KR101525880B1 - Controler of heat pump system for drying agricultural products - Google Patents

Abstract

The present invention relates to a control apparatus for a continuous type agricultural product dryer using a heat pump, and more particularly, to a control apparatus for a continuous type agricultural product dryer using a heat pump, in which each drying chamber on the condensation side and the evaporation side, a heat pump, each blowing fan for circulating air to be supplied to each drying chamber, A condenser of the heat pump and a condenser side inlet / outlet temperature sensor for measuring a temperature difference between an inlet and an outlet of the evaporator, and a condenser side inlet / outlet temperature sensor for measuring a temperature difference between the inlet and the outlet of the evaporator, And the controller controls the inverter and the temperature sensor. When the inlet / outlet temperature difference (DELTA T) of the condenser or the evaporator is within the set value range, the inverter controls the condensation side or the evaporative side blower fan When the inlet / outlet temperature difference ΔT of the condenser or the evaporator is smaller than the set value, the condenser side or evaporative side blower fan is driven by the inverter When the inlet / outlet temperature difference (DELTA T) of the condenser or the evaporator is larger than the set value, the condensing side or the evaporative side blowing fan is operated to increase the blowing amount by increasing the blowing amount by the inverter, And uniformly high quality dry matter can be produced in large quantities.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a control device for a continuous type agricultural product dryer using a heat pump,

The present invention relates to a control apparatus for a continuous type agricultural product dryer using a heat pump, and more particularly, to a dryer apparatus for drying and conveying condensed water and evaporation side drying chamber, heat pump, blowing fan, An inlet and an outlet temperature sensor for measuring a temperature difference between an inlet and an outlet of the evaporator and a condenser of the heat pump, and an inverter controlling the blowing amount of the drying chamber to optimize the drying And more particularly, to a control apparatus for a continuous type agricultural product dryer using a heat pump that achieves efficiency.

If the amount of the laundry to be dried by using the heat pump is more or less than the appropriate value, the flow amount of the circulating air in the drying chamber becomes small or increases due to the nature of the laundry, which is an agricultural product, The change causes an over-voltage or over-voltage abnormality to occur, thus generating excessive current or causing damage to the compressor.

That is, when the temperature difference between the entrance and exit of the condenser of the heat pump is measured and the temperature difference is larger than the appropriate temperature difference, there is a high possibility that high pressure abnormality occurs due to a small amount of air blown. Power is generated. In addition, when the temperature difference between the inlet and outlet of the evaporator of the heat pump is measured, if the temperature difference is larger than the proper temperature difference, the blowing amount is low and the low pressure abnormality is likely to occur.

The drying of the agricultural products is an important factor for the uniform drying of the condenser and the evaporator of the heat pump, and the blowing amount of the evaporator. However, conventionally, there is a problem that the product is unilaterally supplied without proper control of the blowing amount.

On the other hand, when the relative humidity in the drying chamber is high, the drying quality deteriorates (corruption occurs), so it must be maintained at an appropriate humidity. If the humidity in the drying chamber is reduced excessively, the drying time can be shortened. There is an increasing problem.

Further, in the case of the conventional continuous agricultural products, the drying condition is not satisfied because the drying conditions are different depending on the type of laundry, and the laundry is transported by each section by the transfer of the drying drum.

Korean Patent Publication No. 10-2012-0055260

SUMMARY OF THE INVENTION The present invention has been made in order to solve all of the above problems, and it is an object of the present invention to provide a condenser and an evaporator, which can prevent the damage of the drier due to over- The flow of air in the drying chamber on the condensation side and the evaporation side is made uniform by realizing the optimum operating condition of the heat pump which controls the rotational power of the blowing fan according to the load amount of the object to be dried by the operating inverter, The present invention provides a control device for a continuous type agricultural product dryer using a heat pump that can uniformly produce dry matter by delivering uniform dry air to a drying object in a drying chamber and prevent damage to the compressor.

The other purpose is to supply the high-temperature air of the condenser side to the evaporator side through the stirring damper without supplying any additional heat source because the dehumidification efficiency is low and the abnormal low pressure of the heat pump may occur when the temperature of the drying room on the evaporator side is too low. The present invention provides a control device for a continuous type agricultural product dryer using a heat pump that can effectively increase the temperature of the evaporator side (the heat amount on the condenser side is higher than the heat amount on the evaporator side side by the amount of heat generated in the compressor).

