奥地利专利AT519465A4 Arrangement device for receiving and organizing wire sections

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专利摘要:
Arrangement device (1) for receiving and arranging a plurality of individual wire sections (10), in particular prepared wire sections (10) from a finishing device (100), comprising: a base body (2), an arranging section (3) for receiving the wire sections (10), wherein the ordnungsabschnitt (3) by a along the base body (2) extending gap (4) for threading a plurality of individual wire sections (10) along the gap (4) is formed.
公开号:AT519465A4
申请号:T50202/2017
申请日:2017-03-14
公开日:2018-07-15
发明作者:
申请人:Schauer Vermietung Und Verpachtung Gmbh；
IPC主号:

专利说明:

Summary
Organizing device (1) for receiving and organizing a plurality of individual wire sections (10), in particular prepared wire sections (10) from a finishing device (100), comprising: a base body (2), an ordering section (3) for receiving the wire sections (10), the order section (3) being formed by a gap (4) extending along the base body (2) for threading a plurality of individual wire sections (10) along the gap (4).
(Fig- 3)
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The invention relates to an organization device with the features of the preamble of claim 1.
Furthermore, a confectioning device with an organization device is to be specified.
Furthermore, the use of an organization device together with a packaging device is to be specified.
Ordering devices of the type mentioned at the outset already belong to the prior art and are formed, for example, by adhesive strips, fabric strips, wires or the like, which bind the wires together in a desired sequence. Ordering systems which show a stringing of the wires or wire sections by means of another wire or a similar medium are shown for example in EP 0038861 A1. The wire sections can be separated from the organizer and according to their order in z. B. a control cabinet or similar device can be installed. The stringing together and connecting the wires is associated with an increased workload. If this process is carried out automatically, complex devices are necessary for this. Furthermore, by stringing the wires together using adhesive strips, fabric strips, wire or another medium, waste is generated which must be removed after the wires have been installed.
Another classification system is used, for example, in Japanese
Utility model document JP55022887 B shown. Removing the individual wires from such an arrangement device often proves to be tedious. The connecting elements have to be separated in order to be able to remove the individual wires or tools are required for this. In addition, these connecting elements, which act as an organization device, can usually only be used once. Automated stringing of the wires together using such order systems is also very complex.
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The object of the invention is to avoid the disadvantages described above and to provide an improved ordering device compared to the prior art, an improved assembling device and the use of an improved ordering device together with an improved assembling device.
This is achieved in the arrangement device according to the invention by the features of the characterizing part of claim 1.
In the assembly device according to the invention, this is achieved by the features of claim 14.
When using an organizing device and an assembly device according to the invention, this is achieved by the features of claim 18.
If the order section is formed by a gap extending along the base body for threading a plurality of individual wire sections along the gap, the prefabricated wire sections can be used in sequence along the order device, as will be required at their future installation location. The organizer picks up the wire sections and can be transported from one location to another. The order section prevents the order of the wire sections from changing. It is ensured that the correct order of the individual wire sections exists at the place of use, where the wire sections have to be installed. The arrangement section designed as a gap ensures that different wire sections with different lengths and different ends or terminations can also be accommodated. The individual wire sections lined up have essentially the same cross section. However, at one end of the wire section there is a wire termination which prevents the wire section from sliding out of the gap. So z. B. several individual wire sections with the same cross section of, for example, 0.75 mm ² along an organizer
3/29 to be threaded. At the ends of the wire sections there is a wire termination, e.g. B. in the form of a ferrule, a cable lug, a tab or a comparable element. However, a cable grommet, a locking ring or something similar can be attached to the wire section in order to prevent it from slipping out of the gap.
Basically, it should be mentioned that a wire section can be different elements. The term wire section means, for example, multi-core or single-core wires or cables with sheathing, individual insulated or bare wires, cable strands, finished cable harnesses, strands, fiber optic cables or the like.
