CZ304508B6 - Rewind device - Google Patents

Abstract

In the present invention, there is disclosed a rewind device intended particularly for rewinding of a roving from a source bobbin, for example onto working bobbins of looping robots for the manufacture of fibrous composites. The rewind device of the present invention consists of a supporting frame (1) provided with an unwinding motion (2) for mounting a reel-off bobbin (3) and a winding-up motion (13) for mounting a winding-on bobbin (5), whereby the winding-up motion (13) is located on a movable frame (4), slidably mounted on a side guide (6) for side reversible shift of the winding-on bobbin (5) between two side dead centers relative to the reel-off bobbin (3). A camera (7) for scanning the rewound roving (8) is arranged on the movable frame (4) within the space extending between both the bobbins (3, 5) wherein said camera data output is connected with a control unit (9) of both a taking-up drive (10) and a side reversible drive (11) of the winding-on bobbin (5), and a winding-off drive (12) of the reel-off bobbin (3) unwinding motion (2).

Description

BACKGROUND OF THE INVENTION The present invention relates to a rewinding device, in particular for rewinding rovings from source spools to, for example, the working spools of wrapping robots for producing fiber composites.

BACKGROUND OF THE INVENTION

In practice, it is often necessary to rewind a variety of materials from source coils wound in their manufacture into smaller diameter and weight reels to facilitate their further handling, or to special reels that can be fitted to other production machines and equipment, intended for post-treatment of such materials, and the like. An important requirement for quality rewinding is usually the correct and even decomposition of the wound material from the unwinding to the winding reel, the possibility of setting the density of the laying and setting of dead center. For this purpose, a number of types of known winding devices are used, which generally consist of a support frame which is provided with a unwinding spindle or unwinding bed for rotatably supporting the unwinding spool and a winding spindle for rotatably supporting the winding spool, usually driven by an electric motor coiled material, which can then be controlled by a stepper motor and the like. Such a rewinding device is known, for example, from CZ 240721, the object of which is a wire rewinding device intended for use in the electrical industry in particular.

Other types of winding machines of substantially the same principle are also widely used in the textile winding industry, for which purpose they may be provided with additional ancillary devices, such as sensors for reaching a predetermined winding diameter on the winding reel of CZ 258116 or thread tension sensors according to EP 1 656 317.

EP 1 625 091 further discloses a method for winding a continuously fed tape onto a reel, in which the reel is rotated and by means of a return device the strip is moved back and forth over the entire length of the reel at a certain laying angle. Each time the coil diameter is increased by a certain value, the laying ratio, i.e. the ratio between the coil speed and the movement of the return device, is incrementally changed. The return device is provided with an eye-shaped guide through which the coiled tape passes.

However, none of these devices can be used to rewind fine fibrous materials, especially flat rovings made of high-strength fibers, such as glass, aramid or carbon, without the risk of damage to integrity, deformation or other damage These rovings, which may occur, in particular, when the rewound rovings pass through mechanical decomposers or any other also mechanical return devices of its winding to the wound spools, for example the working spools of the aforementioned wrapping robots for the production of fiber composites. It is particularly desirable to reel the bobbins for robots intended for the production of composite reinforcements of more complex shapes and structures consisting of multiple layers of mutually cross-wound rovings, since these robots are provided with wrapping units fitted with whole sets of such bobbins. the smallest possible weight of these coils.

SUMMARY OF THE INVENTION

These drawbacks of the prior art are largely overcome by a winding device, in particular for winding rovings from source spools, for example to the working spools of winding robots for the production of fiber composites, consisting of a supporting frame with a unwinding device for receiving the unwinding spool and a winding device for receiving according to the present invention. The principle of the present invention is that the winding device is mounted on a movable device

GB 304508 Β6 of the frame, slidingly mounted on the lateral guide for reversing the winding spool between two lateral dead centers to the unwinding spool. At the same time, a rewinding roving scanning camera is arranged on the movable frame together with the winding spool in the space between the two spools. The data output of this scanning camera is then connected to the control unit of the winding drive and the side return drive of the winding reel and also the unwinding drive of the unwinding mechanism of the unwinding reel.

The principle of the invention further consists in that the rewinding roving scanning camera is two-line and the winding drive is provided with an IRC sensor.

The advantage of the rewinding device according to the invention is to achieve high-quality rewinding with uniform decomposition of the wound material from the unwinding to the winding spool, the possibility of setting the laying density, setting dead center, laying angle and stiffness of the winding without rewinding material through any mechanical spreaders. Thus, in the case of winding rovings, there is no risk of damage, which in turn leads to their high quality winding in the production of fiber composites.