In order to achieve the above object, a control apparatus for a continuous type agricultural product dryer using a heat pump according to the present invention comprises a drying chamber, a heat pump, and a drying chamber on a condensation side and a vaporization side, A control unit for controlling the output of the blower fan; a condenser of the heat pump and a temperature difference between the inlet and outlet of the evaporator; An inlet and an outlet temperature sensor for each of the condensation side and outlet side temperature sensors, a controller for controlling the inverter and the temperature sensor, and the inlet and outlet temperature difference (? T) of the condenser or the evaporator When the temperature difference ΔT of the inlet and outlet of the condenser or the evaporator is smaller than the set value, The blowing fan reduces the blowing amount by reducing the speed of the condensing side or the evaporation side blowing fan. If the inlet / outlet temperature difference (ΔT) of the condenser or the evaporator is larger than the set value, the blowing fan of the condensing side or the evaporating side blow- So that the flow of the blowing air in each drying chamber is uniformly formed.

An intake damper and an exhaust damper provided in each of the drying chamber on the condensation side and the evaporation side, a stirring damper provided on the exhaust duct connecting between the intake damper and the exhaust damper, and a condenser provided on the condensation side and inside each drying chamber on the evaporation side And a humidity sensor and a temperature sensor. When the humidity inside each drying chamber on the condensation side and the evaporation side is measured by the humidity sensor and is equal to or higher than the set value, the respective intake / exhaust dampers are opened to supply the outside air, And the relative humidity in each drying chamber is lowered. When the temperature of the drying chamber in the condensation side is equal to or higher than the set value, the condensing side suction / exhaust damper is opened to lower the temperature below the set value. The drying dampers between the drying chambers are opened to allow the hot air in the condensation side drying chamber and the low temperature air in the evaporation side drying chamber to be stirred, Side drying chamber so that the dehumidifying and drying efficiency of the evaporation-side drying chamber is increased.

In addition, the condenser and the evaporator are constituted in plural, and a plurality of blowing fans, an inverter, a condensing side inlet temperature sensor, an outlet temperature sensor, an evaporation side inlet temperature sensor and an outlet temperature sensor are installed in a drying chamber of each of a plurality of condensers and evaporators .

In addition, the drying device of the agricultural produce dryer is connected to each drying unit, and the condensation side of each agricultural product drier and each drying room on the evaporation side are connected to each other to form a drying material inlet port in the first drying room, And the drying object is moved by the drying drum which is connected and transferred between the drying chambers.

According to the control apparatus of the continuous type agricultural product dryer using the heat pump of the present invention, since the blowing amount of the blowing fan can be adjusted according to the type and characteristics of the dried material and the amount of the object to be dried, a uniform high quality dried material can be produced in a large quantity, Since the output of the air blowing fan can be adjusted according to the amount of dry matter to be dried, unnecessary consumption of energy can be prevented.

Further, since the drying chamber on the condensation side and the drying chamber on the evaporation side can be heat-exchanged by the stirring damper, the temperature of the evaporator side can be raised to increase the dehumidification efficiency.

In the case where the dryer of the present invention is used as a single drying unit and is connected to each other, even if the drying conditions of the drying chamber are different from each other when the laundry is transferred by each conveying unit by conveying the drying drum, Since the temperature can be controlled by controlling the blowing fan, the drying condition can be sufficiently satisfied.

1 is a front view of a control device of a continuous type agricultural product dryer using a heat pump according to the present invention.
2 is a plan view of a control device of a continuous type agricultural product dryer using a heat pump according to the present invention.
3 is a left side view of the control device of the continuous type agricultural product dryer using the heat pump according to the present invention
4 is a right side view of the control device of the continuous type agricultural product dryer using the heat pump according to the present invention
5 is a flow chart of the intake and exhaust of the control apparatus of the continuous type agricultural product dryer using the heat pump according to the present invention.
6 is a flowchart showing a heat agitation process of the control apparatus of the continuous type agricultural product dryer using the heat pump according to the present invention.
7 is a flowchart showing the operation sequence of the control apparatus of the continuous type agricultural produce dryer of Figs. 1 to 4. Fig.
FIG. 8 is a schematic view showing a whole construction of a drying apparatus using a heat pump according to the present invention,
FIG. 9 is a control configuration diagram of the control apparatus of the continuous type agricultural produce dryer of FIG. 8

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of a control apparatus for a continuous type agricultural produce dryer using a heat pump according to the present invention will be described in detail with reference to the accompanying drawings. It is to be understood that the present invention is not limited to the disclosed embodiments, but may be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, It is provided to inform.

