differently described embodiments, the same parts are provided with the same reference numerals and the same component names, the disclosures contained throughout the description can be mutatis mutandis to the same parts with the same reference numerals or component names. Also, the location information chosen in the description, such as top, bottom, side, etc. related to the immediately described and illustrated figure and are to be transferred to the new situation mutatis mutandis when a change in position. In addition, Ν2011 / 1Θ200 -8- • * Λ · * • · · · · · «♦ I · * 15:50:34 29-06-2011 12/26
    Represent individual features or combinations of features from the illustrated and described different exemplary embodiments for independent, inventive or inventive solutions,
    Fig. 1 shows a cable assembly 1, comprising a first electrical conductor 2 and two second electrical conductors 3, which are insulated from each other, and a plurality of arranged in the course of the conductors 2.3 plug-in devices 4. The plug-in devices 4 are in this example as sockets executed with a plurality of electrical contacts 5..8, wherein in each case at least one contact 5..8 is connected to an electrical conductor 2, 3. Of course, the plug-in devices 4 could also be designed as a plug.
    Concretely, the contacts 5 and 6 are connected to the first electrical conductor 2, the contacts 7 and 8 are each connected to a second electrical conductor 3. In this case, the first conductor 2 is severed at each plug-in device 4, and one end of the first conductor 2 is each connected to an electrical contact 5.6 (note the lateral offset of the first conductor 2 on each plug-in device 4).
    FIGS. 2 and 3 furthermore show a conveyor system 9 with a frame 10 and a plurality of motor-driven conveying means 11 arranged therebetween and a cable arrangement 1 fastened to the frame 10 and electrically connected to the conveying means 11 (FIG. 2 obliquely from above, FIG from underneath). Specifically, the conveyor 11 are designed in this example as conveyor rollers, but would be conceivable, for example, conveyor belts, conveyor chains and the like, in particular, the conveyor 11 may be formed as a belt conveyor (in particular as Staugurtförderer). In this case, a belt is stretched over at least two conveyor rollers, which then procures the transport of the conveyor objects. It would also be conceivable, moreover, that the conveying means are designed as flat belt conveyors. Several flat belts are stretched over at least two conveyor rollers, which can have corresponding grooves for better guidance of the flat belt. N2011 / 18200 -9- 15:51:14 29-06-2011 13/26
    As can be seen from Figures 2 and 3, the conveyor system 9 consists in this example of two construction sections 12 and 13, the meaning will be explained later in more detail.
    On the frame 10, a power supply cable 14 is arranged, which is electrically connected to the conveyor rollers 11. Furthermore, 10 connection boxes 15 are arranged on the frame, which are provided for the electrical connection of the conveyor rollers 11 with the cable assembly 1 and the power supply cable 14. The electrical connection of the cable assembly 1 with the conveyor rollers 11 is preferably carried out through a recess 16 in the frame 10, wherein the cable assembly 1 are connected via the connectors 4 directly to the junction boxes 15 and this in turn a connection cable to the conveyor rollers 11. Finally, the conveyor system 9 also comprises two connecting cables 17 (shown simplified without a plug), which connect the segments of the power supply cable 14 over the construction sections 12 and 13. In this example, one of the two Verbindungsungskabe! 17 for a 24 volt supply, the other connection cable 17 provided for a 48 volt supply. Of course, it is also possible to connect the power supply cable 14 with a single connection cable 17.
    The function of the conveyor 9 is now as follows:
    The conveyor rollers 11 are equipped with a drive motor, not shown, and associated therewith and also not dargesteltten control device, which are arranged in the interior of the conveyor rollers 11. Above the power supply unit 4, the conveyor belts 11 are supplied with electric power, or the conveyor rollers 11 can also return electrical energy to the power supply cable 4 during braking operation. The conveyor belts 11 can be individually controlled via a data line. In the concrete example, the second conductor 3 are provided as a data bus, which is designed as a twisted pair line. This contributes to a largely interference-free data transmission from and to the conveyor rollers 11, of course, the Ν2011Λ8200 ο · · · · · · · · · · · »» »» »» »» »» »» »» »» » ♦ * * * * 15:51:55 29-06-2011 14/26 «Φ <1 ·» * · 44 -10-
    Data bus but also be designed as a ribbon cable, in particular as a shielded ribbon cable.
    Furthermore, the first conductor 2 of the cable assembly 1 is used as a daisy chain line in the context of an initialization process of the conveyor system 9. The individual segments of the first conductor 2, which each connect two conveyor rollers 11 with each other, can be connected via a switch (not shown) which is arranged either in the conveyor roller 11 itself or in the connection box 15.
