TITLE: "Apparatus for the stabilizing heat treatment of plastic strips, for example of polypropylene and/or of polyethylene, for the production of straps or of other types of strips"
DESCRIPTION Apparatuses for the production of straps, raffia or other types of tapes or strips, usually of polypropylene and/or of polyethylene, hereinafter called "strips" for simplicity, are at present characterized by a considerable length, with stabilization apparatus sometimes as long as fifteen metres, and therefore are very unwieldy, very expensive and difficult to operate, especially when wanting to change from one type of product to another, for example from raffia to straps or to other types of strips.
The invention aims to overcome these limitations of the prior art, with an apparatus as in the appended claims, having great versatility of application, and being very easy to operate, and with very compact dimensions with respect to length relative to the apparatus of the known type and therefore of lower cost, the characteristics and advantages of which will become clear from the following description of a preferred embodiment, provided purely as a non-limiting example, in the single attached sheet of drawings, where the single diagram shows a schematic side view of stabilization apparatus according to the invention. In the attached single Figure, N indicates one of the strips of plastic material placed side by side, after stretching using any apparatus of a known type, whereas A and A' indicate the means with motorized pulling rollers on which the said strips are returned so that they can be fed with the correct tension through an interposed oven B where said strips are heated to the temperature required for the stabilization process which comprises removing, from said strips, the gradient of elastic memory that they acquired in the preceding stretching stage, whereas the strips themselves are maintained longitudinally at the correct tension, yet are free to retract and are made to advance by the pulling groups A and A', with the downstream group A' running at a suitably lower speed than the upstream group A. The pulling groups A and A' can be of any known type or preferably are of the type shown in the drawings and protected by a separate patent application in the name of the same applicant, characterized by
a compact design and an ample linear surface of contact with the strips N. In these groups, the intermediate roller that is positioned at the vertex of the hypothetical triangle, for example the bottom roller 1 , has a diameter greater than the sum of the diameters of the other two upper rollers 2, 2' which are advantageously of identical diameter, so that the overall dimensions of the entire pulling group correspond substantially to the diameter of the larger roller 1. Good results were obtained for example using a middle roller 1 approx. 650 mm in diameter and end rollers 2, 2' approx. 240 mm in diameter. The overall dimension of each pulling group A, A', is thus only 650 mm and the surface of linear contact with the strips of said groups A, A', bearing in mind that the useful surface of contact of the middle roller 1 is about 3A of the total circumference of said roller, is approx. 2300 mm, as against 1500 mm in the prior art. Rollers 1 , 2, 2' of groups A and A' are driven by electric motors with torque control, the side surface of said rollers can be chromium-plated or coated with ceramic, and some of the rollers, especially those of larger diameter 1 , can be temperature-controlled by means of forced circulation of a heating fluid, for example for the downstream group A, and of a cooling fluid for the upstream group A', by conventional means. Rollers 2, 2' are assisted by moving pressure rollers 102, 102' with a working surface of Vulcolan or some other suitable material, driven by respective servomechanisms, to keep strips N properly directed onto the pulling rollers in question.
Between the first pulling group A and the stabilization oven B, when the apparatus is set up for the production of straps, a continuous embossing unit G is provided, which will not be considered here as it is of a known type. Between the stabilization oven B and the downstream pulling group A', a drying device D is provided, typically extending vertically, to be discussed in more detail later, which provides drying of the strips before they reach pulling group A' and are fed from the latter to the downstream winding machines, not shown. The strips N leaving the embossing device G enter oven B through an entrance door 3 positioned at one end of said oven and, after the stabilization treatment, exit from this same end of the oven, through an exit door 4 positioned under door 3. After running back onto a roller 5 positioned by
the exit door 4, idling or motorized with torque-control means, the strips follow a descending path and are taken up in zigzag fashion on four rollers 6, 106, 206, 306 positioned by the ends of a horizontal chamber 7 positioned under oven B and along it, and in which a cooling fluid circulates, for example water, conditioned by suitable means for cooling and temperature control, not shown. On leaving the last roller 306 of cooling tank 7, strips N enter the drying device D where they are dried at least in the first ascending path by drying means 8 of a known type, so that the water residues flow down by gravity into tank 7 underneath. On leaving the drying means 8, the strips are sent on a descending path by means of rollers 9, 109 and go from the last of these rollers to the first roller of the downstream pulling group A'.
