KR19980081978A - Control device and method of food waste processor - Google Patents

Abstract

The present invention relates to a control device and a method of a food waste processor, and more particularly, to detect the humidity inside the container into which the food waste is fermented, the opening / closing time of the door, and the overvoltage applied to the motor. The present invention relates to a control device for a food waste processor to control a stirring motor and a heater in an optimal state so that fermentation is performed smoothly.

To this end, the present invention, the motor is installed inside the container into which the food waste is put, driving a stirrer for mixing the food waste and fermentation agent, a blowing fan for discharging odor generated during fermentation of the food waste, and in the container 1. A control apparatus of a food waste processor including a heater for supplying high heat to provide a proper temperature for fermentation of food waste, and a power supply unit for supplying driving power to each device, the apparatus being disposed at a predetermined position inside the container. Temperature sensor for detecting the temperature inside the container by the heat of the heater, and installed on the bottom surface of the container, the resistance value is proportionally changed according to the humidity inside the container installed in the humidity sensor and the cover of food waste processor And a reed switch for outputting a signal according to whether the cover is opened or closed and connected to the power supply unit. When the motor is overloaded, the blower fan detects the overcurrent of the power supply terminal and outputs a predetermined signal, and the output fan of the temperature sensor, the humidity sensor, the reed switch, and the overload detection unit to read the output signal. , A control unit for controlling the motor and the heater to an optimum state, a drive for driving the blower fan, the motor and the heater according to the output signal of the control unit, and connected to the output terminal of the control unit to display the operation of various sensors as a lamp. It is characterized by having a display unit.

Description

Control device and method of food waste processor

The present invention relates to a control device for a food waste processor, and more particularly, a blower fan and a stirring motor, by detecting the humidity inside the container into which the food waste is fed and the opening and closing time of the door and the overvoltage applied to the motor. And it relates to a control device of a food waste processor to control the heater in an optimal state to facilitate the fermentation.

In general, the conventional food waste treatment apparatus is used, since the air is warmed up quickly by the heater and discharged to the blower fan due to convection, even before the air supplied through the blower fan is sufficiently supplied to the fermentation bacteria. There is a problem that the fermentation rate of food waste is slowed because the time for supplying the oxygen necessary for fermentation is not sufficient.

The present invention stops the operation of the motor and heater and rotates the blower fan at a low speed when the humidity inside the container is less than the specified value to solve the above problems, and if the motor is overloaded, once the motor rotates once The process of detecting overload is repeated several times, and when the overload is continuously applied, the motor and heater are stopped and the blower fan is rotated at low speed while the reed switch is counted for 60 to 84 hours. When there is no output change of the reed switch, the motor, heater, and blower fan are stopped to control the motor and the blower heater according to the temperature, humidity, and the overload of the motor, and also according to the opening / closing degree of the lid. By giving fermentation conditions in the best condition, not only produce high quality organic fertilizer but also power It will have to reduce the waste.

The present invention for achieving the above object is a motor installed in the container in which the food waste is put, driving a stirrer for mixing the food waste and fermentant, and a blowing fan for discharging the odor generated during fermentation of the food waste And a heater for supplying high heat to the container to provide a proper temperature for fermentation of food waste, and a control unit for a food waste processor provided with a power supply unit for supplying driving power to each device. A temperature sensor installed at a position to sense a temperature inside the container due to the heating of the heater, and a resistance value is proportionally changed according to humidity inside the container by being installed on the bottom surface of the inside of the container so that the humidity sensor and food waste A reed switch installed at a cover of the processor and outputting a signal according to whether the cover is opened or closed; When the overload is connected to the main part and the motor is overloaded, the overload detection unit detects the overcurrent of the power supply terminal and outputs a predetermined signal, and the output signal of the temperature sensor, humidity sensor, reed switch, and overload detection unit is read in the built-in program. A control unit for controlling the blower fan, the motor, and the heater to an optimum state, a drive for driving the blower fan, the motor, and the heater according to the output signal of the control unit, and an output terminal of the control unit It is characterized by consisting of a display unit for displaying the with a lamp.

Another feature of the present invention, the food waste processor provided with a control unit for controlling the blowing fan, the motor, the heater to the optimum state by a built-in program by reading the output signal of the temperature sensor, humidity sensor, reed switch, overload detection unit In the control method of the control apparatus of the control method, if the power is supplied to the system and the reed switch is turned on, repeating the step of rotating the motor forward for a predetermined time, stop for a predetermined time and then reverse rotation for a predetermined time, and Stopping the driving of the motor and the heater and rotating the blower fan at a low speed when it is determined that the humidity inside the container is equal to or lower than a prescribed value; and detecting the overload again after rotating the motor once when it is determined that the motor is overloaded. Repeat the process several times and if it is judged that the overload is continuously applied, stop the operation of the motor and heater and blow Rotating the fan at a low speed and counting the time when the reed switch is in an on state, and stopping driving of the motor, the heater and the blower fan when there is no output change of the reed switch continuously for 60 to 84 hours. It is characterized by consisting of steps.