If the base body is formed by a bar profile with a longitudinal extension and the gap extends along the longitudinal extension, a space-saving and stable organization device is created. It is particularly advantageous if the base body is formed by a hollow chamber profile. A hollow chamber profile has a high stability. In addition, e.g. B. protection of the wire terminations can be ensured, since they are located inside the hollow chamber profile. This is also achieved by the gap connecting a first surface to a second surface of the base body. The first surface can e.g. B. be the outside of the hollow profile, the second surface, the inside of the hollow profile. If a hollow strip profile is not used, but a normal strip profile with a gap, the first and the second side are formed only by two opposite surfaces of the flat profile.
If the gap has two distal ends, the first end having an insertion device for inserting the individual wire sections and the second end having an abutment section for abutting the wire sections, the process of threading the wire sections is facilitated. The stop prevents the wire sections from falling out of the gap. The insertion device can be formed by a funnel-shaped opening into the gap in order to allow manual insertion or automated insertion
4/29 facilitate. This funnel-shaped junction can be formed by concave recesses that continue in the gap. However, a funnel with oblique straight lines which open into the gap can also form such an opening.
If the stop section is formed by a closure of the gap and / or a fold on the base body, the advantage is achieved by a simple constructive measure that the wire sections cannot slip out of the gap during transport or when loading the arrangement device. A compact packing of the plurality of individual wire sections can also be achieved by the stop section. These can e.g. B. pressed together along the gap.
It has turned out to be particularly advantageous that at least one closure device is arranged at at least one end of the order section, by means of which the individual wire sections can be prevented from sliding out of the order section. After the arrangement device has been equipped, this closure device prevents individual or all wire sections from falling out of the device. This is achieved, for example, in that the closure device is formed by a locking element covering the gap, at least in sections, which is arranged movably on the base body. The closure device can thus be formed by a type of flap or a latch which can be closed manually or automatically after the arrangement device has been fitted. Instead of the locking element, which is arranged movably on the base body, however, an additional element can also be used, which is pushed over the gap or inserted into the gap.
If the base body is formed by a square hollow profile that is longitudinally slotted on one side, at least one end of the square hollow profile remains open for threading the individual wire sections and the other end of the square hollow profile is closed at least in sections to form a stop, for example, the wire terminations are protected by the hollow profile in Inside of the
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Organizer stored. Due to the closed shape of the organization device, the wire sections cannot fall out upwards, since the gap has a kind of roofing due to the hollow profile. The square hollow profile also creates a compact design, a stable base body and thus an easy-to-transport organization device. This can also be used several times and does not have to be disposed of after a single use.
An arrangement device with a plurality of individual wire sections, in particular prepared wire sections from a finishing device, has been found to be particularly advantageous, which has the feature that the gap has a minimum gap width which essentially corresponds to a wire diameter of the individual wire sections and has a maximum gap width which is smaller than the termination diameter of the at least one wire termination arranged on the wire section. This dimensioning of the gap width ensures that the wire sections can be threaded easily along the organization device. Falling out of the gap is prevented by the larger diameter of the wire terminations arranged on the wire section. The gap width must not be too large, since otherwise it can no longer be guaranteed that the order of the wire sections in the arrangement device changes.
In the case of a plurality of individual wire sections, which at least in sections have no insulation and thus form a strand, one speaks of a partial deduction on these wire sections. This partial deduction, in which the wire section has no insulation, can also be used to support the wire section, in that the gap has a minimum gap width which essentially corresponds to a stranded diameter of the stripped section of the individual wire sections and a maximum gap width which is smaller than that Wire diameter of the insulated wire section. When using the partially withdrawn wire section at the installation site, this is simply pulled out of the gap, for example, only orthogonally. The insulation is removed by the counter bearing of the gap and the wire sections are completely stripped at the contact point.
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In general, it is advantageous if the connection between the plurality of individual wire sections and the arrangement device is form-fitting. The insertion of the wire sections into the organizing device, and also the removal of the wire sections, is simple and uncomplicated. The positive connection ensures, however, that the wire sections cannot fall out of the gap. They remain in the order section in the desired order.
It has been found to be particularly advantageous that the