    In order to determine the sequence of the conveyor rollers 11 installed in the conveyor 9 and to allow their addressing or correct control as a result, a signal is fed at one end of the daisy-chain line 2, it being assumed that the mentioned switches are initially open. The said signal can thus only be received by the feed roller closest to the feed roller 11 or connection box 15. The position of this conveyor roller 11 is now stored in a central control of the conveyor 9 (not shown), and / or the conveyor roller 11 and the Anschiussbox 15 is assigned a specific address. As a result, the first switch is closed, so that the fed signal can now also be received by the next conveyor roller 11 and the next connection box 15. The above-explained process will now be repeated until the position of all conveyor rollers 11 and junction boxes 15 has been determined.
    This Initialisrerungsvorgang is carried out in principle before the first commissioning of the conveyor 9, but can also be repeated if necessary, for example, when the conveyor system 9 rebuilt or components are replaced.
    In the following, an advantageous method for producing a conveyor system 9 is presented:
    In a first step a), a plurality of segments 12, 13 of the conveyor system 9 are produced, wherein in each case a cable 14 for supplying electrical energy N2011 / 16200 25 · · ft * 15:52:34 29-06-2011 15/26 • ♦ · · · · · · · · · · · · · *
    11, the conveyor 11 is mounted on the frame 10 and the conveyor rollers 11 are fastened to the frame 10, as well as electrically connected to the power supply cable 14. In the concrete example, this is done indirectly via the connection boxes 15, the step a) in this example thus also includes the installation of the connection boxes 15 on the frame 10 and the electrical connection thereof with the power supply cable 14. Furthermore, the step comprises a) in this case, the electrically connecting the conveyor rollers 11 to the power supply cable 14 by electrically connecting the conveyor rollers 11 to said junction boxes 15.
    Conceivable, however, would of course also be a direct connection of the power supply cable 4 with the conveyor rollers 11. The connection boxes 15 may then be omitted under certain circumstances.
    In a second step b), the segments 12, 13 are positioned at their destination, and in a third step c) the energy supply cables 14 of adjacent segments 12, 13 are connected to one another. In Fig. 3 it can be clearly seen that the connection boxes 15 aulweisen bushings, via which the connection boxes 15 and thus the individual sections of the power supply cable 4 are connected to the specially provided connection cable 17.
    In a fourth step d), finally, a cable assembly 1 is mounted on the frame 10 and electrically contacted with the conveyor rollers 11, the cable assembly 1 is laid over at least two segments 12,13 uncut.
    In this variant of the invention, the individual segments 12,13 are prefabricated in the factory and combined only at their destination to a conveyor system Θ. Step b) implies the juxtaposition of the segments 12, 13 or combining to form a conveyor system 9. In the final assembly, the energy supply cables 4 of the individual segments 12, 13 are electrically connected to one another. The data cable, here realized by the twisted pair line 2, on the other hand, is uncut, at least over two segments, i. in one piece, so that a reliable data connection with a high data rate between the conveyor rollers 11 and a central control can be realized between Förder2011ΠΒ200-12-15. Of course, step d) can also take place before step c). Furthermore, the assembly of the connection boxes 15 on the frame in step a) before the installation of the power supply cable 4 can be carried out.
    In the above example, the power supply line 4 is designed as a separate cable. This is advantageous since the power supply line 4 can be arranged on the frame 10 as shown in FIGS. 2 and 3, whereas the cable arrangement 1 is arranged on the outside of the frame 10. By lying between the power supply cable 4 and the data bus 3 frame 10 electromagnetic fields that arise around the power cable 4, or caused by the drive motors and the controls of the conveyor rollers 2, well shielded from the data bus 3. Equivalently, the power supply cable 4 can of course also be arranged on the outside of the frame 10, whereas the cable arrangement 1 is fastened on the inside of the frame 10.
    In addition, it is still conceivable that the conveyor system 9 does not include any separate power supply cable 4, but at least one additional second conductor 3 of the cable assembly 1 is provided as a power supply line. Also, the connection cable 17 can then unfold. The wiring of a conveyor system 9 is then limited essentially to the insertion of the plug-in devices 4 in the connection boxes 15 or in the conveyor rollers eleventh
    The embodiments show possible embodiments of a Kabelan-order 1 or a conveyor system 9, which should be noted at this point that the invention is not limited to the specifically illustrated embodiments thereof, but also various combinations of the individual embodiments are mutually possible and this variation possibility due the doctrine of technical action by objective invention in the skill of those working in this technical field is the expert. So there are also all conceivable design variants, which by N2011 / 1B200 •• * ♦ • «• ············································································/ 26 • «* * -13-
    Combinations of individual details of the illustrated and described embodiment are possible, including the scope of protection.