1 is a structural diagram of a food waste processor applied to the present invention.

Figure 2 is a block diagram of a food waste processor control device according to the present invention.

Figure 3 is a structure of the humidity sensor of the food waste processor according to the present invention.

Figure 4 is a detailed circuit diagram of the food waste processor according to the present invention.

Figure 5 is an overall operation of the food waste processor according to the present invention.

6 is an overload detection of the motor in the food waste processor according to the present invention

Operation flow chart of the control unit.

7 is a food waste processor according to the present invention according to the humidity conditions

Operation flow chart of the control unit.

8 is an operation of the reed switch in the food waste processor according to the present invention.

Operation flow chart of the control unit according to.

Hereinafter, described in detail by the accompanying drawings as follows.

2 is a block diagram of a food waste processor control apparatus according to the present invention, which is installed inside a container into which food waste is put, a motor 53 for driving a stirrer for mixing food waste and fermentation agent, and fermentation of the food waste Blower fan (54) for discharging the odor generated at the time, and the heater 55 for supplying high heat to the container to provide a proper temperature so that food waste can be fermented is connected to the output terminal of the drive 56, The temperature sensor 59 is installed at a predetermined position inside the container and senses the temperature inside the container due to the heating of the heater 55, and the resistance value is proportional to the humidity inside the container. And a control unit at the output side of the reed switch 61 installed in the cover of the humidity sensor 60 and the food waste processor to output a signal depending on whether the cover is opened or closed. 57 is connected.

On the one side of the power supply unit 51 for supplying driving power to the system, when the motor 53 is overloaded, the controller 57 detects the overcurrent of the power supply terminal and outputs a predetermined signal to the controller 57. The display unit 58 is connected to the output terminal of the control unit 57 and displays the operation of the drive 56 and the various sensors using a lamp.

3 is a structural diagram of a humidity sensor of a food waste processor according to the present invention, wherein the humidity sensor 40 has a U-shaped conductor cutter blade 41 placed thereon and a lower portion of the cutter blade 41. The insulating plate 42 of the non-conductor is placed on the upper surface of the bottom surface of the inner container 35 as a conductor so that the coupling holes 47 are integrally formed on both sides, and the bolt head is formed on the upper side of the coupling hole 47 on the one side. The insulating washer 44 is fitted by the bolt 43 so as to protrude to the upper portion of the insulating washer 44, and is coupled by the nut 45, and the bolt 43 is inserted from the top by the other coupling hole 47. The insulating washer 44 is inserted into the bottom bottom of the inner container 35, and is coupled by the nut 45 so that each bolt 44 is connected to the control device 11.

4 is a detailed circuit diagram of a food waste processor according to the present invention, wherein a reference voltage (ref) is applied to a non-inverting terminal (+) of the comparator 52a, and a power supply unit is connected to the inverting terminal (-) through a transformer CT. Is connected to (51). In addition, the drive 56 includes triacs TRI1 to TR5 and photodiodes LD1 to LD5, and includes a blower fan 54, a motor 53, and a heater through the respective triacs TRI1 to TR5. 55 is connected, the humidity sensor 60 is composed of a cutter blade 41 having a self-resistance, and detects the humidity as a change in the self-resistance value of the cutter blade 41 according to the amount of moisture in the container. , The temperature sensor 59 uses a thermistor.

5 is a flow chart showing the overall operation of the food waste processor according to the present invention, Figure 6 is a flow chart of the operation of the controller when detecting the overload of the motor in the food waste processor according to the present invention, Figure 7 is a food waste processor according to the present invention FIG. 8 is an operation flowchart of the control unit according to the operation of the reed switch in the food waste processor according to the present invention.

When described in detail the control device and method of the food waste processor according to the present invention made as described above.

First, FIG. 1 is a structural diagram of a food waste treatment system applied to the present invention. When food waste (F) is put into an inner container 35 to close a cover and operate the present invention, an agitator installed in the inner container 35 ( 20) and the stirring blade 22 delivered to the stirrer 20 receives the power of the motor 53 by the chain 21 to rotate and mix the food waste (F) and fermentation bacteria put into the inner container (20). (mix).

When the agitator 20 is mixed with food waste F, the control device is installed on the bottom surface of the inner container 20 to the seating hole 39 of the heat transfer container 36 in which the heat transfer water 37 is incorporated. While blowing the enclosed cartridge heater 55, the blower fan 54 is operated to discharge the high temperature and humid air flowing into the inner container 20 from the outside through the intake hole 17 to discharge the high temperature and humid air. While discharging to the outside through the exhaust port 18, the temperature sensor 59 installed in the inner container 20 is operated to continuously check the temperature so that the temperature in the inner container 20 is kept constant. Will be controlled.