Ordering device is releasably attachable to the assembly device. This is, for example, attached to the assembly device by means of brackets;
Assembly device are removed and transported to the place of use. After completion of the assembly work, the empty arrangement device can be transported back and attached to the assembly device again for filling. There is no waste and resources are saved since the organizer is intended for multiple use.
If a transfer device is provided for transferring the individual pre-assembled or assembled wire sections from the assembly device into the at least one order device on the assembly device, then an automated production and order of the individual wire sections can take place. The transfer device takes the individual assembled wire sections and, depending on the desired sequence, populates the individual organization devices. The transfer device can be configured, for example, by a robot that takes different wire sections from different assembly devices and arranges them in succession in at least one order device according to the desired sequence. For example, three different assembly devices produce three different wire sections. These must be used in an orderly manner in an arrangement device with a predetermined order. The robot that as
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Ί
The transfer device is used, depending on the given order, takes the respective wire section from the respective assembly device and transfers it to the corresponding ordering device.
It may also be the case that a feed device is provided for pushing the individual wire sections along the order device, so that it is ensured that the wire sections can be completely received by the order device. This can also be done in that the transfer device and the feed device can be formed by a single device, for example by a robot. However, the feed device can also, for. B. be formed by a conveyor belt, a vibrator, an air nozzle or other.
It has turned out to be particularly advantageous, however, that the at least one arrangement device is arranged on the assembly device in such a way that the longitudinal extension of the base body and the gap extending therein lie obliquely to the horizontal plane, which causes the wire sections to slide along the gap due to gravity, preferably up to Stop section, locking device or to the nearest wire section - is accessible. There is no longer a need for a feed device, since gravitation generates the necessary force to position the wire sections accordingly. The inclination of the individual order devices also saves space, since its unloading does not extend as far from the assembly device as in a horizontally aligned state.
The use of an organization device for the orderly reception of a plurality of individual wire sections from a manufacturing device thus results in many economic advantages such as, for example: faster production due to easier assembly and arrangement of the wire sections, one
Reusability of the organization device, a guaranteed order or order of the wire sections, a protected wire termination and a lower error rate in the order.
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Further details and advantages of the present invention are explained in more detail below with reference to the description of the figures and with reference to the exemplary embodiments illustrated in the drawings. In it show:
Fig. 1 Fig. 2 Fig. 3
4a to 4c, 5a, 5b
6a, 6b, 7a to 7c
8, 9a, 9b, 10a to 12b, 13a to 14c, 15
Assembly device with oblique organization device, assembly device with linear organization device, organization device in plan view,
Variants of closure devices, schematic representation in different views of the arrangement of a packaging device and at least one organization device,
Dimensioning gap - different views, different variants of wire terminations arranged in a gap,
Wire termination formed by transport lock,
Partial deduction of wire section, different basic body variants, different gap variants, and exemplary embodiment of an arrangement device.
1 shows a schematically illustrated assembly device 100. A schematic transfer device 101 is located on the assembly device 100, which, for example, can also be designed as a robot arm. The individual pre-assembled wire sections 10 with the wire terminations 11 arranged thereon pass from one or more assembly devices 100 through the transfer device 101 to the first end E1 of FIG
Ordering device 1 and are inserted there into the gap 4 of the order section 3 (shown in FIG. 3), which is not visible in FIG. 1. Due to the inclination of the ordering device 1, the wire section 10 slides due to the protrusion formed by the wire termination 11 along the longitudinal extent LE of the ordering device 1 to the stop section 5 or to the closest wire section 10. The stop section 5 is located at the second end E2 of the FIG Organization device 1. The organization device 1 is a base body 2 with
9/29 a rectangular cross section and designed as a hollow profile. It can be seen that the wire terminations 11 at the upper end of the wire sections 10 are protected by the closed shape of the organization device 1. Slipping out upwards is also impossible due to the closed design of the base body 2. It is thus ensured that all wire sections 10 are retained in the order device 1 in their order and in their number after the arrangement device 1 has been fitted.
2 shows a further variant of a schematically represented
