EP0115070A1 - Process and device for automatically laying fibre strands into cans - Google Patents

Abstract

The invention relates to processes and devices for automatically depositing and pressing continuous tows in containers moved to and fro on a traversing device, wherein the start of the tow is transferred via a chute to a catch box on the container and is retained there, the container is weighed during each traversing movement because of the extension of a weighing platform and, when the nominal weight is reached, the fed tow is held and severed in a cutting and fixing device, the tow ends obtained are fixed and marked, and the tow end belonging to the deposited material and the start of the tow are introduced into the full container from the catch box.

Description

The invention relates to a method and a device for automatically inserting endless fiber cables into containers.

It is known, for example from German design specification 1 239 656, to lay fiber cables of this type in a container with the aid of a pivotable proboscis and at the same time to oscillate the container on a traversing device transversely to the proboscis movement. Two press punches compact the material. They act on the deposited material in the traversing position. The width of the ram should be about half the width of the container, so that the press-in areas overlap in the middle of the container. This type of storage and compression of the cable material has proven itself. Devices that work according to this principle are often represented in technology. They are used both for the final packaging of such endless cable tapes, and more recently for storing cable tapes, which are then fed to a final press, in which the material is further compacted and the actual packaging is then carried out in bale form and not more than usual in disposable packaging, such as Cardboard boxes or the like. Post-pressing of the stored cable strips in a final press or central press is e.g. in European Patent No. 0000 881 and in German Offenlegungsschrift 29 11 958.

With this modern type of packaging, the Kabolablage serves with 2 press rams and an iridescent shelf container still as the first stage of packaging such cable tapes.

When carrying out this method in accordance with the previous literature, however, it is observed that a plurality of monitoring functions and condition steps are still necessary in the operation of such depositing devices in order to ensure that the method runs smoothly. This applies in particular to the monitoring of the degree of filling of the changing container, as well as for securing the beginning and end of the cable or the transition from one container to the next. The degree of filling of the container is of considerable importance both for further processing by the cable manufacturer, for example a final compression in bale form, and for the subsequent processor, who is interested in being able to process certain quantities in a certain unit of time, the weight of the bales or Should distinguish containers as little as possible. All attempts to determine the weight of the deposited cable by its running length must be regarded as failed. The use of the run length as a measured variable would only be suitable if no malfunctions occurred in the spinning mill during the entire laying time, ie the cable had the same number of titer from start to finish and the run length of the material could be measured under exactly the same tension. Experience has shown, however, that the failure or replacement of nozzles or spinning positions often leads to a shift in the effective cable thickness and thus to a change in the quantity of cables stored in weight units. Another difficulty arises when changing the titer, in which case a new setpoint must be specified in order to avoid overfilling the container. From the multitude of error possibilities, which with a pure length determination for Determination of the fill weight can lead to fluctuations in the crimp or the curling force. An elimination of the errors caused by this would only be possible if the crimp was completely pulled out of the cable material to be deposited, at least for a short distance. Such a procedure is not desirable in the interest of the quality of the fiber cable. However, each storage under a constant cable tension leads to different amounts of weight per unit length of the cable with fluctuating crimping values.

Experience has shown that the start and end of the loading of a container are sources of deterioration or

to malfunctions, if not to endanger the operating personnel. This applies in particular if the cable storage is on a different floor than the conveyor belt. Here, information errors can lead to containers not being filled sufficiently or, for example, the beginning of the cable not being specified sufficiently.

There was therefore still the task of improving the device known from German Auslegeschrift 12 39 656 and the associated method so that automatic filling of the container is possible, just the optimal amount is stored in each container and the beginning and end of the cable be stored automatically in a clear manner without endangering the operating personnel, who can be limited to monitoring the process.

A solution to this problem has been found in the method described below and the associated device. They represent an inventive further development of the state of the art, for example in accordance with the German design specification 12 39 656. As described there, the cable is also placed in the present case with the aid of a pivotable trunk in a container which is moved with the aid of a traversing device transversely to the movement of the trunk from one end point to the other. Each occurs when the end points are reached pressing the deposited cable material through press dies. In contrast to the prior art, however, after an empty container has been moved into the depositing device, the beginning of the cable is first transferred to a collecting box and held there during the entire depositing time. Subsequent to the transfer, the container begins to carry out the usual traversing movements, the container being weighed according to the invention on its way between the end points of the traversing movement. This is done by extending a weighing table that is located in the traversing device. When a predetermined weight of the deposited cable material is reached, the further inflow of the cable is stopped, the cable is cut in front of the trunk, and the individual filaments of the cable ends obtained are defined and, if necessary, marked. The end of the cable belonging to the cable stored in the container is then run into the container and the beginning of the cable is also transferred from the collecting box into the filled container. The container filled with pressed cable material is then removed from the storage device and replaced by an empty container.