The overall length of the apparatus as shown in the drawings is about 5800-6000 mm and its height is about 2000 mm. The stabilization oven B has a length of about 3000 mm, so in the cooling tank underneath, the strips N passing over the four rollers 6, 106, 206 and 306, cover a total path of about 9 metres, which is more than sufficient for cooling them. It is clear that, owing to the positioning of cooling tank 7 underneath the stabilization oven B, the overall length of the apparatus can be kept compact as just mentioned.
The entrance door 3 and exit door for strips N into and out of oven B are provided with suitable seals of a known type, not shown, for example based on Teflon and/or other suitable materials, so as to limit communication of the internal treatment chamber 10 of said oven with the exterior, with said oven being suitably insulated to prevent heat loss. At least three rollers are arranged transversely at the end of treatment chamber 10; one of these rollers 1 1 1 is positioned at the end with doors 3 and 4, in a space between said doors, whereas the other two rollers 1 1 , 21 1 are positioned at the end of chamber 10, so that in this chamber the strips have to cover a total path of about 10-11 metres. Rollers 11 , 1 11 , 211 are suitably motorized so as to provide feed of the strips and to allow them the necessary freedom of retraction following the heat treatment that they undergo, said retraction being on average of the order of 10% of their original length. An opening 12 is provided in the initial, top part of treatment chamber 10 and is
abutted to the suction point of a fan 13 for example of the centrifugal type, with suitable characteristics, driven by an electric motor 1 13 located outside of the insulated structure of the oven. The delivery of fan 13 is abutted to a duct or channel
14 provided in the top of the oven, suitably insulated from the exterior, which runs along the entire length of the oven and, in the end portion, through a heating source
15 under electronic control, for example formed from batteries of shielded electric heating resistances, of identical characteristics, for example U-shaped, with external fins and positioned transversely and with correct inclination in said channel 14. At least one heat sensor 1 15 is provided downstream from the heating source 15 and is connected to known means for regulating and controlling the operation of said source 15, so as to maintain the temperature value in treatment chamber 10 necessary for the process for stabilization of the strips N. Where it leaves the heating source 15, channel 14 continues with a descending portion 1 14, suitably insulated from the exterior, which opens on the inner, rear wall of chamber 10 with three mouths, of which the middle one 16 discharges into the space between rollers 1 1 , 21 1 , whereas the other two mouths 1 16, 216 discharge above the top roller 1 1 and below the bottom roller 21 1 respectively, so as to distribute the hot air uniformly in chamber 10, so that the four paths that the strips follow as they travel between rollers 1 1 , 11 1 and 21 1 are affected uniformly. On the wall opposite the blowing nozzles 16, 1 16 and 216, the hot air is collected by fan 13 and is circulated through the heating unit 15. Of course, for greater uniformity of the treatment temperature it is possible to provide, corresponding to the wall of the oven that is provided with the doors 3 and 4, an opening opposite opening 12, also on the lower portion of the treatment chamber 10, connected to a corresponding fan identical to fan 13, and which then channels the air into the upper duct 14 or into its own lower duct, with a corresponding heat source identical to source 15 and which discharges at the lower end of duct 1 14, the whole in a manner that will be understood and can be carried out easily by a person skilled in the art. Oven B will be provided on one side with a hinged flap 17, for example with bottom hinges 18, and provided on the other side or distributed on the entire periphery, with
suitable sealed closing means 19, so that on opening said flap it would be possible to have access to all the internal components of the oven, for all the operations of starting, stopping and maintenance.