FIG. 1 is a front view of a control device of a continuous type agricultural product dryer using a heat pump according to the present invention, FIG. 2 is a plan view of a control device of a continuous type agricultural product dryer using a heat pump according to the present invention, FIG. 4 is a right side view of a control device of a continuous type agricultural product dryer using a heat pump according to the present invention. FIG. 4 is a left side view of a control device of a continuous type agricultural product dryer using a heat pump according to the present invention.

1 to 4, a control apparatus for a continuous type agricultural product dryer using a heat pump according to the present invention includes a condensing side and evaporation side drying chambers 10a and 10b, a heat pump 2 and a blowing fan 1A Side inlet / outlet temperature sensor T1B (T1C) provided in the condenser 5 of the heat pump 2 and the condenser side inlet / outlet temperature sensor T1B (T1C) provided in the evaporator 6 together with the condenser 1B (2A) An evaporation side inlet / outlet temperature sensor T2B (T2C), and a controller 7.

Each of the drying chambers 10a and 10b is divided into a drying chamber 10a provided on the condenser 5 side of the heat pump 2 and a drying chamber 10b provided on the evaporator 6 side of the heat pump 2 A drying drum 8 is installed in the drying chamber 10a and 10b so as to be connected to each other and the drying drum 8 is connected to one of the inlet ports 9 Side drying chamber 10b while being discharged through one outlet 10 of the evaporation-side drying chamber 10b.

A heat pump 2 for supplying a heat source for drying the object to be dried in each of the drying chambers 10a and 10b is installed in an upper portion of each of the drying chambers 10a and 10b and a condenser 5 And an evaporator 6 is installed in the evaporation side drying chamber 10b. Although not shown, a compressor and an expansion valve for connecting the compressor and the evaporator 6 are installed around the condenser 5 and the evaporator 6 to constitute a heat pump 2.

The respective blowing fans 1A, 1B, 2A and 2B for supplying air into the respective drying chambers 10a and 10b to dry the laundry are respectively provided in the upper part of the condensing side drying chamber 10a with two blowing fans 1A and 1B and two blowing fans 2A and 2B are provided on the upper portion of the evaporation side drying chamber 10b to divide the blowing fans 1A, 1B, and 2A 2B serve to circulate the air so that the air inside the respective drying chambers 10a and 10b is uniformly dispersed. However, one air drying chamber 10a and one drying chamber 10b may be provided as necessary.

The inverter 4 is installed in the control box 11 together with the controller 7 to adjust the rotational power of each of the blowing fans 1A, 1B, 2A and 2B, The blowing amount supplied to each of the drying chambers 10a and 10b is appropriately adjusted in an appropriate amount.

The condensing side inlet / outlet temperature sensor T1B (T1C) includes a condensing side inlet temperature sensor T1B installed at the inlet of the condenser 5 and a condensing side outlet temperature sensor T1C installed at the outlet of the condenser 5, Side inlet and outlet temperature sensors T2B and T2C are connected to the evaporator 6 and the evaporator 6. The condenser 5 compares the temperatures of the inlet and the outlet of the condenser 5 and then calculates the temperature difference by the controller 7, Side inlet temperature sensor T2B installed at the inlet of the evaporator 6 and an evaporation-side outlet temperature sensor T2C installed at the outlet of the evaporator 6. The temperature of the inlet and the outlet of the evaporator 6 are compared The controller 7 calculates the temperature difference.

A conveyor system 12 for conveying the drying drum 8 is provided at the lower end of the drying drum 8.

The heat supply system by the heat pump 2 is operated through the Carnot cycle of compression → condensation → expansion → evaporation process. The refrigerant introduced from the outlet of the evaporator 6 compresses the low temperature low pressure refrigerant through the compressor to high temperature and high pressure , The refrigerant compressed at high temperature and high pressure is condensed to the supercooled region (heat radiation) while passing through the condenser 5, and the condensation energy is generated by heating the drying object in the condensation side drying chamber 10a, (Low temperature and low pressure) to be introduced into the evaporator 6 and the process of cooling the dehydrating agent through the evaporation process (endothermic) in the evaporation side drying chamber 10b of the evaporator 6 and dehumidifying and drying .