Assembly device 100, but there may also be several
Assembly devices 100 may be provided. The transfer device 101 removes the respective wire sections 10 and inserts them at the first end E1 of the ordering device 1. A feed device 102 provides the necessary feed along the longitudinal extent LE of the ordering device 1 to the stop section 5 at the second end E2 or to the closest wire section
10, which was previously inserted. It can of course also be provided that the transfer device 101 and the feed device 102 are formed by only one device. This could e.g. B. be a robot with a gripper. The angle at which the ordering device 1 stands in this case relative to the confectioning device 100 is not decisive for the function of inserting the individual wire sections 10, since the feeding of the individual wire sections 10 is realized by the feeding device 102, not by gravity. The ordering device 1 can thus be arranged, for example, pointing obliquely upwards, horizontally oriented, pointing obliquely downwards or at any other angle.
FIG. 3 shows the organization device 1 with its longitudinal extent LE, along which the organization section 3 is formed. The stop section 5 is located at the second end E2, and the funnel-shaped insertion section 6 is located at the first end E1. The insertion section 6 opens into the gap 4. This facilitates the insertion of the wire sections 10 with the wire terminations attached to them
11. The base body 2 forms an inside I and an outside A. A portion of the base body 2 above or opposite to the gap 4 was
10/29 exempted to simplify the introduction of the wire sections 10, this exemption is formed by the recess 9. The base body 2 is preferably formed by a metal profile. This stable design enables multiple use of the arrangement device 1. Instead of the automatic wire assembly, manual assembly can also take place. The transfer to the ordering devices 1 takes place, for. B. also manually or by a transfer device 101.
4a shows a closure device 7, formed by a
Locking element 8. This is rotatably arranged on the base body 2 and engages in a locking pin. After the arrangement device 1 has been filled, this locking element 8 can be closed in order to prevent the individual wire sections 10 from falling out.
4b shows another variant of a locking element 8, which is used as a closure device 7. In this case, an elastic band, preferably a rubber ring, is pushed onto the base body 2. Recesses on the base body 2 can also secure the position of the locking element 8. The rubber band engages in slots, for example, in order to prevent the rubber ring from accidentally slipping off.
4c shows a further variant of the locking element 8, which serves as a closure device 7 for the gap 4. This can be a molded part, for example in the form of a plug or something similar, which positively contacts the gap 4 or the insertion section 6.
5a shows the top view of a schematically represented
Assembly device 100, consisting of a feed section 103, which transfers the wire section 10 or the wire terminations 11 to be attached to the wire section 10 to a preparation section 104. The processing section 105 assembles the wire sections 10. For this purpose, the wire is cut to length, stripped, partially stripped, crimped, pressed, soldered, glued or shrunk with wire sections 11. The pre-assembled
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Wire sections 10 pass via the transfer device 101 into the order devices 1 provided for this purpose or into the order device 1 provided for this purpose. These are located in the removal section 106 on the assembly device 100.
5b shows the schematic structure in a side view, it can be seen that the majority of order systems 1 or a single order system 1 are oriented obliquely to the horizontal axis in order to bring about the gravitational sliding of the wire sections 10. The angle between the longitudinal extent LE and the horizontal axis is in a range between 0 ° and 90 °, particularly preferably between 10 ° and 80 °.
6a shows the dimensioning of the gap width SB in relation to the
Dimensioning of the wire diameter KD of the individual wire sections 10. In addition, it is shown how the wire terminations 11 are prevented from slipping through the gap 4 by their projection over the gap width SB. The wire terminations 11 rest positively on a first surface EO or also on the inside I of the base body 2. On the opposite second surface ZO or on the outside A, the wire sections 10 protrude from the gap 4. The gap width SB essentially corresponds to the diameter KD of the individual wire sections 10. To simplify and improve the sliding properties along the gap 4, however, it is provided that a certain excess wire diameter is realized at the gap width SB. However, the gap width SB does not exceed the value of the diameter of the wire termination 11. Thus, the gap width SB is equal to the wire diameter KD wire diameter or less than the connection diameter AD. This is also illustrated in FIG. 6b, which shows the detail from FIG. 6a.
FIGS. 7a to 7c show different variants of wire terminations 11, FIG. 7a shows cable lugs, FIG. 7b shows the female contact elements of flat plugs, FIG. 7c shows crimp contacts. Instead of such wire terminations shown in the examples of FIGS. 7a to 7c, however, all other elements, such as, for. B. shrink sleeves, cable sleeves, grommets or the like as
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Serve wire termination 11. It is important that the protrusion formed by the wire terminations 11 is larger than the gap width SB (see FIG. 6b).
