KR200270444Y1 - The apparatus for controlling a flow of refrigerant electronically - Google Patents

Abstract

The present invention relates to an electronic refrigerant flow control device of a screw chiller, the screw chiller for controlling the flow of refrigerant by converting the high-temperature and high-pressure refrigerant gas flowing out from the condenser in the water-cooled screw chiller to a low-temperature low-pressure liquid through the electronic actuator Its purpose is to provide an electronic refrigerant flow control device.

According to the present invention, when the refrigerant is newly introduced, even skilled workers as well as unskilled workers can adjust the valve seat of the expansion valve quickly and accurately by digital numerical input and automatic mode selection.

Description

Electronic Refrigerant Flow Control Device of Screw Refrigerator {THE APPARATUS FOR CONTROLLING A FLOW OF REFRIGERANT ELECTRONICALLY}

The present invention relates to an electronic refrigerant flow control device of a screw refrigerator, and more particularly, to an electronic refrigerant flow control device of a screw refrigerator for controlling the flow of the refrigerant in the screw refrigerator using an electronic actuator.

As is well known, the existing screw refrigerator is a device that is mounted on a predetermined portion of the building to constantly reduce the room temperature while discharging heat inside the building to the outside through various refrigeration ducts.

More specifically, the conventional screw chiller will be described in detail with reference to the accompanying drawings. FIG. 1A is a block diagram illustrating a configuration of a screw refrigerator according to a conventional embodiment, and FIG. 1B is a graph illustrating changes in pressure and enthalpy according to a circulation state of the screw refrigerator according to a conventional embodiment.

Referring to this, the change in the amount of refrigerant in the conventional screw refrigerator 100 compresses the refrigerant gas in the compressor 10 and releases the compressed high-temperature high-pressure refrigerant gas, and the high-temperature high-pressure refrigerant gas is a water-cooled condenser 20. By passing through the heat is discharged to the outside of the condenser is converted into a liquid at high temperature and high pressure.

In addition, since the evaporator side pipe is provided with a temperature sensing unit 30, a low temperature low pressure liquid is passed through a diagrammatic expansion valve 50 in which the valve seat opens and closes according to volume change of the refrigerant by detecting a change in temperature. The low temperature low pressure liquid is converted into the water-cooled evaporator 60.

At this time, the evaporator 60 takes cold heat from the refrigerant and is sent to a fan coil unit or an air conditioner in the room to perform cooling. The refrigerant gas in the evaporator 60 absorbs heat from the water-cooled evaporator, thereby compressing the compressor 10. Inhaled).

Therefore, the compressor 10 compresses and circulates in the circulation cycle of the condenser 20, the expansion valve 50, the evaporator 60, and the compressor 10 again. Reference numeral 40 is a dryer for drying the moisture contained in the gas.

The thermostatic expansion valve 50 is provided with a valve seat that plays a major role as the expansion valve 50 according to the amount of the condenser 20, the evaporator 60, and the injected refrigerant, the valve seat is variable in the opening degree The refrigeration capacity is determined, the valve seat of the conventional thermostatic expansion valve 50 is to manually fine-tune the valve seat of the expansion valve 50 through an external adjustment screw to adjust the cycle of the refrigerant. In this case, since fine adjustments must be made by hand, skilled workers also have a great deal of prudence and inconvenience, and inexperienced users have many difficulties in adjusting valve seats.

The present invention has been made in view of the above-described circumstances of the prior art, and the screw chiller for controlling the flow of the refrigerant by converting the high-temperature and high-pressure refrigerant gas flowing out of the condenser in the water-cooled screw chiller to a low-temperature low-pressure liquid through the electronic actuator Its purpose is to provide an electronic refrigerant flow control device.

Figure 1a is a block diagram showing the configuration of a screw refrigerator according to a conventional embodiment.

1B is a graph showing changes in pressure and enthalpy according to a circulation state of a screw refrigerator according to a conventional embodiment.

Figure 2 is an enlarged cross-sectional view schematically showing an expansion valve of the electronic refrigerant flow control apparatus of the screw refrigerator according to an embodiment of the present invention.

Figure 3 is a schematic diagram showing the configuration of an electronic refrigerant flow control device of a screw refrigerator according to an embodiment of the present invention.

Figure 4 is a block diagram showing the circuit configuration of the electronic refrigerant flow control device of the screw refrigerator according to an embodiment of the present invention.

