FI73819B - FOERFARANDE FOER STYRNING AV FANERTORKNING. - Google Patents

Description

7381 9

METHOD FOR CONTROLLING THE DRYING OF VENE - FÖRFARANDE FÖR STYRNING AV FANERTORKNING

The present invention relates to a method for controlling the drying of veneer, in which the drying takes place in an imaging device known per se, in which the drying air circulates from the fans to the heat exchangers in the drying space and passes the veneer, collecting the water vapor detached therefrom.

In the plywood industry, plywood veneer is turned from raw wood in veneer lathes, after which the veneer is dried in an imaging device to achieve a suitable moisture content for further processing.

A veneer dryer is usually a relatively large device with veneer conveying lines, in which fans are used to blow heated air into the drying space. The drying efficiency can be adjusted by changing the recirculated air speed, the recirculated air humidity or the veneer pass-through speed in the dryer. Adjustment of these parameters becomes necessary when it is desired to keep the quality of the dried veneer constant or to consciously change the conditions.

Traditionally, veneer quality control is done by hand by sorters who, by palpating the veneer between their fingers, deduce its suitability. Since a veneer that is too wet causes it to be rejected, the drying parameters are adjusted so that the veneer is sure to be dry. The parameters are adjusted manually by experimentation.

The procedure described above has disadvantages. The quality of the veneer suffers too much when it dries, it cracks and squeaks. Excessive drying also consumes energy unnecessarily. Manual adjustment is complicated by the fact that the degree of filling of the dryer is not precisely known, which contributes to the required drying power and which varies from time to time. Manual adjustment also has the disadvantage of long transition periods and large rejection batches when conditions change, for example when changing wood quality, because the parameters are adjusted by experimentation and 2 73819 wait for the conditions of a large device to stabilize before conclusions can be drawn.

Finnish patent publication 58021 discloses a method for measuring the amount of air to be removed by means of a flap by measuring the pressure of the drying air so that the humidity of the drying air remains within certain limits.

However, the humidity of the drying air is only one factor, the humidity of the final product is affected by many other things as well. In addition, the flap must be adjusted manually, automation and remote control are difficult to implement, leaving the benefit to be questioned.

Automatically operating control systems are known, for example, from Finnish patent application 780513, which comprises a method and device for controlling the drying of plywood, in which information about the drying situation is obtained by measuring local heat consumption and humidity, on the basis of which the drying room temperature and plywood flow rate are regulated. Corresponding simple control systems can be found in DE 471 664 and U.S. Pat. No. 2,442,664. What they have in common is that only the individual parameters of the plywood or the drying device are monitored and controlled, in which case no complete drying control is possible.

The object of the present invention is to eliminate the above-mentioned disadvantages. The invention is characterized in that in the imaging device the parameters influencing the moisture of the product, the moisture of the incoming veneer, the filling level of the veneer and its throughput, the velocity of the recirculated air and its humidity and temperature are measured and output. most preferably in said order for adjusting the circulating air speed of the dryer, for adjusting the amount of exhaust air and for adjusting the veneer pass-through speed.

7381 9 3 With this procedure, the dryer itself reacts automatically to changes in conditions and thus does not consume energy unnecessarily. All relevant parameters are taken into account, the filling rate is also affected by adjusting the throughput rate, and setting separate running parameters for each wood grade or production type avoids unnecessary losses when switching from one driving program to another. It can be said that the invention consists of a combination of sub-measures optimized in terms of production technology and energy consumption.

An example of the advantage of the invention is the order of execution of the control operations, in which the control is started with the simplest, but not very large control space operations, and in which the feed-through speed control, e.g. popular in known solutions, is used only as a last resort. This has a very large adjustment range, but it complicates the drying process, as it affects both the operation of the lathe feeding the veneer and the work of the equipment or people receiving the dried veneer.

The preferred embodiment according to the invention is characterized in that when the need for adjustment arises, one adjustment possibility is used completely at a time until the desired effect is achieved. In this way, the entire capacity of the adjustment is available, if necessary, to keep the moisture of the veneer constant.

The invention will now be described in more detail by way of example with reference to the accompanying drawing, in which

Fig. 1 shows a schematic sectional side view of a device applying the invention,

Figure 2 shows an end view of the same device.

The undried veneer 2 from the veneer lathes is fed to the imaging device 1 at point 3. The veneer is transported along the track.

4 7381 9 consisting of nets 4 and folding wheels 5. The drying device 1 is divided into blocks, each of which has its own recirculating air chamber 6. The fans blow air through steam-heated heat exchangers 7, after which the air is led to the veneer by nozzles. The recirculated air circulates in the dryer 1 as shown by the arrows in Fig. 2. The imaging device has the incoming and outgoing veneer humidity meters 14,15, the circulating air humidity meter 16, the temperature meter 17 and the pulse sensor 18 for determining the veneer speed.

By adjusting the speed of the recirculated air with the inverter controller 8 according to the parameter value given by the control computer 9, the humidity of the final product 10 is affected. If the speed of the recirculated air is increased, the veneer dries more efficiently and vice versa.

The exhaust air fan 11 and its controller 12 control the humidity of the recirculated air. The wetter the circulating air, i.e. the less it is removed, the more efficiently the heat is transferred to the veneer and the evaporation of water from the veneer is accelerated. This is advantageous in terms of energy savings.

By adjusting the speed of the motor 13, the speed of the veneer and thus the degree of filling can be influenced. This is based on the fact that the feed rate of the wet veneer 2 is independent of the operating speed of the drying device 1.

During the operation of the drying device 1, within the framework of the control system, each of the above-mentioned parameters can be adjusted separately or the computer 9 can be allowed to handle some or all of the adjustments automatically. In the fully automatic mode, which is the normal mode of operation, the control system primarily changes the speed of the recirculated air with the fans 6 when the need for control arises. Only after this has been found to be insufficient does the control system move on to the control of the next parameter, which is the rotational speed of the exhaust air fan 11. If this is not enough either, the last possibility is to adjust the speed of the nets 4 with the motor 13.

Il 5 73819

It will be clear to a person skilled in the art that the various embodiments of the invention are not limited only to the example given above, but may vary within the scope of the claims set out below. Thus, the structure of the drying device does not have to be similar to the device just described, it can be of the type e.g. a roller dryer. The implementation of the control system can also vary, in this case it is a computer but it does not have to be.

Claims (2)

6 PATENT CLAIMS 7 3 81 9 A method for controlling the drying of a veneer, wherein the drying takes place in a drying device (1) known per se, in which the drying air circulates the blowing (6) in the drying space to the heat exchangers (7), and passes the veneer collecting the detached water vapor; humidity is monitored, characterized in that in the dryer the parameters influencing the humidity of the product (10), incoming veneer moisture, veneer filling rate and velocity, recirculated air velocity and its humidity and temperature are measured and data are collected for automatic drying control, where control measures are desired. in the dried veneer (10) most preferably consist, in said order, of adjusting the circulating air speed of the drying device, adjusting the amount of exhaust air and adjusting the veneer pass-through speed. Method according to Claim 1, characterized in that, when the need for adjustment arises, one adjustment possibility is used completely at a time until the desired effect has been achieved. 1