FI62384C - SAETT OCH ANORDNING FOR FORMING AV EN MATERIALBANA - Google Patents

Description

@ FINLAND —FINLAND patent publication-patentskrift 62384 ® Kv.lk?lnt.CI.3 D 21 H 5/26 ® ^ (g) Patent application - Patentansökning ΤδΟΟΟ ^ ι @ Hakemisp & iv & —Ansöknlngsdag 22.03.70 @ Start date - Giltlghetsdag 22.03 Has become public - Bllvlt offentlig 26.09.78 © Date of display and publication—

Ansökan utlagd och utl.skrlften publicerad 31.08.82

National Board of Patents and Registration © Patent granted - Patent meddelat 10.12.82

Patent · och reeisterstyrelsen _ _ _ © legally (§) Privilege claimed - Begärd prloritet 25.03 * 77

Sweden-Sweden (SE) 7703 ^ 60-1 (73) Fläkt Aktiebolag, Sickla Alle 1, Nacka, Sweden-Sweden (SE) (72) Lennart Gustavsson, Växjö, Sweden-Sweden (SE) (7M Oy Kolster Ab (5M The present invention is an improvement on Finnish patent application 762312, which describes a method and apparatus for forming a web of material. This method of forming a web of material has proven to be particularly effective and gives good results in terms of the smoothness and quality of the web formed, but in some applications there have been problems with the flow of the material into the feed chamber and the flow of the material into the feed chamber in the form of a fibrous curtain. that this current in the transition phase from the distribution line to the distribution chamber may have formed overspeed points. This has caused irregularities in the formed web of material. It is further known that, for example, in connection with the pneumatic transport of wood fibers, static electricity may have been present in the transported fibers under certain conditions. This is particularly the case for the transport of wood fibers with a moisture content of less than 10%.

This charge interferes with the formation of the web so that the fibers form deposits on the walls. The deposits come off at random and interfere with web formation. In addition, the charge can give an electric field so strong that there is a risk of a spark discharge.

The object of the present invention is to eliminate the disadvantages which may occur in connection with the method and apparatus according to the above-mentioned patent application, so as to obtain a web of material of high uniformity and good quality also in connection with substances previously associated with the problems described above. This object is achieved by a method as set forth in the following claims 1 to 10, and by a device as set forth in the following claims 11 to 17.

The invention will now be described in more detail with reference to the accompanying drawing figures, in which Figure 1 shows a longitudinal section of the transition zone, Figure 2 shows a cross-section of the transition zone, Figure 3 shows ionization rods fitted to a distribution chamber and Figure 4 shows ionization rods fitted to blow boxes.

In Fig. 1, reference numeral 1 denotes a part of a dispensing chamber according to the above-mentioned patent application 762312. The material stream is fed via a distribution line 2 to a mouthpiece 3, which supplies a fiber stream to a distribution chamber 1, where it is acted upon by control jets of gaseous medium coming from the blow boxes 11,12. According to the present invention, a transition zone 90 is arranged between the distribution line 2 and the distribution chamber 1 or the mouthpiece 3 opening therein. The transition zone is arranged so that its cross-section expands in the direction of the fiber flow and in the longitudinal direction of the formed web of material. As shown in Figure 2, the transition zone 90 is further formed into a zigzag-shaped channel 91, so that the flow of fines is deflected several times as it passes through the zone. Each deviation gives a matched resistance so that it is approximately equal to the change in dynamic pressure corresponding to the decrease in velocity. This eliminates the risk that the gas / fines flow will form overspeed points, resulting in a steady velocity profile of the gas / fines flow as it flows out of the mouthpiece 3 and into the distribution chamber 1. During the transition zone, the gas velocity decreases from 10 m / s to .

According to the invention, the transition zone 90 is further lined with wood 92, preferably plywood. This provides an effective reduction in the static electricity of fine particles or fibers. As an example, thanks to this device, experiments have shown that the electric field strength has decreased from 200,000 V / m to about 30,000 V / m. The invention is, of course, not limited to this particular shape of the transition zone, but may also have a different shape, e.g. it may be part of the distribution channel before entering the distribution chamber.