When the inlet / outlet temperature difference? T of the condenser 5 or the evaporator 6 is set to a set value range, for example, 3? DELTA T? 5, according to the control method of the controller of the agricultural produce dryer of the present invention, Side condensing-side drying chamber blowing fan 1A or 1B or the evaporation-side drying chamber blowing fan 2A or 2B is operated at a constant speed and the inlet / outlet temperature difference? T of the condenser 5 or the evaporator 6 is larger than the set value range Side blowing fan 1A or 1B or the evaporation-side drying room blowing fan 2A or 2B is operated in a decelerating operation to reduce the amount of air blowing and the condenser 5 or the evaporator 6 is operated, If the inlet-outlet temperature difference DELTA T of the evaporation-side drying chamber blowing fan 2A or 2B is larger than the set value, the inverter 4 is operated so that the blowing fan 1A or 1B or the evaporation- So that the flow of blowing air in each of the drying chambers 10a and 10b is uniformly formed. Therefore, the laundry to be loaded on the drying drum 8 and transferring the laundry between the drying chambers 10a and 10b is dried appropriately and discharged by controlling the amount of air blown in each of the drying chambers 10a and 10b.

On the other hand, an intake damper 13a, a stirring damper 14a, and an exhaust damper 15a (not shown) are connected to the upper portion of the drying chamber 10a of one of the two drying chambers 10a and 10b, The exhaust damper 15a is connected to the evaporation-side drying chamber 10b and the intake damper 13a, the stirring damper 14a and the exhaust damper 15a are connected to each other, And an exhaust duct 16a leading to the exhaust duct 10a. Further, another intake damper 13b, a stirring damper 14b and an exhaust damper 15b are provided side by side on the road leading to one drying chamber 10a from the other drying chamber 10b of the two drying chambers, Side drying chamber 10a and the exhaust duct 16b leading to the drying chamber 10b on the evaporation side while connecting the intake damper 13b, the stirring damper 14b and the exhaust damper 15b to each other, Respectively. A humidity sensor H1 (H2) and a temperature sensor T1A (T2A) for measuring humidity and temperature and operating the intake dampers (13a), (13b), and the like are disposed inside the respective drying chambers (10a) Respectively.

FIG. 5 is a flow chart of the intake and exhaust of the controller of the continuous type agricultural product dryer using the heat pump according to the present invention, and FIG. 6 is a flowchart showing the heat agitation of the controller of the continuous type agricultural product dryer using the heat pump according to the present invention.

5 and 6, the humidity in each of the drying chambers 10a and 10b on the condensation side and the evaporation side is detected by the humidity sensor H1 (see FIG. 5) by the control method of the controller of the agricultural produce dryer of the present invention H2 and the intake dampers 13a and 13b and the exhaust dampers 15a and 15b are opened so as to be supplied to the respective drying chambers 10a The relative humidity in each of the drying chambers 10a and 10b is lowered and the temperature of the condensation side drying chamber 10a is measured by the temperature sensor T1A The condensing side intake damper 13a and the exhaust damper 15b are opened to lower the temperature to a set value or less. When the temperature of the evaporation side drying chamber 10b is lowered to a set value or lower and the drying efficiency is lowered, the stirring dampers 14a and 14b between the drying chambers 10a and 10b are opened, Side drying chamber 10b is made to be equal to or higher than a set value by increasing the temperature of the evaporation-side drying chamber 10b so as to increase the dehumidifying and drying efficiency of the evaporation-side drying chamber 10b. That is, the heat source generated in the heat pump system of the heat pump 2 is agitated between the drying chambers 10a and 10b to efficiently perform drying.

As described above, by controlling the blowing amount of the blowing fans 1A, 1B, 2A, 2B by measurement of the temperature sensors T1B, T1C, T2B, and T2C of the drying chambers 10a, 10b, T1A and T2A and the humidity sensors H1 and H2 are as described above and this is achieved by operating according to the operation flowchart of the agricultural product dryer of the present invention shown in FIG.

FIG. 8 is a view illustrating an entire construction of a drying apparatus using a heat pump according to the present invention as a single drying unit and connecting a plurality of drying units.

8, the control apparatus of the continuous type agricultural produce dryer of the present invention is configured such that the construction of the condensation side drying chamber 10a and the evaporation outlet drying chamber 10b are constituted by one drying unit 21, And the plurality of drying units 22 and 23 are connected to each other so that the agricultural product dryer is constructed continuously.

The first to sixth drying chambers 31 to 36 on the condensing side and the evaporation side of the drying units 21, 22 and 23 are connected to each other and the drying drum conveyed by the conveyor system 12 installed at the lower end, And is discharged through the discharge port 10 of the last sixth drying chamber 36 after being dried in the respective drying chambers 31 to 36. [ Except for the construction in which a plurality of drying units are connected, the construction and operation of each drying unit are the same as described above.

FIG. 9 is a block diagram showing a control method of the continuous type agricultural produce dryer of FIG.