8 shows how only cut-to-length wire sections 10 without wire terminations 11 arranged thereon in the form of an end sleeve or a similar contact element can be stored along a gap 4. For this purpose, attached transport locks serve as the wire termination 11. These can be removed from the wire section 10 after the wire sections 10 have been removed or remove themselves when the wire section 10 is pulled out of the gap 4.
Another variant is shown in FIG. 9a, in this case partially subtracted
Wire sections 10 stored in the gap 4. This is shown in detail in FIG. 9b, where the insulation of the wire section 10 has been severed, moved along the wire of the wire section 10 and thus part of the wire is exposed. The strand diameter LD thus serves as a reference for the gap width SB. The gap width SB is either equal to the strand diameter LD, but never larger than the wire diameter KD. If the wire section 10 is required, the longer piece which hangs out of the organization device 1 can be pulled, the partially detached insulation at the short end and inside the organization device 1 comes off and the wire section 10 can be used directly without being stripped , However, the wire section 10 can also be pushed out of the gap 4 quite normally if the partial withdrawal or the partial insulation is to remain upright.
Figures 10a and 10b show different views of the base body 2. The base body 2 can be formed not only by a hollow chamber profile or a flat profile, but also by, for example, rod-shaped elements with a circular cross section, which are arranged parallel to one another.
FIGS. 11a and 11b show how rectangular rod elements aligned parallel to one another form the base body 2.
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FIGS. 12a and 12b show the hollow profile variant with a rectangular profile body as the base body 2.
FIGS. 13a to 13d show different variants of the gap 4 on the base body 2. These are intended to simplify the threading or threading out of the individual wire sections 10 from the gap 4 or to influence them in another way. 13a shows a base body 2 arching in the direction of the wire terminations 11, at the highest point of which the gap 4 is formed. FIG. 13b shows exactly the opposite, the base body 2 is arched downward, the gap 4 is located at the deepest section. FIG. 13c forms a web which points upwards, in FIG. 13d the web shows below. These different design variants could be used, for example, in the case of different types of wire terminations 11 in order to be able to protect or surround them in accordance with their shape.
FIGS. 14a to 14c show different geometries of the gap 4.
For example, the cross section of the base body 2 through which the gap 4 runs is shown in FIG. 14a. The transition from the base body 2 into the gap 4 can be formed at the transition section 12 by a chamfer F, in FIG. 14 b it is shown how the transition section 12 is formed by a radius r. 14c shows how the gap 4 connects both sides of the base body 2 by means of a rounding with a radius R.
FIG. 15 shows a further embodiment variant of the arrangement device 1. This comprises an insertion section 6 and a locking element 8 at each of the ends E1 and E2. This ensures that when the arrangement device 1 is used on the assembly device 100, there is no need to pay attention to the direction of use and thus the ordering device 1 can be filled from both ends E1, E2 and can then also be locked by the locking element 8. This variant can also be used to select from which of the two ends E1, E2 the wire sections 10 are removed, which can have an effect on their sequence. It can thus be determined when the ordering device 1 is loaded whether
14/29, for example, the first wire section 10 introduced is also the first wire section 10 to be removed, which is required during assembly, or the last. In the event that the first wire section IO used is also the first wire section 10 to be installed and this was inserted at the end E1, then this must also be removed at the end E1. If the sequence is different and the first wire section 10 used is the wire section 10 to be installed last, this must be removed at the opposite end E2. In this embodiment variant, the locking elements 8 simultaneously form the stop section 5. Instead of the locking elements 8, as shown in FIG. 15, another locking element 8 can also be used, for example a rubber band or a plug, as already shown in the previous figures.
Innsbruck, March 13, 2017
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权利要求:
Claims (23)
[1]
claims
1. Organization device (1) for receiving and ordering a plurality of individual wire sections (10), in particular prepared wire sections (10) from a manufacturing device (100), comprising:
- a base body (2),
- An order section (3) for receiving the wire sections (10), characterized in that the order section (3) has a gap (4) extending along the base body (2) for threading a plurality of individual wire sections (10) along the gap ( 4) is formed.
[2]
2. Organization device (1) according to claim 1, characterized in that the base body (2) is formed by a rod profile with a longitudinal extension (LE) and the gap (4) extends along the longitudinal extension (LE).
[3]
3. Organization device (1) according to claim 1 or 2, characterized in that the base body (2) is formed by a hollow chamber profile.
[4]
