KR100684111B1 - Refrigerating engine control method - Google Patents

Abstract

A high pressure sensor (10) for outputting a variable current in response to a pressure change is installed in a high pressure section which is a refrigerant discharge port of a compressor, and a low pressure section, which is a refrigerant suction port of the compressor, (20) for outputting a variable voltage, and a hydraulic pressure sensor (30) for outputting a variable voltage in accordance with a change in hydraulic pressure in the oil passage of the compressor, wherein the output of the high pressure sensor, the low pressure sensor and the hydraulic pressure sensor The control device 40 receiving the electrical signals from the high pressure sensor 10 calculates an electric signal input from the high pressure sensor 10 to a predetermined value and outputs a control signal to the cooling fan driving motor of the condenser, A control signal is outputted to the power supply relay when the input value is higher than the set pressure or the input value of the hydraulic pressure sensor 30 is lower than the set pressure And the freezing cycle is stopped.

High pressure sensor, low pressure sensor, hydraulic sensor, control device, condenser, cooling fan

Description

[0002] Refrigerating engine control method [0003]

1 is a schematic view showing a refrigerant circuit of a general refrigeration apparatus;

2 is a block diagram showing a control circuit of the refrigeration apparatus of the present invention

Description of the Related Art

10: high pressure sensor 20: low pressure sensor

30: Hydraulic pressure sensor 40: Control device

The present invention precisely detects a high pressure, a low pressure, and a hydraulic pressure of a refrigerating device in a digital manner, controls the cooling fan rotation speed of the condenser in proportion to the sensed value, and controls the operation and stop of the compressor The present invention relates to a refrigeration apparatus control method for reducing power consumption and preventing maintenance and repair costs by optimizing the efficiency of a refrigeration apparatus according to an external temperature to reduce power consumption and prevent occurrence of faults.

1, a conventional refrigeration apparatus includes a compressor 1 for compressing and discharging a refrigerant at a high pressure, a condenser 1 for cooling the refrigerant discharged at a high temperature and a high pressure by a plurality of cooling fans 2, (3), an evaporator (5) for expanding the condensed refrigerant through the expansion valve (4) to evaporate the refrigerant in the state of low temperature and low pressure and to circulate the evaporated low temperature and low pressure refrigerant back to the compressor (1) Pressure switch and a high-pressure gauge 6 are connected to a refrigerant discharge port of the compressor 1 by a capillary tube and a low-pressure switch and a low-pressure gauge 7 are connected to a refrigerant inlet of the compressor 1 by a capillary tube And the hydraulic pressure switch 9 and the oil pressure gauge 8 are connected to the oil passage of the compressor 1 by a capillary tube.

The high pressure switch 10 and the hydraulic pressure switch 9 are provided independently, and one high pressure switch is provided with a double pressure switch and a double pressure switch 9, And a switch 11.

Such a conventional refrigeration apparatus is a refrigeration system in which a high pressure switch, a low pressure switch and a hydraulic switch are spring-type devices such as bimetals, and when the pressure of the refrigerant, which is pressurized through the capillary, The fan 2 is rotated at a constant rotation speed to cool the refrigerant flowing in the condenser 3 and when the pressure becomes equal to or lower than a predetermined set pressure, the low pressure switch is operated so that one cooling fan 2 of the condenser 3 Or two of them are stopped. When the set pressure is exceeded, the high-pressure switch 6 is operated to shut off the driving power of the compressor 1. [

In this method, the error range of the set pressure is more than ± 10%, and the number of times that the cooling fan 2 is operated or stopped is infinitesimal, which makes it difficult to operate the noise and refrigeration cycle stably.

In addition, the hydraulic pressure switch 9 determines that the oil in the cylinder of the compressor 1 is insufficient when the sensed pressure is lower than a predetermined set value, and cuts off the driving power.

This hydraulic pressure switch 9 also has a large pressure error to be sensed, and the time for power-off of the switch is not constant.

Such a conventional refrigeration apparatus is constituted by an analog system in which a high pressure switch, a low pressure switch and a hydraulic pressure switch are simple switches for opening and closing a power source and operated according to a pressure applied through a capillary, Some cooling fans 2 continue to operate while the cooling fan 2 of the condenser 3 does not need to be driven in the winter when the temperature falls to below zero and the cooling fan 2 2) is not condensed even if it is operated at all, and it can be controlled only by driving or stopping the cooling fan or by driving only a part of it, so that it is driven at a constant rotation speed irrespective of the external temperature, It has become exhausted.

In addition, since the high-pressure switch, the low-pressure switch and the oil pressure switch have a deviation of ± 10%, hydraulic or high-pressure switches often operate beyond dangerous levels, thereby damaging the refrigerating device or shortening the service life And the like.

In order to solve the above-described problems, the present invention provides a digital pressure sensor that outputs a variable current according to a pressure change in a compressor discharge port, an intake port, and an oil passage, and the digital sensors transmit an electric digital signal to a control device (0 ~ 115%) of the rotational speed of the blowing fans according to the electric signal inputted by the control device, and when the set pressure or below the set pressure is detected, the power switch and the warning device are operated and the abnormal pressure in the cycle And it is an object of the present invention to provide a refrigeration system control method for preventing the compressor from being damaged by making it possible to monitor the operated part.