• einen Wägetisch mit Wägevorrichtungen in der Changiervorrichtung. Dieser Wägetisch kann die Bewegungen der Changiervorrichtung ungehindert mitmachen, darüber hinaus aber senkrecht zu der Changierbewegung unabhängig bewegt werden.

The device according to the invention. has at least the following special features compared to the prior art:

• a weighing table with weighing devices in the traversing device. This weighing table can take part in the movements of the traversing device unhindered, but can also move independently perpendicular to the traversing movement will.

The device should furthermore have a holding frame which is carried by a support device when containers are being inserted and removed from the depositing device, but otherwise rests on the edge of the container located in the traversing device and can freely follow the traversing movement of the container. Furthermore, a catch box with movement devices is provided, which is movably mounted on the holding frame, has a closable lid and can be brought into different positions to the container or the insertion trunk by special movement devices.

Preferably, the device should also have an automatic cable cutting and fixing device, which is arranged in front of the trunk of the branch and has gripping devices with which the cable can be clamped several times in succession, as well as a movable cutting device and two fixing devices that fix the individual filaments enable the cable ends by wrapping, taping or the like.

Preferred embodiments of the method and the device are the subject of the individual subclaims.

To further clarify the invention, the method according to the invention will first be discussed, and then the device required according to the invention will be discussed in detail and, in particular in connection with the accompanying drawings, described in more detail both the principle according to the invention and a special embodiment of the device used.

As already explained above, all attempts are the optimal degree of filling of the container over the cable length to be defined as more or less failed. As already stated above, it is not technically possible to ensure that this cable always has the same number of capillaries. In addition, there are unavoidable voltage fluctuations in the crimped cable material, which are regarded as a further cause for fluctuations in the final weights of the cable material in the individual containers.

The difficulties associated with a different degree of filling become particularly clear if the cables which have been deposited are to be subjected to a subsequent final pressing in a central press after being deposited in the depositing device and pressed by the two press rams. If the optimum degree of filling is exceeded, it can be expected that the final pressing cannot be completed without problems, since too much material is being offered to the final press, since the predetermined size or bale size can no longer be achieved by the central press.

It has been shown that, in contrast to the determination of the cable length, the determination of the cable weight in the container is a reliable parameter for the degree of filling or the unimpeded further processing. In contrast to the determination of the running length, however, the weight of the deposited cable is difficult to determine, since appropriate weighing devices have to be built practically so that they have to withstand the pressure of the two rams. Such a solution inevitably leads to an inaccurate measuring system with large errors.

A significant reduction in the error is possible if the weighing system does not have to withstand the pressing force of the ram, but only the weight of the container and the material deposited. Such a limitation is possible if the actual weighing device, for example the load cells, can be pivoted away during the pressing process or are only used between the pressing processes.

According to the invention, this is done by using a special weighing table in the traversing device, which moves back and forth. the resulting movement of the traversing device participates without hindrance, but can move freely perpendicular to it. If such a weighing table is raised, for example, during the traversing movement, then it carries the container including the contents and attached devices during the traversing movement. Weighing devices mounted on the weighing table can then measure the weight of the container and the contents and can feed appropriate control devices. In a preferred embodiment of the method, the weighing table is raised during the traversing movement by guiding the weighing table on rollers which are guided over ramp-like structures. This arrangement permits a sufficiently frequent measurement of the weight during the depositing process without any interruption or without any stopping of the container during the depositing process. The weighing accuracy, i.e. compliance with the specified weight of the deposited cable material can be adhered to with ÷ 0.2% without difficulty, i.e. even when using large containers or a subsequent final pressing with weights of e.g. 400 kg per unit, the specified weight can easily be maintained to ± 1 kg.