4. Organization device (1) according to one of claims 1 to 3, characterized in that the gap (4) connects a first surface (EO) with a second surface (ZO) of the base body (2).
[5]
5. Organization device (1) according to one of claims 1 to 4, characterized in that the gap (4) has two distal ends (E1, E2), the first end (E1) an insertion device (6) for inserting the individual wire sections (10) and the second end (E2) one
Has stop section (5) for attaching the wire sections (10).
[6]
6. Organization device (1) according to claim 5, characterized in that the insertion device (6) is formed by a funnel-shaped junction in the gap (4).
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[7]
7. Organization device (1) according to claim 5 or 6, characterized in that the stop portion (5) is formed by a closure of the gap (4) and / or a fold on the base body (2).
[8]
8. Organization device (1) according to one of claims 1 to 7, characterized in that at least one closure device (7) is arranged on at least one end of the organization section (3), through which the individual wire sections (10) slide out of the organization section ( 3) can be prevented.
[9]
9. Organization device (1) according to claim 8, characterized in that the closure device (7) is formed by a locking element (8) covering the gap at least in sections, which is arranged movably mounted on the base body (2).
[10]
10. Organization device (1) according to one of claims 1 to 9, characterized in that the base body (2) is formed by a square hollow slit on one side, with at least one end of the square hollow profile for threading the individual wire sections (10) remains open and the other end of the square hollow profile is closed at least in sections.
[11]
11. Organization device (1) according to one of claims 1 to 10 with a plurality of individual wire sections (10) with at least one wire termination (10) arranged wire termination 11, in particular prepared wire sections (10) from a confectioning device (100), characterized in that the gap (4) has a minimum gap width (SB) which essentially corresponds to a wire diameter (KD) of the individual wire sections (10) and has a maximum gap width (SB) which is smaller than the end diameter (AD) of the at least one Wire section (10) arranged wire termination (11).
[12]
12. Organization device (1) according to one of claims 1 to 10 with a plurality of individual wire sections (10) which at least in sections have no insulation and thus form a strand, characterized in that
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81018 26 / eh that the gap (4) has a minimum gap width (SB), which essentially corresponds to a strand diameter (LD) of the stripped section of the individual wire sections (10) and a maximum gap width (SB) is smaller than the wire diameter ( KD) of the insulated wire section (10).
[13]
13. Organization device (1) according to one of claims 11 or 12, characterized in that the connection between the plurality of individual wire sections (10) and the organization device (1) is form-fitting.
[14]
14. assembly device (100) for - preferably automated or partially automated - assembly or pre-assembly of individual wire sections (10), with at least one organization device (1) according to one of claims 1 to 13, characterized in that the organization device (1) detachably on the assembly device (100) can be attached.
[15]
15. The assembly device (100) according to claim 14, characterized in that a transfer device (101) for transferring the individual pre-assembled or assembled wire sections (10) from the assembly device (100) into the at least one organization device (1) on the assembly device (100). is provided.
[16]
16. assembly device (100) according to claim 15, characterized in that a feed device (102) for pushing along the individual wire sections (10) along the arrangement device (1) is provided, the transfer device (101) and the feed device (102) being provided by a single device can be trained.
[17]
17. assembly device (100), according to claim 14 or 15, characterized in that the at least one arrangement device (1) is arranged on the assembly device (100) such that the longitudinal extension (LE) of the base body (2) and the extending therein Gap (4) lie obliquely to the horizontal plane, which causes the wire sections (10) to slide along the gap (4) due to gravity - preferably up to
[18]
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Stop section (5) or up to the nearest wire section (10) can be reached.
18. Use of an organization device (1) according to one of claims 1 to 13 for the orderly receiving a plurality of individual wire sections (10) from a finishing device (100), preferably according to one of claims 14 to 17, wherein the plurality of individual, pre-assembled or assembled Wire sections (10) along the order section (3) of the order device (1) are arranged in a predetermined order.
Innsbruck, March 13, 2017
[19]
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E1
Showers rental and
Lease GmbH
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[20]
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Showers rental and
Lease GmbH
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[21]
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Showers rental and
Lease GmbH
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[22]
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Showers rental and
Lease GmbH
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[23]
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同族专利:

