CS246713B1 - Device for securing the steady drying performance in the convect drying oven - Google Patents

Abstract

The solution relates to a device for securing permanent drying performance for conventional dryers in cases where the drying process is sensitive climate change. Essence the device is that the sensor is wet the thermometer is connected to the second controller, which is connected to the heater via the output and the dry-bulb sensor is connected to the second input of the second controller a first, to the input of the first regulator. First the output of the first controller is connected to the first flap located in the dryer inlet for fresh air supply. Second output the first controller is connected to the other damper located in the dryer outlet for exhausting exhausted air. Psychometric the difference between dry and wet temperature it remains and its constant value is achieved by changing the heating output, opening and closing the flaps.

Description

The present invention relates to a device for ensuring a constant drying performance of conventional driers in cases where the drying process is sensitive to climate change. The principle of the device is that the wet thermometer sensor is connected to the second regulator, which is connected to the heater and the dry thermometer sensor is connected both to the second input of the second regulator and to the input of the first regulator. The first outlet of the first regulator is connected to the first flap located in the inlet of the dryer for the supply of fresh air. The second outlet of the first regulator is connected to a second flap located in the outlet of the dryer, to extract the utilized air. The psychometric difference between dry and wet thermometer temperature is maintained and its constant value is achieved by changing the heating output, opening and closing the flaps.

The invention relates to a device for ensuring a constant drying performance. a conventional drying process where the drying process is sensitive to climate change.

When drying some materials at lower temperatures of drying air, such as film strips, films, laminated paper strips, and the like, high quality requirements are imposed on the dried material, which will be reflected in the quality requirements of the drying process itself. Mainly required uniformity in time and dimensions of the material and keeping its final moisture. Conventional dryers with an impact drying medium supply or longitudinal flow of material through the drying air are used for measurement. The dryers operate either by removing all of the supplied drying air after contact with the dried material outside the dryer space, or, more often, part of the drying air after contact with the dried material is recirculated and mixed with the fresh air supplied. The volumetric flow rate of air that is discharged from the dryer is equal to the volumetric flow rate of fresh air that is supplied to the dryer. In the case that the fresh air is conditioned to constant parameters, the stability of the drying process and the optimum energy requirements for drying are simple and can be carried out once by adjusting the dryer. If the supply air is not air-conditioned, the entire control process and the energy requirements for drying are closely dependent on the current climatic conditions. In this case, controls are used that affect the temperature of the drying air or the amount of exhaust air independently of each other. In a temperature-controlled device, this temperature cannot be increased indefinitely, for reasons of good drying of the material and therefore drying performance is lost. In a device with a control of the amount of inlet air having a high specific humidity, a limit is reached where the desired drying performance cannot be maintained. These devices provide neither a constant drying performance nor an oven operation under the most energy-efficient conditions.

These drawbacks are eliminated by a device for ensuring a constant drying performance in the convection dryers according to the invention, which is based on the fact that the thermometer sensor is connected to a second regulator, which is connected to the heater via an outlet. The dry thermometer sensor is connected to the second inlet of the second regulator and to the first inlet of the first regulator. The first outlet of the first regulator is connected to the first flap located at the inlet of the dryer for fresh air supply. The second outlet of the first regulator is connected to a second flap located in the outlet of the dryer, to extract the utilized air.

The advantage of the device according to the invention is that it guarantees a constant drying performance of the dryer regardless of the change in the climate parameters of the fresh air and further guarantees the operation of the dryer under energy-efficient conditions.

The drawing schematically shows an example of a device for ensuring a constant drying performance according to the invention from a film-developing drier.

The device for ensuring a constant drying performance is formed by having a wet thermometer sensor 9 and a dry thermometer sensor 6 in the dryer. The wet thermometer sensor 9 is connected to a second regulator 7, which is connected to a heater 10. The dry thermometer sensor 8 is connected to the second input of the second regulator 7 and to the first regulator 6. The first output of the first regulator 6 is connected to the first flap. 4 with a servo drive located in the dryer inlet 2 for fresh air supply. The second outlet of the first regulator 6 is connected to a second damper 5 with an actuator located in the outlet 3 of the dryer, to extract the utilized air. Constant drying capacity, as follows from the relation m = k '(t _s - t _v ) = k. _A t where m is the drying capacity k 'is the constant given by the design of the dryer t _s is the dry air temperature thermometer t _v is the dry air thermometer temperature _A t is the psychometric difference can only be achieved while keeping _A t = constant. The device according to the invention operates as follows. The temperature of the air supplied to the material to be dried in the dryer 1 is sensed by a dry thermometer sensor 8 and a wet thermometer sensor 9. Detected psychometric _difference? T is processed in the second controller 7 and a deviation from the set value of psychometric difference At due to the increased humidity of supply air (change of climatic conditions] is actuated heater 10 so that the value is ₄ t retained. Heightens a temperature of the dry thermometer sensor 8. The first damper 4 with actuator at the inlet 2 of the dryer for fresh air supply and the second damper 5 with the actuator at the outlet 3 of the dryer are set so that the optimum mixing ratio of fresh and circulating air The first damper 4 with the actuator and the outlet dampers 5 at the fresh air inlet 2 and the exhaust air outlet 3 are adjusted so that the mixing ratio of the fresh and the circulating air is optimal from an energy point of view. vzdu chu reaches the maximum permissible hour246713

S noty. This value is set on the first controller 6, which receives a signal from the dry bulb sensor 8. When the maximum permissible temperature of the dry bulb sensor 8 is reached, the first regulator 6 opens the flaps 4, 5 with the actuators and increases the air exchange in the dryer. This results in a lowering of the temperature of the wet thermometer sensor 9 and a maintenance of the required difference _Δ ί without further increasing the temperature of the dry thermometer sensor 8. After decreasing the humidity of the fresh air supply, which results in an increase in the value of _Δ ΐ, the temperature of the dry bulb sensor 8 begins to decrease and the flaps 4, 5 with actuators at the fresh air inlet 2 and the exhaust air outlet 3 also close. The flaps 4, 5 are adjusted so that they can only be closed to a position corresponding to optimal mixing of fresh and circulating air.

Claims (1)

pSedmEt Apparatus for ensuring constant drying performance in convection dryers, consisting of a drier with a heater, at the inlet and outlet of which there are flaps and thermometer sensors are located in the dryer, characterized in that the wet thermometer sensor (9) is connected to a second regulator (7) which is connected to the heater (10) and the dry thermometer sensor (8) is connected to the second input of the second regulator (7) and to the first regulator (6), the first output of the first regulator (6) is connected to the first a flap (4) located in the inlet (2) of the dryer and a second outlet of the first controller (6) is connected to a second flap (5) located in the outlet (3) of the dryer.