Referring to the control process of such a food waste processor in more detail as follows.

First, when power is supplied to the system and the reed switch 61 is turned on as shown in FIG. 5 (step 102), the motor 53 is rotated forward for 2 minutes, stopped for 5 seconds, and then reversed for 2 minutes. In step 103, the temperature of the container is measured by reading the output of the temperature sensor 59, and when the temperature in the container is determined to be greater than or equal to the set value (step 104), the heater 55 is driven through the drive 56. The temperature in the vessel is kept constant (step 105) by reducing the current supplied to the vessel.

At the same time, when the output signals of the humidity sensor 60, the overload detection unit 52 and the reed switch 61 are read (step 106) and determined to be out of a predetermined range (step 107), the blower fan 54 and the motor ( 53), the heater 55 is controlled to the optimum state (step 108).

That is, the process of controlling the blower fan 54, the motor 53, and the heater 55 to an optimal state according to the output signals of the humidity sensor 60, the overload detector 52, and the reed switch 61 will be described below. same.

6 is a flowchart illustrating the operation of the control unit when detecting the overload of the motor in the food waste processor according to the present invention. The control unit 57 reads the signal of the overload detection unit 52 (step 201), and reads the read data value. When it is determined that the motor 54 is overloaded (step 202), the motor 53 is rotated once (step 203) and then the overload is detected again (step 204) several times (step 205). If the overload is determined continuously (step 206), the driving of the motor 53 and the heater 55 is stopped and the blower fan 54 is rotated at a low speed.

7 is an operation flowchart of the control unit according to the operation of the reed switch in the food waste processor according to the present invention, and the control unit 57 reads the signal of the reed switch 61 (step 301) and the reed switch 61. When it is determined that the signal is output from step 302, the counter starts counting the time (step 303). If the counted time does not change from the reed switch 61 for 72 hours, it is not used. It is judged that the driving of the motor 53, the heater 55, and the blowing fan 54 is stopped (step 305).

8 is an operation flowchart of the controller according to the humidity condition in the food waste processor according to the present invention. The controller 57 reads a signal of the humidity sensor 60 (step 401), and reads the read data value. When the humidity in the container is below the prescribed value, the driving of the motor 53 and the heater 55 is stopped and the blower fan 54 is rotated at a low speed.

As described above, the present invention provides a fermentation condition of food wastes by optimally controlling the motor and the blower heater according to the temperature, humidity, overload of the motor, and opening / closing of the cover in the food waste treating machine. In addition to producing high-quality organic fertilizers, it is possible to reduce the waste of power due to overhanging.

Claims (2)

The motor 53 is installed inside a container into which food waste is put, and drives a stirrer for mixing food waste and fermentation agent, a blowing fan 54 for discharging odor generated during fermentation of the food waste, and in the container. In the control device of the food waste processor provided with a heater 55 for supplying a high temperature to provide a proper temperature so that the food waste can be fermented, and a power supply unit 51 for supplying driving power to each device, A temperature sensor 59 installed at a predetermined position inside the container to sense a temperature inside the container due to heat generation of the heater 55; Installed on the bottom surface of the container and the resistance value is changed proportionally according to the humidity inside the container, and the humidity sensor 60, A reed switch 61 installed on a cover of a food waste processor and outputting a signal according to whether the cover is opened or closed; An overload detection unit 52 connected to the power supply unit 51 and detecting an overcurrent of a power supply terminal and outputting a predetermined signal when the motor 53 is overloaded. The blower fan 54, the motor 53, and the heater 55 by reading the output signals of the temperature sensor 59, the humidity sensor 60, the reed switch 61, and the overload detector 52 by a built-in program. Control unit 57 for controlling the optimal state; A drive 56 for driving the blower fan 54, the motor 53, and the heater 55 by the output signal of the controller 57; The control unit of the food waste processor, characterized in that the display unit 58 is connected to the output terminal of the control unit 57 to display the operation of the various sensors as a lamp. The control method of the control device of the food waste processor equipped with a control unit for reading the output signal of the temperature sensor, humidity sensor, reed switch, overload detection unit and optimally control the blower fan, motor, and heater. In Repeating the step of rotating the motor forward for a predetermined time, stopping for a predetermined time, and then rotating the motor for a predetermined time when the system is supplied with power and the reed switch is turned on; Stopping the driving of the motor and the heater and rotating the blower fan at a low speed when it is determined that the humidity inside the container is equal to or less than a prescribed value; If it is determined that the motor is overloaded, the motor rotates once and then detects the overload several times. If it is determined that the motor is overloaded, the operation of the motor and the heater is stopped and the blower fan is rotated at a low speed. Making a step, Food waste, characterized in that to stop the drive of the motor, heater, blower fan when the output of the reed switch is continuously changed for 60 to 84 hours by counting the time when the reed switch is in the on state Control method of processor.