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RU2734828C1|2020-10-23|

US20190386448A1|2019-12-19|

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引用文献:

公开号 | 申请日 | 公开日 | 申请人 | 专利标题

DE3432334A1|1984-09-03|1986-03-13|Reinhard Dipl.-Ing. Treudler , 6237 Liederbach|Transportable cable holder for connecting cables of an experimentation system|

US5660408A|1995-07-12|1997-08-26|Paccar Inc|Gladhand and electrical connector holder|

GB2352097A|1999-09-28|2001-01-17|John Raymond Williams|Electrical plug storage apparatus|

DE202008000707U1|2008-01-17|2009-05-20|Awek Protech Gmbh|Device for storing and transporting electric cables|

JPS5755305B2|1978-09-05|1982-11-24|

WO1981001343A1|1979-11-02|1981-05-14|Mitsubishi Electric Corp|Wiring harness|

DE8602322U1|1986-01-30|1987-11-26|Grote & Hartmann Gmbh & Co Kg, 5600 Wuppertal, De|

ES2014657A6|1988-06-13|1990-07-16|Yazaki Corp|Method and apparatus for inserting terminal-carrying wire ends into a connector housing|

DE3914113C2|1989-04-28|1991-02-21|Stocko Metallwarenfabriken Henkels Und Sohn Gmbh & Co, 5600 Wuppertal, De|

CA2053010C|1990-10-17|2001-05-01|Claude Ricard|Processes and devices for the automatic connection of conductor wire or optical fiber section ends to adapted component receptacles|

DE4224194A1|1992-07-17|1994-01-20|Siemens Ag|Electrical line bundle mfg system - inserts successive line sections in terminal block supported by carrier rotated through charging, assembly and discharge stations|

JP3288813B2|1993-07-29|2002-06-04|小松精練株式会社|Coating agent and fibrous cotton coated therewith|

JP2604869Y2|1993-12-24|2000-06-05|第一電子工業株式会社|Connector wiring device|

DE19756978C1|1997-12-20|1999-09-09|Daimler Chrysler Ag|Cable module assembly method for cable modules with individual cables, plug contacts and plug housings|

US6249636B1|1999-09-07|2001-06-19|Lucent Technologies, Inc.|High density fusion splice holder|

JP4104613B2|2005-04-22|2008-06-18|株式会社椿本チエイン|Cable clamp member of cable protection guide device|

JP5212499B2|2010-09-08|2013-06-19|第一精工株式会社|Electrical connector and manufacturing method thereof|

AU2012225855B2|2011-03-07|2015-10-22|Tyco Electronics Corporation|Cable strain relief clamping devices and methods for using the same|

KR20150042518A|2013-10-11|2015-04-21|바이브록|Guide channel having self-locking nut|

EP3035452B1|2014-12-17|2020-02-12|Komax Holding AG|Assembly and method for the placement of connector housings|EP3876370A1|2020-03-06|2021-09-08|Andreas Ripploh|Holder for assembled electric conductors|

法律状态:
2018-12-15| PC| Change of the owner|Owner name: SW AUTOMATISIERUNG GMBH, AT Effective date: 20181102 |

优先权:

申请号 | 申请日 | 专利标题

ATA50202/2017A|AT519465B1|2017-03-14|2017-03-14|Arrangement device for receiving and organizing wire sections|ATA50202/2017A| AT519465B1|2017-03-14|2017-03-14|Arrangement device for receiving and organizing wire sections|

KR1020197026815A| KR102256435B1|2017-03-14|2018-03-06|Arrangement device for receiving and arranging wire parts|

RU2019130394A| RU2734828C1|2017-03-14|2018-03-06|Ordering device for receiving and ordering wire pieces|

CN201880017712.0A| CN110506371B|2017-03-14|2018-03-06|Regulating device for receiving and regulating line sections|

EP18712493.8A| EP3596788B1|2017-03-14|2018-03-06|Arrangement apparatus for receiving and arranging wire sections|

PCT/AT2018/060058| WO2018165688A1|2017-03-14|2018-03-06|Arrangement apparatus for receiving and arranging wire sections|

US16/555,570| US11251577B2|2017-03-14|2019-08-29|Arrangement apparatus for receiving and arranging wire sections|

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