Furthermore, a holding frame belongs to the device according to the invention, which can be lowered onto the container to be filled. The storage of this holding frame takes place when inserting and removing containers on a support device which can lower the holding frame to the edge of the container so that the holding frame is only carried by the edge of the container but no longer by the support device. This holding frame has several tasks. Firstly, he ensures with the aid of clamping devices or the like that box bags inserted in the container are not moved in their position even during the pressing process. For this reason, it is necessary for the holding frame to have clamping devices on at least two sides. In addition, the: old frame is also the attachment point for the long box. The catch box, including the associated movement directions, is movably attached to the frame and serves to catch and hold the beginning of the cable before the actual filling process of the container. For this reason, it is expedient that the catch box can be brought into a special catch position with the aid of movement devices, in which the spatial orientation is approximately the same as that of the swivel trunk in its end position. When the cover of the collecting box is open, the cable start can get into the catching box unhindered in this catching position, two suitable sensors can determine the presence of the beginning of the cable. For example, this is done using appropriate light barrier systems.

kann durch geeignete Transportvorrichtungen wie z.B. Walzenbahnen oder dergleichen aus der Ablegevorrichtung herausgeführt werden. Der Halterahmen einschließlich Fangkasten mit den dazugehörigen Bewegungs- und Klemmvorrichtungen ist während der eigentlichen Füllung des Behälters Bestandteil des Behälters und wird demzufolge bei der Tarabestimmung des leeren Behälters mitgewogen.If the beginning of the cable is in the catch box, this beginning of the cable is clamped in by closing the cover. The trap box then expediently swims into a working position which makes contact with the trunk impossible, and remains in this position during the entire laying process. After the end of the laying process, the catch box g is opened and the beginning of the cable is poured onto the deposited cable material in the container. Then the support frame is raised again by the support device after the clamping device for the box sack has been released accordingly. The container is now free

can are guided out of the depositing device by suitable transport devices such as roller tracks or the like. The holding frame including catch box with the associated movement and clamping devices is part of the container during the actual filling of the container and is consequently weighed in determining the tare of the empty container.

After the final weight has been reached, the cable must be severed and the individual filaments of the cable must be fixed in a suitable manner in order to avoid mutual displacement. This cutting of the cable can be done by hand and, as was customary in the past, also the fixing of the individual filaments by knotting the cable ends. However, it is easily possible to automate this step too by using a cable cutting and fixing device. For this purpose, it is necessary that the cable is held in several places one behind the other and is cut through, for example, by a rotating knife in the clamped state. The individual filaments of the cable ends can be fixed, for example, by tying with a thread or gluing with a self-adhesive tape or the like. At the same time, a marking can be made here, which allows a reliable detection of the cable start and cable end.

• Figur 1 ist eine Seitenansicht der Ablege- und Pressvorrichtung, bei der sich der Behälter in einer Endposition der Changierbewegung befindet.
• Figur 2 ist wiaderum eine Seitenansicht der Vorrichtung wie Figur 1, der Behälter befindet sich jedoch zwischen den Endpositionen der Changierbewegung.
• Figur 3 zeigt eine Aufsicht auf die Changiervorrichtung mit Wägetisch.
• Figur 4 gibt einen Schnitt entlang der Ebene IV--_IV in Figur 3 wieder.
• Figur 5 zeigt eine weitere Schnittansicht entlang der Ebene V---V in Figur 4.
• Figur 6 zeigt eine Seitenansicht bzw. Schnitt von Halterahalmen und Sützvorrichtung bei angehobener Stützvorrichtung.
• Figur 7 zeigt eine Seitenansicht wie Figur 6. Hier sind jedoch die Stützvorrichtungen abgesenkt, der Halterahmen liegt auf dem Rand des Behälters auf.
• Figur 8 zeigt einen Fangkasten und Rüssel im Querschnitt in der Übergabeposition.
• Figur 9 zeigt einen entsprechenden Fangkasten im Querschnitt in Arbeitsposition,
• Figur 10 den gleichen Fangkasten in Auswurfposition.
• Figur 11 zeigt eine schematische Darstellung in der Seitenansicht einer Kabelschneid- und Festlegevorrichtung.
• Figur 12 ist eine Aufsicht auf eine Kabelschneid- und Festlegevorrichtung.
• Figur 13 zeigt im Detail die Kabelklemmeinrichtungen in geschlossener Position in der Aufsicht und
• Figur 14 zeigt wie Figur 12 in der Aufsicht als Detail die Festlegevorrichtungen in der Arbeitsposition.