2, a high pressure sensor 10 for outputting a variable current (4 to 20 mA) in accordance with a pressure change (0 to 25 kgf / cm 2) to a high pressure portion of a refrigerant discharge port of a compressor is provided; Pressure sensor 20 for outputting a variable voltage (0 to 10 V) in accordance with a pressure change (-1 to 10 kgf / cm 2) to a low-pressure portion which is a refrigerant suction port of the compressor; A hydraulic pressure sensor 30 for outputting a variable voltage (0 to 10 V) in accordance with a hydraulic pressure change (0 to 10 kgf / cm 2) of the oil passage to the oil passage of the compressor; The controller 40 receives an electrical signal from the high pressure sensor 10 and the output of the low pressure sensor 20 and the hydraulic pressure sensor 30 and calculates a control value by controlling the cooling fan driving motor of the condenser (0 to 115%). When the input value of the high-pressure sensor 10 is equal to or higher than a certain pressure or the input value of the oil pressure sensor 30 is lower than a predetermined pressure, A signal is outputted to shut off the power supply and to be able to monitor the problem area, which is a basic feature of the technical method.

In the present invention, the high pressure sensor 10 senses the discharge port pressure of the compressor and inputs a current of 4 to 20 mA according to the pressure displacement to the control device 40, And outputs an electric control signal to the driving motor of the condenser cooling fan to proportionally control the rotation speed of the cooling fan (0 to 115%).

According to the present invention, when the outside air temperature rises or falls, the condensing operation of the condenser is changed. As a result, when the refrigerant pressure rises or falls, an electric current corresponding to the pressure is inputted to the control device 40 , The control device (40) controls the rotation speed of the cooling fan to operate the condenser in an optimal state, so that the power consumption and the condensation efficiency are prevented from being lowered more than necessary.

In addition, since the frequency (HZ) applied to the cooling fan driving motor is controlled by the control device 40, the present invention can automatically control the frequency of the cooling fan driving motor to be 0% to 115% It becomes possible to control it.

When the pressure (22 kgf / cm 2) set at the high pressure inputted from the high-pressure sensor 10 is maintained for a predetermined time (3 seconds), it is determined that there is a risk of a failure, and a control signal is outputted to the relay It is determined that it is not necessary to drive the cooling fan when the power is turned off and the error message is displayed and the operation is continued for a predetermined time (5 seconds) or less at the pressure (8 kgf / The controller automatically controls the relay to operate in a sleep mode. When the pressure exceeds the wake-up mode, the control unit 40 automatically resumes operation.

Meanwhile, in the present invention, the hydraulic pressure sensor 30 senses the hydraulic pressure in the cylinder of the compressor and inputs a variable voltage (0 to 10 V) according to the hydraulic pressure change (0 to 10 kgf / (6 kgf / cm2) or less and outputs a control signal to the power-off relay to stop the operation and to output an error message .

The present invention detects the drop of hydraulic pressure due to leaking or excessive consumption of freezing oil, and automatically stops operation when the pressure drops below the hydraulic pressure required to sufficiently lubricate the inner wall of the cylinder, thereby preventing the cylinder and the piston from being damaged.

In the present invention, the low-pressure sensor 20 detects the inlet pressure of the compressor and inputs a variable voltage (0 to 10 V) according to the pressure change (-1 to 10 kgf / cm 2) to the control device 40, 40 generates a warning sound indicating a low pressure state by outputting a control signal to the warning relay when the voltage value inputted to the alarm relay is maintained for a predetermined time (3 seconds) at a set pressure (1 kgf / If this low pressure condition occurs more than three times within the set time, the control device displays an error message and stops the driving motor of the cooling fan.

The present invention detects the pressure by the pressure sensors outputting electric digital signals and controls the speed and the power of the cooling fan by the electric signal, so that the capillary piping for pressure sensing and control is not needed, and it is easy to install and manage It reduces the trouble of the freezing device and controls the rotation speed of the cooling fan proportionally. Therefore, it responds sensitively to the change of external temperature and improves the efficiency by condensing the condenser in the optimal condition and makes the power consumption the most ideal.

In addition, since there is no error (± 0.2%) for pressure sensing, it improves stability by preventing mechanical overload and precisely detects gas leakage and hydraulic pressure to prevent catastrophic damage and prolong the life of the freezing device.

Claims (3)

Pressure sensor (10) for outputting a variable current (4 to 20 mA) according to a pressure change (0 to 25 kgf / cm 2) in a refrigerant discharge port high pressure portion of the compressor, Pressure sensor 20 for outputting a variable voltage (0 to 10 V) in accordance with a change in the oil pressure of the oil passage (0 to 10 kgf / cm 2) and a variable voltage A control device 40 for receiving an electric signal from the output side of the high pressure sensor 10 and the low pressure sensor 20 and the hydraulic pressure sensor 30 is set (0 to 115%) by controlling the frequency (HZ) by outputting a control signal to the cooling fan driving motor of the condenser according to the pressure value, When the input value of the oil pressure sensor 30 is equal to or higher than a predetermined pressure or when the input value of the oil pressure sensor 30 is lower than a predetermined pressure, And the power supply is interrupted to enable monitoring of a problem occurrence site. The control device (40) according to claim 1, wherein the control device (40) calculates a voltage value input from the low-pressure sensor (20) with a set value and outputs a control signal to the warning relay And the operation of the cooling fan driving motor is stopped when a predetermined number of such low pressure conditions occur. The low pressure sensor (20) according to claim 1, wherein the low pressure sensor (20) senses the pressure change amount and regards that the refrigerant gas is leaked if the set value or lower is more than a predetermined number of times within the set time, displays an error message, Wherein the refrigerating device is a refrigerating device.

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