DE2615258C2 - Device for the floating guidance of material webs - Google Patents

Description

The invention relates to a Vc "direction for floating Guiding of material webs of the type mentioned in the preamble of claim I.

Such a device is known. The blowing directions of the two slits directed towards one another of each nozzle have opposite the common center plane on both sides of the material web arranged nozzles have the same angle of inclination and the same cross-section. With one of those The device built on air cushion nozzles creates an absolutely non-contact levitation of the material web reached, because the pressure cushion of the air cushions, which is due to the approach of the web because of the Slitting, decreasing gaps enlarged, counteracts the contact.

The offset arrangement of the opposing nozzles creates an undulating course Reached material web, which is so favorable for a stable floating position that you normally do not on it want to do without. In addition, the wave-shaped guide has the beneficial side effect of a Goods storage on, the small error in the drive of the material webs before and after the device for offsets floating lead.

Although the angle of inclination of the blowing directions of the two slots or rows of holes of each floating nozzle are often chosen the same compared to the orbit normal, it is also possible to use different Angle to choose. In such so-called air cushion nozzles, it is common that the blown air from the air cushion flows off on both sides through the slots into the outflow channel located between the individual nozzles (OH-AS 12 92 082).

Although such devices meet previous claims for floating guidance of material webs was sufficient, it was found that the floating guide with the same nozzles from nozzle to nozzle is different. It has also been found that the floating properties of such a nozzle vary Changed operation. It has been found that this unpredictable behavior of the nozzles in terms of Floating property can be traced back to the slot width, which can change during operation is.

The invention is based on the object of a device for guiding material webs in a floating manner of the type mentioned in the preamble of claim 1 to improve so that changes the nozzle dimensions do not have any undesirable effects due to temperature or production influences on the web guide or web position.

This object is achieved according to the invention with the characterizing features of claim 1 solved.

The invention is based on the knowledge that the levitation properties depend on the manufacturing accuracy and the changes in the outlet slots can be influenced during operation. These cannot be predetermined Influencing factors are eliminated by the invention. With both measures, with the setting the angle of inclination of the slots as well as with the setting of the cross-sections can be individually or jointly be determined in advance whether the blown air exiting from the slots to form the air cushion is in or flows against the conveying direction. The instability of the outflow direction with the known air cushion nozzles is replaced in the device according to the invention by a stable flow direction. With the invention Device can therefore also be such material webs absolutely contactless, without lateral Promote the path and flutter-free that conventional devices can no longer convey in a floating manner are.

With regard to the levitation good fcjnn the device can be further improved in that the resulting blowing directions on both sides of the material web arranged floating nozzles is rectified. As a rule, this arrangement is cheaper than one arrangement opposing floating nozzles with alternating resulting blowing direction. The preferred arrangement does not exclude, however, that in individual areas of the device according to the invention, for. B. at the inlet or Exit of the web, an alternating arrangement is preferable.

The possible angle of inclination of the blowing direction for the gently sloping blowing direction is an angle of 10 to 30 °, preferably 15 to 20 °, and an angle of 45 to 80 °, preferably 60 °, for the steep blowing direction up to 65 °, proven.

In the following, the invention is explained in more detail with reference to a drawing showing an exemplary embodiment explained. In detail shows

F i g. 1 a floating nozzle in cross section and

F i g. 2 one made up of floating nozzles of the figure) Device for the floating guidance of material webs in a schematic representation and side view.

F i g. I shows a so-called air cushion nozzle. The slots I ₁ 2 and the holes in a perforated plate 3 is supplied via a common blow box 4 with air. The blow jets are directed towards each other. The angle of inclination λ of the blowing direction, 7 is 10 to 30 °, preferably 1 5 to 20 ". During the

The angle of inclination β of the blowing direction b is 45 to 80 °, preferably 60 to 65 ". The exit cross-sections are the same in this case. Instead of different inclination angles *, β , however, different exit cross-sections can also be selected. It is also possible to combine both measures. In In any case, one or both of these measures must ensure that a defined outflow direction for the blowing agent from the area of the air cushion is ensured

The in F i g. The device shown in FIG. 2 consists of lower and upper floating nozzles 5 to 10, which are arranged transversely to the conveying direction of a material web 11 guided in a wave-shaped manner. The undulating course is due to the blow jets and air cushions of the floating nozzles 5 to 10 impinging on the material web 11, of which the upper floating nozzles 8 to 10 are arranged opposite the gaps between the lower floating nozzles 5 to 7. The lower floating nozzles 5 to 7 on the one hand and the upper floating nozzles 8 to 10 on the other side have the same position with regard to the orientation of their blowing directions a, b, i.e. h-, the bias directions a with the flat angle of inclination ä, point in the conveying direction F, while the blowing directions b of the floating nozzles 5 to 10 are opposite to the conveying direction F with a steep angle of inclination β. Due to this arrangement of the opposing floating nozzles 5 / 8.8 / 6.6 / 9.9 / 7.7 / 10, the slots 1 with a flat angle of inclination are adjacent to the slots 2 with a steep angle of inclination β in pairs Since the blowing directions a, b in pairs Adjacent slots 1, 2 do not cross, but point away from one another, it is ensured that also in the area between a lower floating nozzle 5 to 7 and an upper one

■ Floating nozzle 8 to 10, the material web 11 is stretched out.

The outflow of the blown air forming the air cushion takes place in or against the conveying direction F via the slot 1, 2, whose blown air offers the least resistance to the outflowing air. B. with the same cross section of the slots 1, 2 of the slot 2 with the set angle of inclination β and with the same angles of inclination of the slot 1, 2 with the smaller cross section.

1 sheet of drawings

Claims (3)

Patent claims: 1. Device for the floating guiding of material webs with floating nozzles offset above and below the material web plane and arranged transversely to the conveying direction, each having two slots or rows of holes with blowing directions directed towards one another to form air cushions, the angles of inclination of the blowing directions relative to the common center plane of the floating nozzles arranged on both sides of the material web are different, characterized in that the cross-sections of the two slots (1, 2) or rows of holes of each floating nozzle (5-10) are of different sizes; ί and the cross-sections and angles of inclination (α, β) such are coordinated so that the blown air flows out of the air cushion between the two slots (1, 2) or rows of holes only over a certain edge of the floating nozzle (5-10 ) . 2. Apparatus according to claim 1, characterized in that the direction of flow of the blown air flowing out over the edge of each floating nozzle is the same for all floating nozzles (5-10) 3. Apparatus according to claim 1 or 2, characterized in that the angle of inclination (ß) of the blowing direction (b) of the one slot (2) 45 to 80 °, preferably 60 to 65 °, and the angle of inclination (λ) of the blowing direction (a ) of the other slot (1) is 10 to 30 °, preferably 15 to 20 °. jo