The device according to the invention is to be explained with reference to the attached figures. In particular, the figures relate to the following objects:

• FIG. 1 is a side view of the depositing and pressing device, in which the container is in an end position of the traversing movement.
• Figure 2 is again a side view of the device as in Figure 1, but the container is between the end positions of the traversing movement.
• Figure 3 shows a plan view of the traversing device with a weighing table.
• Figure 4 shows a section along the plane _IV - _IV in Figure 3 again.
• FIG. 5 shows a further sectional view along the plane V --- V in FIG. 4.
• FIG. 6 shows a side view or section of holding frames and support device with the support device raised.
• Figure 7 shows a side view like Figure 6. Here, however, the support devices are lowered, the holding frame lies on the edge of the container.
• Figure 8 shows a trap and trunk in cross-section in the transfer position.
• FIG. 9 shows a corresponding catch box in cross section in the working position,
• Figure 10 shows the same catch box in the eject position.
• Figure 11 shows a schematic representation in side view of a cable cutting and fixing device.
• Figure 12 is a top view of a cable cutting and securing device.
• Figure 13 shows in detail the cable clamps in the closed position in the top view and
• FIG. 14, like FIG. 12, shows in detail the fixing devices in the working position.

In Figure 1, a cable laying and pressing device is shown in side view. This device consists of a frame 1 with two press devices 2 and 3. Each press device consists of a press ram 4, 4 'on a piston rod 5, 5' and a pneumatic drive 6, 6 '. The cable material runs via a swiveling trunk 7 into a container 8 which is carried by a traversing device 9. A weighing table 10 is carried in the traversing device 9 and can be moved vertically independently of the traversing device 9. The weighing table 10 runs thereby on rollers 11 and carries weighing devices 12.

The container 8 and thus the traversing device 9 are shown in FIG. 1 in one end position of the traversing movement, in which the pressing device 2 comes into action and the press ram 4 compresses the cable (not shown) stored in the container 8. The weighing table 10 is in its lower position. The rollers 11 carrying it move on the base plate 13. Because of this lower position of the weighing table 10, the weighing devices 12 do not touch the container 8. The container 8 is rather carried by the transport rollers 14 of the traversing device 9.

The same device is shown in FIG. 2, but the container 8 has left the traversing point according to FIG. 1 and is on the way to the other end point. During this movement of the container and the _C Han winding device 9, the weighing table 10 with its rollers 11 on ramps 15, ascended 15 '. The weighing table was thereby raised and now carries the container 8 with the weighing devices 12. The container 8 no longer touches the transport rollers 14. The weighing devices 12 are preferably load cells which emit an electrical signal proportional to the force to be applied, that in a Switching and control center, not shown, is processed. 3 to 5 show details of the structure of the weighing table in the traversing device. FIG. 3 shows a top view of the traversing device 9 with weighing table 10, FIG. 4 shows a cross section through traversing device 9 and weighing table 10 along plane IV ... IV in FIG. 3 and FIG. 5 shows a cross section along the plane V -.-.- V according to FIG. 4. The transport rollers 14 of the traversing device 9 can be seen in all 3 figures. These transport rollers are held by carriers 16, 16 'and a frame system 17, the transport rollers 14 are driven in the usual way via chain drives. These drives were not shown in the figures. The traversing movement of the traversing device 9 takes place with the aid of a drive (not shown), the traversing device 9 being moved on rollers 18 which are guided in a rail system 19, 19 '. With the traversing device 9, a weighing table 10 is carried, which has the shape of a frame and is supported on the base plate 13 via rollers 11. The weighing table 10 only touches the surrounding frame 17 of the traversing device 9 at four points. These contact points are designed to be particularly movable by using ball bearings 22. These ball bearings, in contact with corresponding guides 21 in the frame system 17 of the traversing device 9, ensure that the weighing table the oscillating movement of Changiervorrichtun ^g 9 can follow the height of the weighing table 10, however, can set independently of the traversing device. 9

In FIGS. 3 to 5, the weighing table 10 carries three weighing devices 12, under each of which the rollers 11 for the weighing table are located. The height of the weighing table and thus also the load cells 12 is determined by whether the rollers 11 are on the base plate 13 at normal height or on the ramps 15, 15 '. In Figures 3 to 5, the weighing table with its rollers 11 is currently on the ramps 15, 15 '. For this reason, the weighing devices 12 protrude beyond the height of the transport rollers 14. A container would only be from the weighing devices in this position of the weighing table. 12 to be worn.