    Furthermore, it is pointed out that a real cable arrangement 1 or a real conveyor system 9 can comprise more components and other components than illustrated. In addition, it should be noted that for a better understanding of the structure of the cable assembly 1 and the conveyor system 9, these or their components were shown partially uneven and / or enlarged and / or reduced. N2011 / 1S200 1. &lt; 1 ** * * * · ** ..... *. ι 't Ϊ' '* · · «&lt; * · ·· «* * _ · &lt; (* * * * * * * &Quot;
    REFERENCE NUMBERS
    Cable arrangement of first electrical conductor Second electrical conductor Plug-in device Contact
    Contact
    Contact
    Contact conveyor
    Frame conveyor role
    construction phase
    construction phase
    Power cable
    junction
    recess
    Connecting cable 15:55:53 29-06-2011 21/26 N2011 / 1B200
    权利要求:
    Claims (11)
    [1]
    15:54:21 29-06-2011 18/26 25 * · · · · · · · · · · * t · I «. , 1. Cable assembly (1), comprising a first electrical conductor (2) and at least one second electrical conductor (3), which insulated against each other, a plurality in the course of the conductors (2, 3) arranged plug devices (4) each having a plurality of electrical contacts (5..8), wherein in each case at least one contact (5..8) with an electrical conductor (2, 3 ), characterized in that the first conductor (2) on each plug-in device (4) is severed and each one end of the first conductor (2) is connected to one electrical contact (5,6).
    [2]
    2. Use of a cable assembly (1) according to claim 1, characterized in that the first conductor (2) as a daisy-chain line and at least one second conductor (3) is provided as Datenbusieitung.
    [3]
    3. Use according to claim 2, characterized in that two second conductors (3) designed as a twisted pair line and are provided as Datenbusieitung.
    [4]
    4. Use according to claim 2 or 3, characterized in that at least one second conductor (3) is provided as a power supply line.
    [5]
    5. Use according to one of claims 2 to 4, characterized in that the Kabeianordnung (1) for the electrical connection of a plurality of motor-driven conveying means (11) of a conveyor system (9) are provided.
    [6]
    6. A method for producing a conveyor system (9) with a frame (10) and a plurality of motor-driven conveyor arranged therebetween (11), (11) characterized by the steps of: a) producing a plurality of segments (12, 13) of the conveyor system (9) by mounting a cable (14) for the electrical power supply of the conveyor means (11) to the frame (10), mounting at least one conveyor (11) on the frame (10) and electrically contacting the at least one conveying means (11) with the power supply cable (14), b) positioning the segments (12, 13) at their destination, c) connecting the power supply cables (14) of adjacent segments (12, 13) and d) mounting a cable assembly according to claim 1 on the frame (10) and electrical contact with said conveying means (11), wherein the cable assembly (1) over at least two segments (12,13) is laid uncut.
    [7]
    7. The method according to claim 6, characterized in that the step a) comprises the installation of a connection box (15) on the frame (10) and the electrical connection thereof with the power cable (14) and the electrical connection of the conveyor (11) with the Power supply cable (14) by electrically connecting the Fördermitteis (11) with said Anschiussbox (15) takes place.
    [8]
    8. conveyor system (9) with a frame (10) and a plurality of interposed, motor-driven conveying means (11), characterized by a frame (10) fixed and with the conveying means (11) electrically connected cable assembly (1) according to claim 1.
    [9]
    9. conveyor system (9) according to claim 8, characterized by a frame (10) arranged and with the conveying means (11) electrically connected N2D11 / 1B200 25 • «* * * * * * * * * * * * 15:55 : 28 29-06-2011 20/26 -3- power supply cable (14), wherein the cable assembly (1) on the outside of the frame (10) and the Energieversorgungskabei (14) inside the frame (10) is arranged.
    [10]
    10. conveyor system (Θ) according to claim 9, characterized in that the electrical connection of the cable assembly (1) with the conveying means (11) through a recess (16) in the frame (10) through takes place.
    [11]
    11. conveyor system (9) according to any one of claims 8 to 10, characterized in that as conveying means (11) is provided a conveyor roller. TGW Mechanics GmbH

    Lawyer GmbH Ν2Ο11 / 1Θ200
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    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    ATA948/2011A|AT511754B1|2011-06-29|2011-06-29|CABLE ASSEMBLY, USE OF A CABLE ASSEMBLY AND CONVEYOR SYSTEM WITH A CABLE ASSEMBLY AND METHOD OF PRODUCTION THEREFOR|ATA948/2011A| AT511754B1|2011-06-29|2011-06-29|CABLE ASSEMBLY, USE OF A CABLE ASSEMBLY AND CONVEYOR SYSTEM WITH A CABLE ASSEMBLY AND METHOD OF PRODUCTION THEREFOR|
    EP12743352.2A| EP2727194B1|2011-06-29|2012-06-27|Conveyor installation comprising a cable arrangement, as well as a method for producing same|
    PCT/AT2012/050085| WO2013000005A1|2011-06-29|2012-06-27|Cable arrangement, use of a cable arrangement, and a conveyor installation comprising a cable arrangement, as well as a method for producing same|
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