JPH0263154B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION <Industrial Application Field> The present invention relates to a moisture control device for a dryer used in a sugar refinery to dry powder products containing moisture, such as canned sugar.

<Prior art> A conventional technology that performs countercurrent drying is explained based on Fig. 3. 1 is an input hopper into which a product P to be dried such as white sugar is inserted, 2 is a product that has been dried
Output popper for discharging P′; 3 is a dryer that connects the input popper and output popper and is installed at an angle and is driven to rotate; 4 is the discharged product
This is a belt conveyor means for conveying P′ to the next process.

5 is a blower fan that sucks dry air A from the output popper 2 side and directs the dryer 3 to the product P.
The air A' containing moisture is discharged to the outside air by the input popper 1 side. 6 is a heater for heating the dry air A, and the temperature of the drawn dry air is adjusted by the flow rate of the steam S.

7 is a temperature controller for controlling the temperature of the air on the input hopper 1 side, and a temperature sensor 8
An operation output is transmitted to a control valve 9 that adjusts the flow rate of the steam S that receives the measured value E _T and the temperature target set value S _T.

10 is a moisture meter that detects the moisture content of the product P' on the belt conveyor, and an infrared surface moisture meter or the like is used.
Reference numeral 11 denotes a delay circuit that applies a time delay to the measured value E _H of this moisture meter, and 12 refers to the output E _HL of this delay circuit as the measured value and receives the target set value S _H of moisture, which is then applied to the motor 13 that rotates the blower fan 5. A moisture controller that transmits an operational output controls the moisture in product P' to the target set value S _H.

However, with this type of control system, there is a large time delay from when the product is put into the input hopper until it is measured by the moisture meter 10, and it is only possible to achieve accuracy under the limited conditions of a constant supply of product and a constant dew point temperature of the outside air. It is possible to make dried products.

However, in actual sugar refining operations, the amount of sugar fed into the dryer varies in batches due to the operating intervals of separators, crystallizers, etc., and the amount of sugar fed fluctuates greatly, making it almost impossible to keep it constant. Operators frequently check the moisture content of the product whenever the load changes.
I was forced to put the moisture controller in manual mode, change the rotation speed of the blower fan, and change the setting value of the temperature controller.

In general, products that require drying should ideally be dried to match their moisture usage while avoiding excessive drying. In other words, it is essential to reduce the number of defective products due to over-drying or under-drying, as well as to provide an appropriate energy supply for drying, in order to reduce production costs and maintain product quality. is difficult to realize.

<Problems to be Solved by the Invention> The present invention solves the above-mentioned problems of conventional equipment, and can improve quality and reduce defective products by controlling the moisture content of products to a target value regardless of load fluctuations. The purpose of the present invention is to realize a drying control device that eliminates the amount of steam used to heat the drying air and the energy loss of the power consumption of the blower fan.

<Means for Solving the Problems> The present invention achieves the above object by providing a method for drying products that are moved in the dryer by an input hopper toward an output hopper or vice versa.
A dryer in which heated air is sucked from the output hopper side to the input hopper side and discharged by a blower fan has the following configuration.

That is, there is an absolute temperature sensor 16 that measures the humidity of the discharged air on the input hopper side, a temperature sensor 19 that measures the temperature of the discharged air, and an output signal from this (temperature) sensor that determines the maximum set humidity at that temperature. a humidity converter 20 that calculates based on a moisture saturation line; a humidity corrector 21 that corrects the output of the humidity converter according to the dryness setting of the product to be dried or the dew point temperature of the intake air;
Absolute humidity adjusting means 17 generates an operation output for controlling the rotation speed of the blower fan by using the output of the humidity correction means as a set value and the output of the absolute humidity sensor as a measured value, and controlling the temperature of the heated air to be constant. It is characterized by comprising a temperature adjusting means 15 for controlling the temperature.

<Function> The absolute temperature sensor detects the humidity of the air discharged from the input hopper to indicate the degree of dryness (moisture) of the product. The temperature sensor measures the temperature of the exhaust air, the temperature conversion means calculates the set maximum humidity at that temperature based on the moisture saturation, and the humidity correction means corrects this calculation result. Then, the absolute humidity control means uses this corrected humidity as a set value and controls the rotation speed of the blower fan so that the output of the humidity sensor becomes this set value, thereby indirectly setting the target dryness of the product. Controlled by value. The temperature regulating means improves controllability by maintaining the temperature of the heated air at a target value.

<Example> An explanation will be given based on the configuration diagram in FIG. 1 and the characteristic diagram in FIG. 2. Components that are the same as those of the conventional device shown in FIG. 3 are given the same reference numerals and their explanations will be omitted.

In FIG. 1, 14 is a sensor that measures the temperature of the air at the output point of the heater 6, that is, the air taken into the output hopper 2, and 15 is the output E _T1 of the temperature sensor 14.
This is a temperature controller that receives the temperature set value S _T1 and controls the steam S flow rate control valve 9.

16 is the discharge air on the input hopper 1 side
This is a humidity sensor that measures the humidity at A′, and measures the absolute humidity in real time using a sensor with a high response speed such as a zirconia hygrometer, and its output _E
7 as a measured value. The temperature controller 17 receives the measured value _EX and the set value _S

The present invention is characterized in that the drying state of the product is controlled based on the humidity of the discharged air A' by measuring the humidity of the discharged air A'.
In the case of a total hygrometer type that measures the weight of moisture in kg, the degree of saturation is defined by temperature and absolute humidity, so the humidity setting value needs to be corrected based on a signal related to temperature. 19 is exhaust air
A temperature sensor that measures the temperature of A′, whose output ET ₂
is guided to the humidity converting means 20.