In Figures 3 to 5 two further transport rollers are indicated. They bear the numbers 23 and 24 and are part of transport devices for transporting the empty containers. in the depositing and pressing device and the filled container out of this device. The loading and removal of containers is advantageously carried out in an end position of the traversing movement. This ensures that damage to the weighing devices 12 cannot occur during the transport of the containers.

Figures 6 and 7 show cross sections of the container 8 and the traversing device 9 with transport rollers 14 and carriers 16, 16 '. Pneumatic drives 26, 26 'are arranged on these supports 16 and 16' via small platforms 25, 25 ', which support a holding frame 28 via piston rods 27, 27'. The system of pneumatic drives 26, 26 'with the associated piston rods 27, 27' is also referred to as support devices 29 in the application. The actual holding frame 28 consists of the frame rods 30, 30 'and 31, 31'. Two clamping devices 32, 32 'are shown on this holding frame 28. Figure 6 shows the position of the support devices 29 when the container 8 is transported into or out of the depositing device by means of the transport roller systems 14 and 23 or 24 (not shown). As soon as the container 8 has reached its position in the storage and pressing device, the support device 29 can be retracted. Under these conditions, the holding frame 28 is placed on the edge 33 of the container 8. With the help of the clamping devices 32, 32 ', clamping rails 34, 34' are pressed against the edge 33 with the aid of eccentrics 35, 35 '. Under these conditions, a box-shaped bag 36 made of e.g. B. packaging film so be held on the edge 33 of the container 8 that even when lowering the ram 4 or 4 'the box-shaped bag 36 cannot be moved in the container 8.

From Figure 7 it can be seen that the holding frame 28 has no connection to the support devices 29 in the working position. During weighing, the weight of the holding frame 28 is included in the tare determination. The actuation of the clamping devices 32, 32 'via the eccentrics 35, 35' is accomplished with the aid of movement devices, which are not shown. The holding frame also has the task of the catch box e.g. to wear according to Figures 8 to 10.

A possible construction of the catch box is shown in FIGS. 8, 9 and 10, which each show cross sections of this catch box in different working positions. The catch box consists of a housing 37 which is connected to a Winkulträger 39 via a hinge 38. This angle bracket 39 is in turn connected to a fastening device 41 via a hinge 40. This fastening device 41 provides the connection to the frame rod 30 of the holding frame. Furthermore, the catch box has a cover 42 which is connected to the housing 37 via a hinge 43. 8 to 10 include 3 movement devices which can be actuated pneumatically via connections (not shown). The actuator 44 serves to open and close the cover 42. For this reason, the piston rod is connected via a bearing 45 to the lever 46, which in turn is firmly connected to the cover 42. When the piston rod of the actuator 44 is retracted, the cover 42 is opened. The lid can be seen in the open position in FIGS. 8 and 10. Another actuator 47 enables the angle bracket 39 to be pivoted about the hinge 40. The piston rod of the actuator 47 acts on a lever 48 which is fixedly connected to the angle bracket 39. In 8 and 10 this actuator is extended, the angle bracket 39 is thereby inclined in the room, while in FIG. 9 the drive 47 is inserted, the angle bracket 39 is vertical in the room.

Another actuator 49 acts between the angle bracket 39 and the housing 37. When this actuator is actuated, it is possible to pivot the housing 37 in a wide arc around the hinge 38, as was shown in FIG.

The so-called transfer or catching position of the collecting container is shown in FIG. By actuating the actuator 47, the catch container stands at an angle in the room in the direction of the pivotable trunk 7. The cover 42 of the catch container is open. The swivel trunk 7, which also has a movable apron 50, which is movably mounted in two 51 and is connected to a spring 52, is also in the transfer position. If a beginning of the cable runs into the catch box through the trunk 7, measuring devices (not shown), for example light barriers, cause this

the trunk 7 is pivoted back and the lid 42 is closed. The cable start is locked in the housing 37 by these measures. In order to avoid unwanted contact or the obstruction of the proboscis during its depositing process, the catch box must be moved back into its vertical position by actuating the actuator 47. The catch box remains in this working position during the entire laying process. After the container 8 has been completely filled, the beginning of the cable must be placed on top of the deposited cable material. This is done by simultaneous actuation of the actuators 44, 47 and 49. As a result, the lid 42 and the container 37 quickly open at an angle and pour the released cable start onto the deposited cable material in the container.

