FI110639B - Method for measuring paper properties and measuring device - Google Patents

Description

110639

METHOD FOR MEASURING PAPER PROPERTIES AND MEASURING DEVICE

The invention relates to a method for measuring the properties of paper, which method comprises fitting an active measuring sensor against a moving paper web and introducing a medium between the active measuring sensor and the paper web.

A further object of the invention is a measuring device for measuring the properties of paper which is an active measuring sensor and is arranged against a moving paper web and which has means for guiding the medium between it and the paper web.

WO 96/35112 discloses a measuring device with an asymmetrically arranged hole for blowing air between the measuring device and the paper. In the vicinity of the hole, there is a ring channel, which is connected to 15 discharge channels. Air is blown into the discharge channel by other means so as to provide an ejector effect and thus a vacuum at the annular channel. It is extremely difficult to properly match the overpressure and the annular pressure of the annular passage to the hole and thus stabilize the gauge. Further, the solution is also very complex in structure and flow resistors can easily cause the vacuum to fail. The device is difficult to manufacture and, for example, the discharge channel can absorb dust, which makes maintenance of the device extremely difficult.

U.S. Patent 5,457,539 discloses a solution in which the distance between the reference piece and the web is kept constant by blowing air between the reference piece and the web through an annular nozzle. Further, it is disclosed in this publication that air is blown between the active gauge sensor and the web to provide air lubrication. Thereby, the distance between the active gauge sensor and the web varies, and it is attempted to compensate for the gauge distance 30 by measuring the distance between the probes and calculating on this basis the effect caused by the variation in the gap between the active gauge sensor and the web. These measurements and calculations make the solution complicated and thus expensive. Still, even with these, the measurement is not completely accurate, but it is always an approximation.

It is an object of the present invention to provide a method and a 110639 2 measuring device where the above drawbacks can be avoided.

The method according to the invention is characterized in that the medium is introduced between the active measuring sensor and the paper web at such a high speed that a negative pressure is created between the measuring sensor and the paper web, by which the distance between the active measuring sensor and the paper web is unchanged.

Further, the measuring device according to the invention is characterized in that the means for conveying the medium are arranged to introduce the medium between the measuring device and the paper web at such a high speed that a medium pressure creates a vacuum between the measuring device and the paper web.

An essential idea of the invention is that the medium is introduced between the active measuring sensor and the paper web at such a high speed that the flow of the medium causes a negative pressure so that the distance of the measuring sensor from the paper web is kept substantially constant. The idea of a preferred embodiment is that the medium is guided from the nozzle to the edges of the measuring hole in the plate, the nozzle comprising: a slot and a curved guide surface on the plate such that the curved guide surface: 20 rotates the medium to flow between the sensor.

: An advantage of the invention is that the active measuring sensor and the paper web. · The interval is maintained substantially unchanged and thus the measurement! . 'the accuracy is very good and the variation in accuracy is substantial; ; deleted. Further, the measuring device at the same time stabilizes the paper web by reducing its fluttering movement. Still, the structure is made very simple and reliable.

In the context of this application, the term "paper" includes not only paper but also paperboard and tissue paper. Further, the term active measuring sensor refers to a measuring device that is active in the sense of measurement, i.e. wherein: 30 is a transmitter for producing a measuring beam or a receiver for receiving a measuring beam, or both.

The invention will be explained in more detail in the accompanying drawings, in which Figure 1 schematically shows a side view of a measuring device according to the invention, Figure 2 shows a part of the measuring device according to Figure 1 and 3 cross-sectional view, Figure 3 viewed from the direction of the paper web, Figure 4 shows a pressure pattern caused by the measuring device of Figure 2, and Figure 5 schematically shows a part of another measuring device according to the invention, viewed from the direction of the paper web.

Fig. 1 shows a measuring device 1 mounted on a measuring beam 2 above the paper web 3. The measuring device 1 can be fitted to the measuring beam 2 so that it can be moved back and forth in a direction transverse to the running direction A of the paper web 3 in a manner known per se.

The measuring device 1 is an active measuring sensor and includes a transmitter 4 for producing a measuring beam 5 and a receiver 6 for receiving a measuring beam 5. In the case of Figure 1, the transmitter 4 and the receiver 6 are disposed on the same side of the paper web 15, so that the measurement is done by reflection measurement. Reflection measurement is used, for example, in gloss and smoothness meters and can be used, for example, in moisture measurement. Particularly in the reflection measurement, the measurement accuracy is very good by stabilizing the paper web 3 with respect to the measuring device 1 according to the invention.