* Description of the symbols for the main parts of the drawings *

10 compressor 20 condenser

40: dryer 50, 51: expansion valve

60: evaporator 82: key input unit

90: valve seat opening control unit 94: LCD drive unit

96: data storage unit 98: control unit

In order to achieve the above object, according to a preferred embodiment of the present invention is provided in a screw chiller provided in the building and connected by a refrigeration duct, the compressor, a condenser, an evaporator and an expansion valve therein, the expansion valve A key input section for performing various key inputs for electronically controlling the valve seat of the vehicle; A temperature sensing unit mounted at a pipe line around the evaporator to sense a temperature of a refrigerant; A valve seat opening degree adjusting unit for adjusting the opening degree of the valve seat provided in the expansion valve according to the key operation of the key input unit; A valve seat opening control driver for driving the valve seat opening control unit; An LCD driver for driving an LCD; A data storage unit for storing the valve seat adjustment screw drive data input through the key input unit and the preset adjustment screw opening / closing data matched to an input of the refrigerant amount in the automatic adjustment mode; The temperature signal is applied from the temperature sensing unit and the control key signal is applied to extract the optimum preset adjustment data to control the valve seat opening adjustment screw, and the optimum data according to the refrigerant amount and the detected temperature value when selecting the automatic mode. Provided is an electronic refrigerant flow control device for a screw chiller, characterized in that consisting of a control unit for controlling the opening degree of the valve seat adjustment screw by extracting.

Preferably, the key input unit includes an input key for inputting a refrigerant amount; There is provided an electronic refrigerant flow control apparatus for a screw refrigerator comprising an automatic mode selection key for automatically adjusting the valve seat according to the amount of refrigerant.

More preferably, the valve seat opening degree adjusting portion is provided in the expansion valve and coupled to the control screw shaft of the valve seat for blocking the flow of the refrigerant while increasing the driving force; An electronic coolant flow control apparatus for a screw chiller is provided, wherein the gear of the shaft is fastened to the decompression gear and the step motor is capable of forward and reverse driving.

Hereinafter, the present invention will be described in detail with reference to the drawings.

First, the electronic coolant flow control device 70 of the screw chiller according to the present invention is provided in the screw chiller 200 to easily adjust the valve seat to a digital signal even by inexperienced people to immediately check the adjustment value with the naked eye. Device.

Preferably, since the electronic refrigerant flow control device 70 of the screw refrigerator according to the present invention is capable of driving an automatic control mode therein, when the user inputs the amount of refrigerant and selects the automatic mode, the valve seat is preset. The adjustment screw is automatically adjusted by the opening value.

Figure 2 is an enlarged cross-sectional view schematically showing an expansion valve of the electronic refrigerant flow control apparatus of the screw refrigerator according to an embodiment of the present invention.

Referring to this, an expansion valve 51 is interposed in the pipe line 12 between the condenser 20 and the evaporator 60 to control the flow of the refrigerant, and the expansion valve 51 opens and closes the valve. The valve seat 52 to be performed is provided inside, and the spring 53 is interposed in the both sides predetermined part of the valve seat 52.

In addition, the adjustment screw shaft 54 is coupled to the center of the upper surface of the valve seat 52, a plurality of reduction gears 56 are fastened to the upper end of the adjustment screw shaft 54 to increase the driving force, the reduction gear Reference numeral 56 is coupled to the motor shaft of the forward and reverse step motor 90.

Figure 3 is a schematic diagram showing the configuration of the electronic refrigerant flow control device of the screw refrigerator according to an embodiment of the present invention, Figure 4 is a circuit of the electronic refrigerant flow control device of the screw refrigerator according to an embodiment of the present invention. It is a block diagram showing the configuration.

Referring to this, the electronic refrigerant flow control device 70 of the screw refrigerator according to the present invention is mounted near the expansion valve 51 installed in the refrigerator duct pipe to automatically adjust the valve seat 52, the screw The electronic coolant flow control device 70 of the refrigerator consists of a casing 71 of a hexahedron, the front of the casing 71 has an LCD 72 for outputting various data and an automatic mode selection button 74a. And a manual mode selection button 74b, a data control key 78 for inputting data in the manual mode, a refrigerant amount input selection button 76, and a confirmation button 80.

Referring to Figure 4, showing the configuration of the electronic coolant flow control device 70 of the screw refrigerator according to the present invention, reference numeral 82 denotes a key input unit for performing various data input, 31 is mounted on the pipe of the evaporator 60 side And a temperature sensing unit for sensing the temperature of the refrigerant.