Care must be taken to ensure that when the cable start is dropped into the filled container 8, this cable start does not come to rest next to the container or over the edge 33 of the container 8. For this reason, it is advantageous not only to have the trunk 7 according to FIGS. 1 and 2 swing back and forth in a plane between the punches 4, 4 ', but also in a second plane which is directed towards the press punch 4 is moved. Such a pivoting of the trunk 7 is easily possible by attaching a suitable additional hinge and corresponding movement devices. Such an inclination of the proboscis means that the catch box is no longer attached to a corner of the container 8 on a frame rod 30 or 30 'of the holding frame 28, but correspondingly in accordance with the displacement of the proboscis in a second direction towards the pre-stamp 4 is offset and attached to the edge or on the holding frame 28. This measure can ensure that the beginning of the cable is thrown out of the collecting box onto the deposited material and not over the edge of the container 8.

The spring-mounted apron 50 of the trunk 7 has the task of ensuring that the cable is deposited in the container 8 as uniformly as possible. At the same time, it serves as a seal when the cable start is transferred from the trunk to the collecting container.

An automatic cable cutting and fixing device is shown schematically in FIGS. 11 to 14. Such a cutting device is to be arranged in front of the pivotable trunk 7. The cable 58 made of crimped filaments is generally delivered on a conveyor belt 53 and passes through the openings of the clamping device 54. As from the side view of FIG. 11 and the opening 12, the clamping device 54 consists of fixed metal parts 55 which have a V-shaped opening and correspondingly shaped movable metal parts 56 which also have a V-shaped cutout. The movable parts 56 can be moved in the direction of the fixed metal parts 55 via a movement device 57. The cable 58, which comes from the conveyor belt 53, runs through the V-shaped openings of the parts 55 and 56 into the trunk 7 (not shown here). If the feed of the cable is stopped, the cable 58 can be clamped in the V-shaped cutouts of the metal parts 55 and 56 when the movement device 57 is actuated. From Figure 11 it can be seen that there are four clamping points. In addition, cable supports 59 are also attached to the movable metal parts 56 and have approximately the same shape on the inside as the parts 56. FIG. 13 shows the compressed state of the cable 58 in a top view.

The cable 58 can be severed with the aid of a rotating knife 60, which can be moved in the direction of the cable 58 via a movement device 61. The supports 59 ensure that the cable of the action of the rotating knife 60 can not suffice.

To fix the individual filaments of the cable ends produced, a wrap with a yarn or an adhesive tape or the like is also necessary. FIGS. 11, 12 and 14 show such fixing devices which use two adhesive tapes in each case to fix the individual filaments. It can be seen from FIG. 11 1 that two of these fixing devices are necessary in order to fix the cable ends that arise or have arisen. In particular, such a fixing device 62 or 62 'consists of two adhesive tapes 63/63 ", 63' / 63"'which can be unwound from corresponding supply rolls 64/64 ", 64' / 64"'. The adhesive tapes 63/63 ", 63 '63"' are glued together at points 65, 65 '. After the clamping device 54 has been moved together, the fixing devices 62, 62 'can be moved in the direction of the clamped cable by actuating an actuator 66. The cable 58 or, the cable ends are encased by the adhesive tapes 63/63 ", 63 '/ b3"' and upon actuation of the actuators 67,67 'by moving the scissor-shaped parts 68 / 69,68' / 69 'on the compressed cables pressed on and cut through. The parts 68, 68 'show a deformation which corresponds to the final cable, in the case of the corresponding parts 69, 69' this piece is spring-mounted. When the actuators 67, 67 'move apart, the adhesive tapes are first pressed onto one another and onto the cable, and only when the actuators 67, 67' continue to operate with the aid of the knives 70; 70 'severed. As a result of this measure, each cable end is surrounded by adhesive tapes which ensure that the individual filaments of the cable ends cannot become independent. After release of the clamping device 54, one end of the cable will fall through the trunk into the already filled container 8, while the upper end of the cable remains in the device when the conveyor belt 53 is stationary, but springs back due to the reduced tension. It is therefore possible to pull the fixing device past the cable band by actuating the actuator 66. The separated adhesive tapes show new locations 65, 65 'at which they are connected to one another. The cable, which initially remains in the cutting and fixing device when the conveyor belt 53 is at a standstill, can then, after the filled container 8 has been removed and replaced, replaced by an empty one via the trunk 7 into the catching device. This cable end then represents the beginning of the cable for the next filing process. It is advisable to use, for example, differently marked or labeled adhesive tapes to identify the different cable ends. It is thus possible in a simple manner to clearly define the cable end and cable start in each container.