9, in the construction in which a plurality of drying units 21, 22, 23 are connected to each other, the first to sixth drying chambers 31, 36) is connected to a plurality of condensation side inlet / outlet temperature sensors, evaporation side inlet / outlet temperature sensors, humidity sensors and temperature sensors, and all the temperature sensors and humidity sensors are connected to the controller, And a plurality of intake dampers, an exhaust damper, and a stirring damper are connected to the controller. The control and operation of each constitution of the continuous agricultural product constituted as described above is as described above.

The operation of each of the plurality of drying units 21, 22, and 23 is the same according to the operation flowchart shown in FIG.

As described above, the control device of the continuous type agricultural product dryer using the heat pump according to the present invention has been described with reference to the drawings. However, the present invention is not limited to the embodiments and drawings disclosed in the present specification, It will be understood by those skilled in the art that various changes may be made therein without departing from the spirit and scope of the invention.

1A, 1B: condensing side blowing fan 2A, 2B: evaporation side blowing fan
2: Heat pump 4: Inverter
5: condenser 6: evaporator
7: Controller 8:
9: Inlet port 10: Outlet port
10a: condensation side drying chamber 10b: evaporation side drying chamber
11: Control box 12: Conveyor system
13a, 13b: intake dampers 14a, 14b: exhaust damper
15a, 15b: stirring dampers 16a, 16b: exhaust duct
21, 22, 23: drying units 31 to 36: first to sixth drying rooms
T1A: condensation side temperature sensor T2A: evaporation side temperature sensor
T1B: condensation side inlet temperature sensor T1C: condensation side outlet temperature sensor
T2B: Evaporative inlet temperature sensor T2C: Evaporative outlet temperature sensor
H1: Humidity sensor on condensation side H2: Humidity sensor on evaporation side

Claims (4)

A control unit for the dryer of the agricultural product dryer having the drying chamber on the condensation side and the evaporation side, the heat pump, the respective blowing fans for circulating the air to be supplied to the respective drying chambers, and the drying drum for moving the drying chamber, In this case,
A condenser side inlet / outlet temperature sensor and an evaporation side inlet / outlet temperature sensor for measuring the inlet / outlet temperature difference of the condenser and the evaporator of the heat pump, a controller for controlling the inverter and the temperature sensor, ; And
An intake damper and an exhaust damper provided in each of the drying chamber on the condensation side and the evaporation side, a stirring damper provided on the exhaust duct connecting between the intake damper and the exhaust damper, and a humidity sensor Including sensors and temperature sensors,
When the inlet / outlet temperature difference (DELTA T) of the condenser or the evaporator is within the set value range, the condenser side or the evaporative side blower fan operates at a constant speed by the inverter. When the inlet / outlet temperature difference DELTA T of the condenser or evaporator is smaller than the set value, Or the evaporation side blowing fan is operated in a decelerating operation to reduce the blowing amount. When the inlet / outlet temperature difference (DELTA T) of the condenser or the evaporator is larger than the set value, the blowing fan is accelerated by the inverter to increase the blowing amount The flow of the blowing air in the drying chamber is uniformly formed,
When the humidity inside the respective drying chambers on the condensation side and the evaporation side is measured by the humidity sensor and is equal to or greater than the set value, the respective intake / exhaust dampers are opened to discharge the inside humidifier to the outside together with the supply of outside air, Lt; / RTI >
Side condensing-side suction / exhaust damper is opened to lower the temperature to a set value or less when the temperature of the condensing-side drying chamber is equal to or higher than a set value,
When the temperature of the evaporation side drying chamber is lowered to the set value and the drying efficiency is lowered, the stirring damper between the drying chambers is opened to allow the hot air of the condensation side drying chamber and the low temperature air of the evaporation side drying chamber to be stirred, Or more, so that the dehumidifying and drying efficiency of the evaporation side drying chamber is increased. delete The method according to claim 1,
The condenser and the evaporator are constituted in a plurality, and a plurality of blowing fans, an inverter, a condensing side inlet temperature sensor, an outlet temperature sensor, an evaporation side inlet temperature sensor and an outlet temperature sensor are respectively installed in a drying chamber of a plurality of condensers and evaporators A control device for a continuous type agricultural product dryer using a heat pump. The method according to claim 1,
The dryers of the agricultural produce dryer are connected to each other by a plurality of drying units, and the condensation side of each agricultural product drier and each drying chamber of the evaporation side are connected to each other so that a drying material inlet is formed in the first drying chamber, And the laundry is moved between the drying chambers by being connected to the drying chambers. The control device of the dryer of the continuous type produce dryer using the heat pump.

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