DE1018165B - Device for winding tension grids - Google Patents

Description

GERMAN

The invention relates to a device for winding grids.

In the known lattice winding machines, the winding axis and the pitch feed are mechanically coupled by means of a gear backing, pitch mandrel or cam disks in such a way that the pitch feed takes place continuously. The grids with variable gradients are preferably produced with the aid of a cam disk ¹ . In the case of tension grids with extremely thin lattice wires and relatively small gradients, these control means cause inadmissibly large slope errors which, even with the greatest precision of the control means, cannot be narrowed sufficiently. Another disadvantage of the known lattice winding devices is that relatively time-consuming fixtures are necessary when the pitch changes, and new cam disks have to be produced for each winding program. Furthermore, with the known winding devices. Tensioning grids are produced in which the winding wire between the spars runs essentially perpendicular to them, since the advance only takes place in the area in which the winding wire rests on the spars.

The invention is based on the object of providing a device for winding tension grids create, which does not have the disadvantages of the known devices, allows to produce grids with any pitch distribution and in a simpler way Way can be switched from one wrapping program to another. In such a device is, according to the invention with independent control of the feed of the winding wire and the winding axis of the advance of the winding wire at a predetermined position of the The winding axis is switched on and switched off after a certain distance covered by the feed.

On the basis of the figure, in which an embodiment of a device is shown in principle, the invention and further details thereof are explained in more detail below.

On the winding axis 1 driven by a motor 2, a disk 3 with the cams ¹ 4 and 5 is attached. The cams 4 and 5 are arranged in a specific position relative to the lattice frame 6. If the winding axis rotates, the lattice wire 13 is wound onto the lattice frame 6. At the same time, the cam disk 3 rotates in the direction of rotation indicated by the arrow. The cam. 5 closes there, -at the contact 7. By this contact closure, the motor 8 is switched on by switching means not shown in detail. The motor 8 drives the feed spindle 11 via the worm 9 and the worm wheel 10. The feed spindle turns the device for winding tension grids

Applicant:
Siemens & Halske Aktiengesellschaft,

Berlin and Munich,
Munich 2, Witteisbacherplatz 2

Andreas Weissfloch, Munich,
has been named as the inventor

moved through the guide 12 for the grid wire 13. On the feed spindle 11 is also a transport wheel 14 attached, which moves a control strip 15. The tax strip runs from the bobbin 16 and is rewound on the bobbin 17. The drive of the coils 16 and 17 is not shown in detail. The coils 16 and 17 are set up in such a way that they control the control strip, if necessary using a slip clutch. Between the spool 16 and the transport wheel 14, the control strip 15 passes through a pair of contacts 18. In the control strip 15, depending on the feed program z. B. openings are provided which cause the contact 18 to respond and the Motor 8 stops. The engine 8 is expediently equipped with an engine brake so that it can be shut down in a very short time. The feed does not start again until the cam 4 of the Cam disk 3 closes contact 7 again.

Through a common regulation, the speeds of the two motors 2 and 8 can be matched be matched. The reduction between. Motor 8 and feed screw 11 can if necessary divided several times and placed the transport wheel 14 on the axis of an intermediate gear will. Frequent starting and stopping of the engine 8 can be avoided by using the Motor runs continuously and the feed gear with transport wheel 14 via an electromagnetic Coupling engages and disengages intermittently. The decoupled feed gear is advantageously braked by an electromagnetic brake. The controls of the electromagnetic clutch and the

709 757/258

Brakes correspond to those described above. In some cases, the motor 8 can also be used entirely can be omitted and the feed gear to the motor 2, z. B. electromagnetically, coupled and uncoupled will. There is then no need to adjust the speeds of the two motors 2 and 8. Instead of the pair of contacts 18, the strip 15 can also be scanned in a known manner by a photocell. Likewise, a tape can take over the control of the size of the respective feed interval. For series production, it can be expedient to make the belt 15 endless and to manufacture it from metal. The control interval of the belt 15 can be both the same as well as variable as desired Have a distance, so that with tension grids with a uniform or variable pitch without difficulty the greatest accuracy can be produced.

The embodiment shown in the figure can also be modified in other ways. It is only important that the advance of the winding wire with independent control of the feed and the winding axis switched on at a predetermined position · the winding axis and is switched off after a certain distance covered by the feed. The activation of the Feed at a certain position of the winding axis can be known per se to the person skilled in the art any means are done. Likewise, the shutdown of the feed after this one has traveled a certain distance by any means. It is particularly advantageous to have a S expensive strips to be provided, on which, according to the winding program, tax stamps are attached that cause the feed to stop.

Claims (5)

PATENT CLAIMS: 1. A device for winding tension grids, characterized in that when independent from each other Control of the advance of the winding wire and the winding axis of the advance of the winding wire at a predetermined position the winding axis switched on and after a certain covered path of the feed is turned off. 2. Apparatus according to claim 1, characterized in that on the driven, provided with a holder for the tensioning frame winding axis means are provided which ^{turn on the advance 1} thrust at a certain position of the winding axis, in particular via an electrical contact, and on a drive part of the feed, a transport wheel is attached which moves a control strip forward through which the drive of the feed is switched off after a predetermined feed path. 3. Device according to claims 1 and 2, characterized in that feed »and winding movement are synchronized with one another. 4. Device according to claims 1 to 3, characterized in that as a control strip a punched tape is used. 5. Device according to claims 1 to 3, characterized in that a film or tape is used as the control strip. 1 sheet of drawings © 709 757/258