Figure 2 is a conversion characteristic diagram of the humidity conversion means. When temperature is plotted on the x-axis and absolute temperature (Kg/Kg) is plotted on the y-axis, the imaginary line indicated by the dotted line φ ₀ is the saturation line (humidity
100%). The maximum value of the humidity setting is set to, for example, a curve _φ1 of 80% below this saturation line.

When operating with this curve φ ₁ , the saturation setting is
This means that it is set at 80%, and the humidity setting value when _the temperature is T ₁ ℃ is _S
S _X2 , and the humidity setting value changes depending on the temperature.

Reference numeral 21 denotes a humidity correction means, and this correction means can be shifted by a manual signal M to curves φ ₂ and φ ₃ below the maximum humidity setting curve φ ₁ to set the dryness (humidity) of the product. can be changed arbitrarily. The output S _X of this correction means is transmitted as the set value S _X of the humidity controller 17.

22 is a dew sensor that measures the dew point temperature of the air A taken into the heater 6, and this output E _D is guided to the correction means 21, and when φ ₂ is selected as the curve for giving the set value, this curve A correction is performed in which φ ₂ is shifted as shown by a curve φ ₂ ′ shown by a dashed-dotted line using the dew point temperature signal E _D , and changes in the humidity of the air taken in can also be corrected. This dew point correction means does not necessarily need to be provided if the humidity of the air taken in is stabilized by other means.

Next, sequence control of the system corresponding to the products P supplied in batches will be explained. If the product to the dryer is interrupted, the humidity in the exhaust air will drop rapidly and the temperature will rise. As a result, the deviation of the humidity controller 17 increases and the operational output for controlling the rotation speed of the blower fan decreases. However, since it is better not to lower the rotation speed of the blower fan below a certain certain value, the lower limit limiter 18 lowers the operational output. Lower limit value is restricted.

23 is a sequence circuit that transiently regulates the operating output of the temperature controller 15, and when no product is supplied, the steam valve 9 is throttled to a certain opening degree from the standpoint of energy conservation. When product supply starts, the humidity of the discharged air A′ on the output hopper side will rise rapidly.
This rapid increase is detected by the output _EX of the humidity sensor 16, and after the opening of the steam valve 9 is forcibly regulated to the opening during steady operation for a certain period of time, the controller 15 switches to automatic constant value control.

24 is a sequence circuit that transiently regulates the operation output of the humidity controller 17, and when there is no product supply, the output of the controller 17 is regulated to bring the rotation of the blower fan to the lower limit value, and product supply starts. If this occurs, the humidity sensor output _EX detects this and maintains the blower fan rotation speed close to the normal value for a certain period of time, then shifts to automatic control to prevent overshoot caused by large deviations during the transition period. is prevented.

Although the sequence circuits 23 and 24 are not essential requirements for the apparatus of the present invention, they are effective means when products are supplied in batches.

The embodiment shown in Fig. 1 is a so-called countercurrent type dryer in which the inflow direction of air A is opposite to the moving direction of product P. However, if the dryness of the product is not required to be high, A forward flow type in which the products move in the same direction is also used, and the present invention can be similarly applied to the forward flow type.

<Effects of the Invention> As explained above, the present invention has the following effects.

Since the dryness of the product is indirectly determined by the humidity of the discharged air, the time delay is significantly reduced compared to the conventional example, and controllability is improved, for example, it is possible to sufficiently follow load fluctuations. Furthermore, if the dew point of the intake air is corrected, highly accurate control can be expected.

By providing a sequence circuit as in the embodiment and adjusting the set value of the temperature control means during start/stop, it is possible to easily prevent transient effects on the dryness of the product.

Since the controllability is improved, it is possible to reduce the number of defective products due to excessive drying, and there is an economical effect that the amount of steam consumed for air heating and the amount of power consumed by the blower can be reduced.

With improved controllability, products with high moisture content can be prevented from caking, and product dryness can be achieved close to the maximum moisture content, improving product quality.

[Brief explanation of drawings]

FIG. 1 is a configuration diagram showing one embodiment of the present invention, and FIG.
The figure is an explanatory diagram of the operation of the humidity conversion means and humidity correction means.
FIG. 3 is a configuration diagram showing an example of a conventional device. 1...Input hopper, 2...Output hopper, 3
...Dryer, 5...Blower fan, 6...
Heater, 14, 19... Temperature sensor, 15...
Temperature controller, 16... Humidity sensor, 17... Humidity controller, 20... Humidity conversion means, 21... Humidity correction means, 22... Dew point sensor, 23, 24... Sequence circuit.

Claims (1)

[Claims] 1. Directed by the input hopper toward the output hopper,
Or, in a dryer that uses a blower fan to draw heated air from the output hopper side to the input hopper side and discharge the product to be dried, which moves in the dryer in the opposite direction, the exhaust air at the input hopper side is An absolute humidity sensor 16 that measures humidity; and a temperature sensor 19 that measures the temperature of the discharged air.
and humidity converting means 20 which calculates the maximum set humidity at that temperature based on the output signal of this temperature sensor based on the moisture saturation line; humidity correction means 21 for correcting according to the dew point temperature of the humidity correction means; and absolute humidity for generating an operation output for controlling the rotation speed of the blower fan, with the output of the humidity correction means as a set value and the output of the absolute humidity sensor as a measurement value. A moisture control device for a dryer, comprising: an adjustment means 17; and a temperature adjustment means 15 that controls the temperature of the heated air to be constant.