Clarification of drawings

The invention is further elucidated by means of schematic drawings of a specific embodiment of a rewinding device according to the invention, in which in FIG. 1 this rewinding of the device is shown in plan view and in FIG.

DETAILED DESCRIPTION OF THE INVENTION

The winding device for winding rovings from the source spools to the working spools of the wrapping robots for the production of fiber composites, according to the example shown in FIG. The winding device 2 is formed by two horizontal rollers, which are no longer marked, which are no longer marked, and which are not further marked.

The winding device 13 is disposed on a movable frame 4, which is slidably mounted on a side guide 6 for reversing feed of the winding spool 5 between two lateral dead centers relative to the unwinding spool 3. A two-line rewinding roving camera 7 is arranged on the movable frame 4. 8 in the space between the two coils 3, 5 shown in the enclosed drawing by its field of view. The data output of this scanning camera 7 is connected to the control unit 9 of the take-up drive 10 and the side return drive H of the take-up reel 5, as well as the unwinding drive 12 of the unwinding device 2 of the take-up reel 3.

The individual inputs and outputs of the control unit 9 are indicated by arrows, one of the inputs to the control unit 9 being the input from the winding device 4 with the winding process parameters. The arrows also indicate the lateral return movement of the take-up reel 5 along the guide 6.

During the rewinding of the roving 8, the two-line scanning camera 7 transmits data to the control unit 9 which, based on the given dimensions, the relative position of the two spools 3,5a, determines both the winding angle and the current position of the roving 8 on the winding coil 5. In the control unit 9, it is adjusted so that by means of a suitable side-reversing drive 11 it maintains the selected winding angle as accurately as possible regardless of the position of the roving 8 unwound from the source unwinding spool 3. When the dead center is reached. Since the scanning camera 7 is rigidly coupled to the take-up reel 5 and moves with it by the movable frame 4, the entire system is relative and therefore independent of the absolute position with respect to the support frame 1.

The unwinding drive 12 is controlled in speed feedback, whereby the winding speed is clearly defined. The winding drive JO is then controlled in torque (current) feedback and is related to this tensioning force 8. As a constant tensile (winding) force is required, this torque should be varied depending on the amount of winding material (winding diameter) to The diameter of the winding is calculated from the known winding speed and the rotational speed of the winding coil 5, i.e. by processing the signal of an IRC sensor (not shown here), which is provided with the winding drive 10.

The default basic angle setting resp. the winding density, winding speed, winding stiffness, dead center transition type and the final winding size are, if necessary, carried out by means of a communication unit or PC, not already shown here, and connected to the control unit 9.

In Fig. 2, the lines of the scanning camera 7 are indicated by dotted lines, the zero position of the scanning camera 7 is indicated by dashed lines and the axis of the winding spool 5 is indicated by dashed lines. The dimensions a, b, c, d winding a.

The rewinding device in this particular embodiment makes it possible to rewind the roving source coils of eg 20 kg glass fibers or 12 kg carbon fibers with a length of more than 1500 tex at a speed of up to 0.5 m /with. The maximum winding speed depends on the material used and its behavior, as well as the tensile force. All rewinding parameters are fully under control and can be changed using a higher-level system, ie the above-mentioned communication unit or PC without any mechanical or software intervention.

Industrial applicability

The rewinding device according to the invention can be widely used for rewinding substantially all similar types of materials.

Claims (3)

Rewinding device, in particular intended for winding rovings from source spools, for example, to working spools of wrapping robots for the production of fiber composites, consisting of a support frame (1) with a unwinding device (2) for receiving the unwinding spool (3) and a winding device (13) for storing a take-up reel (5), characterized in that the take-up device (13) is located on a movable frame (4) slidably mounted on a side guide (6) for reciprocating the take-up reel (5) between two lateral dead centers. (3), wherein on the movable frame (4), together with the winding bobbin (5), a rewinding roving (8) scanning camera (7) is arranged in the space between the two bobbins (3, 5), the data output of which is connected to the control unit ( 9) on the one hand a winding drive (10) and a reversible drive (11) of a winding reel (5) and on the other hand a unwinding drive (12) of a unwinding mechanism (2) coil (3). Rewinding device according to claim 1, characterized in that the scanning camera (7) of the rewound roving (8) is two-line. Rewinding device according to the preceding claims 1 and 2, characterized in that the winding drive (10) is provided with an IRC sensor.