Figure 2 shows a part of the measuring device 1. The measuring device 1 comprises: 'a body 7 to which a plate 8 consisting of a bottom plate 8b and a top plate 8c is fixed. For example, a gauge 9 is attached to the plate 8, for example a sapphire or quartz glass gauge 9. The gauge 8 further has a gauge opening 10 for guiding the gauge radius.

The measuring device 1 further has air supply ducts 11 through which a medium such as gas, most preferably air, is supplied. The medium is led from the supply channel 11 to the flow channel 12. From the flow channel 12, the medium is led through the nozzle 14 from the edges of the measuring opening 10 between the paper web 3 and the sheet 8. The nozzle 14 consists of a slot 15 and a curved guide surface 8a formed on the plate 8, i.e. it is a kind of Coanda nozzle. The media is then discharged through the slit 15 towards the paper web and the curved guide surface 8a located in the immediate vicinity of the slit reverses the media flow into the paper. 'Between the rib web 3 and the plate 8. Thus, the medium flows according to the arrows B shown in Fig. 2. The medium pressure, and thus its flow rate, is adjusted so that the medium flow between the measuring device 1 and the paper web 110639 4 creates a vacuum which pulls the paper web 3 towards the measuring device 1. The vacuum holds the paper web 3 and the measuring device 1 as close to each other as possible. On the other hand, the flow of medium between the measuring device 1 and the paper web 3 prevents them from touching each other, whereby the surface of the paper web 3 is not scratched.

5, the distance between the measuring device 1 and the paper web 3 remains substantially unchanged.

The medium is introduced at the opposite edges of the metering opening 10, but the medium 1 can be fed to the measuring device 1 along a single supply channel, whereby the flow of the medium is divided into different supply channels 11, e.g. Preferably, the inlet passage 11 is made at least as large as its portion adjacent to the flow passage 12 so as to act as a pressure equalizing chamber such that the passage 12 has a substantially equal pressure across the width of the orifice slot 15 stable relationship with each other.

Figure 3 is a view of the plate 8 from the direction of the paper web. The paper web travels in the direction of arrow A. Preferably, the measuring opening 10 in the plate 8 is rectangular and the medium is guided along the edges of the measuring opening 10 parallel to the direction of travel of the paper web from the slot 15 in the space shown in the arrows B. Such a geometrical structure and: adjustment of the flow directions provides a very good stabilization of the measuring device with respect to the paper web 3: '·.

Figure 4 shows the pressure pattern obtained by the solution of Figure 2. Figure 4 also shows, in broken lines, the structures of the solution of Figure 2. The horizontal axis of Figure 4 illustrates the level of normal air pressure. In the center of the orifice 10, the pressure exerted by the fluid being introduced is greater than normal atmospheric pressure. However, in the solution according to the invention, the increase in the flow rate of the medium causes a vacuum at the plate 8 starting from the edge of the measuring opening 10. This vacuum must be of a magnitude such that the force exerted by it is greater than the force exerted by the overpressure at the metering opening 10.

Figure 5 shows a plate 8 of another measuring device according to the invention, viewed from the direction of the paper web. In this solution, the measuring aperture 10 is circular, with the device having the desired structure. · ·: 35 songs symmetrical and simple.

5 110639

The drawings and the description related thereto are intended only to illustrate the idea of the invention. The details of the invention may vary within the scope of the claims. Thus, the solution according to the invention can be used in principle in connection with a measuring device for measuring any paper property, but the invention is particularly suitable for use with gloss and smoothness measuring devices. The shape of the measuring opening may also be other than a rectangle or a circle, for example any polygon. The gauge may be positioned at a desired position on the paper machine and on a desired side relative to the paper web being measured, or on both sides of the paper web.