Figures 3 and 4 show in detail a part of a distribution chamber 1 provided with blow boxes 14, 12 for steering current. The mouthpiece 3 opens into the dispensing chamber. According to the invention, ionization rods 93 (Fig. 3) are arranged in the distribution chamber to further reduce static electricity. This is made possible by ionizing rods supplied with an electrical voltage from an AC power source (not shown) ionizing the surrounding gas and thus reducing the residual static electricity of the fibers. In Fig. 4, ionization rods 94 are arranged in blow boxes 11, 12 to ionize the control current of the gaseous medium. This arrangement has the advantage that the ions generated follow the control current and mix efficiently with the fiber stream. Furthermore, the rods inside the blow boxes are protected from mechanical impact and also from dusting. This arrangement also has the advantage that they are also protected from contact with the personnel operating the equipment. Finally, it should be noted that within the scope of the invention, one or more of the arrangements described above may be used together or each separately depending on the particular need for use.

Claims (17)

A method of forming a web of material by lowering a finely divided material stream, e.g., a fiber stream, flowing into a distribution chamber on a landing surface arranged in the distribution chamber, the particulate stream being subjected to at least one side and a gaseous control stream directed against it, the pulse being varied distributed over the width of the landing surface, characterized in that the fine particle stream distributed in the gaseous medium and introduced into the distribution chamber (1) via the distribution line (2) is passed through the transition zone (90) before entering the distribution chamber (1), and the fine material flow is displaced in zone (90) to a zigzag deflection movement as it simultaneously expands in the longitudinal direction of the formed web of material. Method according to Claim 1, characterized in that the gas velocity in the transition zone (90) is reduced to at least half of its initial value. Method according to Claim 1 or 2, characterized in that the static electric charge formed in the components is reduced as the fine material stream passes through the transition zone (90) before it enters the distribution chamber (1) so that the fine material stream passes the material (92) arranged in the transition zone. , which reduces the static electricity of the ingredients. A method according to claim 3, characterized in that the fine material stream bypasses the wood material (92) arranged in the transition zone (90) - e.g. plywood, fibreboard or the like. 4 62384 Method according to one of the preceding claims, characterized in that the static electricity of the components is reduced by exposing them to ionized gas in the distribution chamber (1). Method according to Claim 5, characterized in that the control current of the gaseous medium supplied via the blow boxes (11, 12) is ionized before it enters the distribution chamber (1). 5 62384 Method according to Claim 6, characterized in that the ionization of the control current is effected by ionization rods (94) arranged in the blow boxes (11, 12). Method according to Claim 5, characterized in that the ionization is effected by ionizing the gaseous medium introduced into the distribution chamber (1). Method according to Claim 8, characterized in that the ionization is effected by ionization rods (93) arranged in the distribution chamber (1). Method according to Claim 6 or 9, characterized in that an ion-exchange voltage of 3 to 20 kV is applied to the ionization rods (93, 94). Apparatus for carrying out the method according to claims 1-4, the apparatus comprising a dispensing chamber (1) and a landing surface (5) fitted thereto, a nozzle (3) terminating inside the dispensing chamber for feeding a stream of finely divided material (4), e.g. fibers, means for distributing the inflowing fibers over the width of the landing surface, the distribution means comprising at least a guide gas stream (15, 16) feed member (11, 12) arranged on the other side of the fine material stream, provided with openings (13, 14) or nozzles (20) directed against the fine material flow and connected to a gas source ) provided with means (19) for imparting a variable pulse to the control current (15, 16), characterized in that a transition zone (90) is arranged between the distribution line (2) and the distribution chamber (1), and that the transition zone (90) is made into a zigzag channel (91) having a pointer extending longitudinally towards the distribution chamber (1) and the fibrous web formed kkileikkaus. Device according to Claim 11, characterized in that the parts of the transition zone (90) which come into contact with the fiber stream and are made of a material (92) which reduces the static charge generated in the fine components. Device according to Claim 12, characterized in that the material (92) is made of wood, preferably plywood, fibreboard or the like. • i l 6 62384 Device according to one of Claims 11 to 13, for carrying out the method according to Claims 5 to 10, characterized in that the ionization rods (92, 94) are arranged to reduce the static electricity of the finely divided components in the distribution chamber. Device according to Claim 14, characterized in that the ionization rods (94) are arranged in the blow boxes (11, 12). Device according to Claims 14 and 15, characterized in that the ionization rods (93) are arranged in the distribution chamber (2). Device according to Claims 14 to 16, characterized in that an AC voltage source of 3 to 20 kV is connected to the ionisation rods (93, 94). 7 62384