Of course, a large number of switching elements and the like, which are connected to a control center, are necessary for automatic operation. In the context of the explanation of the device according to the invention, however, this was largely dispensed with in order not to endanger the comprehensibility of the description and also the comprehensibility of the figures. The individual work steps are of course to be monitored by light barriers, limit switches and the like and in a control center it is to be ensured that a predetermined sequence of the individual work steps is guaranteed.

Claims (9)

1. A method for depositing and pressing endless fiber cables, in which the cable is placed in a container in a zigzag manner using a proboscis, the container is moved transversely to the pivoting plane of the proboscis using a traversing device, and the deposited cable is in each case at the end points of the traversing movement of the action is exposed to press rams, characterized in that the individual work steps run automatically and, after inserting an empty container into the device, the beginning of the cable transferred to a catch box on the container and held there, the container is carried by an extendable weighing table with every traversing movement between the end points and weighed by suitable weighing devices, the further inflow of the cable is stopped when a predetermined cable weight is reached, the cable is held in front of the trunk, preferably with the aid of a cutting and fixing device, cut through and the individual filaments of the cable ends obtained are fixed and optionally marked, and the end of the cable belonging to the deposited cable and the beginning of the cable are put into the filled container from the collecting box and finally the filled container is removed from the storage device. 2. The method according to claim 1, characterized in that the extension of the weighing table in the traversing device is carried out by moving the weighing table guided on wheels via ramps. 3. The method according to claims 1 or 2, characterized in that the trunk moves in a second plane can be, which is closer to a press ram than the first level and that in this second level the handover of the cable start in the catch box and the storage of the cable end. 4. The method according to any one of the preceding claims, characterized in that a holding frame is first lowered onto the edge of the empty container, which carries the catch box and optionally clamping devices for fixing packaging material and only then started with the transfer of the cable start and the filling of the container becomes. 5. Cable depositor for storing and pressing fiber cables in transportable containers, in which a traversing device can move a transportable container between 2 end positions, with 2 press rams, which in the end positions can compress the goods deposited in the container, a swiveling trunk between the press rams for the supply of the cable and devices for transporting the containers in and out, characterized in that the cable storage device has the following devices in addition to known devices which are necessary for the automatic execution of the operation: a) a weighing table with weighing devices which is located in the traversing device and which follows the movements of this device in the traversing direction, but can be moved independently of it perpendicularly thereto, b) .a holding frame which can be carried by a supporting device and by the container rim and c) a catch box with movement devices, which is movably mounted on the holding frame, one has a closable lid and can be brought to the container and proboscis by movement devices in various positions, and d) preferably an automatically working cable cutting and fixing device in front of the trunk, which has clamping devices for multiple clamping of the cable, as well as a movable cable cutting device and two fixing devices for the individual filaments of the cable ends produced, with which the cable ends can be wrapped or taped around. 6. Cable tray according to claim 5, characterized in that the weighing table in the traversing device runs on rollers which are guided in the traversing movement outside the end points via ramps, whereby the weighing devices on the weighing table in the traversing movement from the plane of the supporting elements of the Traversing device are lifted out and can carry a container on the traversing device alone. 7. A cable tray according to claims 5 or 6, characterized in that the holding frame has at least on two opposite sides of clamping devices that can hold packaging material, preferably a box-shaped sack made of packaging material, on the edge of the container. 8. Cable storage device according to claims 5 to 7, characterized in that the catch box consists of a housing which is movably connected to an angular frame and this in turn is movably connected to a holder on the holding frame and the movement devices allow the following positions of the catch box. a) Working position: vertical position of the housing at the edge of the box with the lid closed b) Catch or transfer position: Oblique position of the housing and angle frame towards the trunk with the lid open c) Ejection position: housing with open cover and opening downwards when the angle frame is inclined towards the trunk. 9. Cable holder according to claims 5 to 8, characterized in that the cable cutting and fixing device has a rotating cable knife, and 2 fixing devices, which are arranged above and below the cable knife and each have 2 roles for tapes or the like, and a movement device , which can move the fixing devices in the direction of the pinched cable, as well as additional pressing and separating devices for the adhesive tapes.

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