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Claims (24)

A method for measuring the properties of a paper, in which method an active measuring transducer is arranged against a moving paper web (3) and a medium is passed between the active measuring transducer and the paper web (3), characterized in that the medium is passed between the the active measuring transducer and the paper web (3) at such a high rate that a negative pressure is formed between the measuring transducer and the paper web (3) by the influence of the media flow, by which the distance between the active measuring transducer and the paper web (3) can be kept substantially unchanged. . Method according to claim 1, characterized in that the measuring sensor comprises a disc (8) having a measuring opening (10), the medium being passed between the measuring sensor and the paper web (3) from a nozzle (14) along the edges of the measuring opening (10). 15 Method according to claim 2, characterized in that the nozzle (14) comprises a slot (15) and a curved guide surface (8a) formed in the disc (8) for reversing the media flow to flow between the measuring sensor and the paper web (3). Method according to claim 2 or 3, characterized in that the measuring opening (10) is rectangular. The method according to claim 4, characterized in that the medium! measure along the edges of the measuring opening (10) in the direction of travel of the paper web (3) (A). V Method according to claim 2 or 3, characterized in that; The measuring aperture (10) is in the shape of a circle. Method according to any of the preceding claims, characterized in that the medium is measured between the active measuring transducer and the paper web (3) via the measuring opening (10) from the flow channel (12), to which,. the medium is measured by the feed channel (11) and that in the vicinity of the flow channel (12) there is a pressure equalizing chamber, so that in the flow channel:. (12) in the vicinity of the measuring opening (10) a substantially equal pressure over the entire width of the nozzle gap. Method according to claim 7, characterized in that the feed duct (11) is at least on the portion in the vicinity of the flow duct 35 (12) so wide that it acts as a pressure equalizing chamber. 10 110639 9. A process according to any of the preceding claims, characterized in that the medium is a gaseous medium, preferably air. 10. A method according to any of the preceding claims, characterized in that the moisture content of the paper is measured with the active measuring sensor. 5 Method according to any of the preceding claims, characterized in that the active measuring transducer is a measuring device (1), which on the same side of the paper web (3) has a transmitter (4) for generating a measuring beam (5). and a receiver (6) for receiving the measuring beam (5). Method according to claim 11, characterized in that the gloss or smoothness of the paper is measured with the active measuring sensor. 13. Measuring device for measuring the properties of a paper, which measuring device is an active measuring transducer and arranged against a movable paper web and which measuring device has means for conducting a medium between it and the paper web (3), characterized by the means for conducting the medium is arranged to conduct the medium between the measuring device (1) and the paper web (3) at such a high rate that a negative pressure is formed between the measuring device (1) and the paper web (3) by the influence of the media flow, by means of which the distance between the measuring device (1) ) and the paper web (3) can be poured substantially undamaged. ·. 20 changed. Measuring device according to claim 13, characterized in that the measuring device comprises a disk (8) with a measuring opening (10), the medium :: being arranged to be guided between the measuring device (1) and the paper web (3) from a nozzle (14) along the measuring opening. (10) edges. '·' · 25 Measuring device according to claim 14, characterized in that the nozzle (14) comprises a slot (15) and a curved guide surface (8a) formed in the disc (8) for reversing the media flow to flow between the measuring device (1) and the paper web (3). . Measuring device according to claim 14 or 15, characterized in that the measuring opening (10) is rectangular. The measuring device according to claim 16, characterized in that the media is arranged to measure along the edges of the measuring opening (10) in the direction of travel of the paper web (3) (A). Measuring device according to claim 14 or 15, characterized in that the measuring opening (10) is in the form of a circle. n 110639 Measuring device according to any one of claims 13 - 18, characterized in that the measuring device comprises a measuring opening (10) and a flow channel (12) arranged to feed the medium between the measuring device (1) and the paper web (3) via the measuring opening ( 10) and a supply channel (11), which is arranged to feed the medium to the flow channel (12), and that in the vicinity of the flow channel (12) there is a pressure equalizing chamber, so that in the flow channel (12) in the vicinity of the measuring opening (10) a substantially equal pressure rises over the entire width of the nozzle gap. The measuring device according to claim 19, characterized in that the feed duct (11) is at least on the portion in the vicinity of the flow duct (12) so wide that it acts as a pressure equalizing chamber. 21. A measuring device according to any one of claims 13-20, characterized in that the medium is a gaseous medium, preferably air. 22. Measuring device according to any of claims 13-21, characterized in that the measuring device (1) is arranged to measure the moisture content of the paper. Measuring device according to any of claims 13-22, characterized in that the measuring device (1) has on the same side of the paper web (3) a transmitter (4) for generating a measuring beam (5) and a receiver (6) for 20 to receive the measuring beam (5). 'J The measuring device according to claim 23, characterized in that the measuring device (1) is arranged to measure the gloss or smoothness of the paper.