Reference numeral 92 denotes a valve seat opening control drive for driving a valve seat opening degree adjusting unit 90 (reverse step motor of FIG. 2) for adjusting the opening degree of the valve seat.

Also, reference numeral 94 denotes an LCD driver for driving the LCD 72, and reference numeral 96 matches valve seat adjustment screw drive data input through the key input unit 82 and refrigerant amount input in the automatic adjustment mode. And a data storage unit for storing the preset adjustment screw opening and closing data.

On the other hand, the reference numeral 98 receives a temperature signal and the control key signal is applied to extract the optimal preset adjustment data to control the valve seat opening adjustment screw, and the optimum value according to the refrigerant amount and the sensed temperature value input during automatic mode selection Represents a control unit for extracting data to control the opening degree of the valve seat adjustment screw.

With reference to the accompanying drawings, the function and action of the electronic refrigerant flow control apparatus of the screw refrigerator according to an embodiment of the present invention of the above configuration will be described in detail.

The operation of adjusting the opening value of the valve seat adjustment screw by driving the valve seat opening degree adjusting unit 90 made of a positive and negative step motor through manual key input is included in the contents of automatic adjustment, and thus the description of the opening degree is automatically performed. Describe the action to be controlled.

First, the adjustment screw opening value of the valve seat suitable for each refrigerant amount is input to the electronic refrigerant flow control device 70 of the screw refrigerator in advance.

In that state, the automatic mode selection button 74a of the key input unit 82 provided in the control device is operated, the refrigerant amount input selection key 76 is operated, and then the data control key 78 is adjusted. A certain amount of refrigerant is input to the LCD 72, and the confirmation button 80 is operated.

Then, the controller 98 extracts the opening / closing data of the adjustment button for the corresponding refrigerant amount and the refrigerant temperature from the data storage unit 96, and the voltage value of the valve seat opening degree adjusting unit 90 matching the opening / closing data. By extracting the control signal to the valve seat opening adjustment drive unit 92 to achieve the optimum valve seat 52 opening and closing.

Accordingly, the change in input and enthalpy for the refrigerant of the whole screw refrigerator is formed in the same manner as the existing change graph as shown in FIG. 1B, which is a change graph when the valve seat is optimally set.

On the other hand, the electronic coolant flow control device of the screw refrigerator according to the embodiment of the present invention is not limited to the above embodiments, but various modifications can be made without departing from the technical gist of the present invention.

As described above, the electronic refrigerant flow control device of the screw refrigerator according to the present invention can adjust the valve seat of the expansion valve quickly and accurately by the digital numerical input and the automatic mode selection, even if skilled workers as well as unskilled workers when the refrigerant is newly introduced. There is an effect.

Claims (3)

In a screw chiller provided inside the building and connected by a refrigeration duct, and having a compressor, a condenser, an evaporator and an expansion valve therein, A key input section for performing various key inputs for electronically controlling the valve seat of the expansion valve; A temperature sensing unit mounted at a pipe line around the evaporator to sense a temperature of a refrigerant; A valve seat opening degree adjusting unit for adjusting the opening degree of the valve seat provided in the expansion valve according to the key operation of the key input unit; A valve seat opening control driver for driving the valve seat opening control unit; An LCD driver for driving an LCD; A data storage unit for storing the valve seat adjustment screw drive data input through the key input unit and the preset adjustment screw opening / closing data matched to an input of the refrigerant amount in the automatic adjustment mode; The temperature signal is applied from the temperature sensing unit and the control key signal is applied to extract the optimum preset adjustment data to control the valve seat opening adjustment screw, and the optimum data according to the refrigerant amount and the detected temperature value when selecting the automatic mode. Electronic refrigerant flow control device for a screw chiller, characterized in that consisting of a control unit for controlling the opening degree of the valve seat adjustment screw by extracting. 2. The apparatus of claim 1, wherein the key input unit comprises: an input key for inputting a refrigerant amount; Electronic refrigerant flow control device for a screw chiller, characterized in that it comprises an automatic mode selection key for automatically adjusting the valve seat in accordance with the amount of refrigerant. According to claim 1, wherein the valve seat opening degree adjustment portion is provided in the expansion valve and coupled with the control screw shaft of the valve seat for blocking the flow of the refrigerant and increases the driving force; An electronic refrigerant flow control apparatus for a screw refrigerator comprising a step motor which is coupled to a gear of the shaft thereof and is capable of forward and reverse driving.