KR20120000710A - Defrost point of time detector - Google Patents

Abstract

PURPOSE: A vacuum defrosting time detecting device is provided to maximize the operating efficiency of a forced ventilation type heat exchanger and reduce electric requirements by effective defrosting. CONSTITUTION: A vacuum defrosting time detecting device comprises a pressure connection chamber(112), an elastic diaphragm, an exterior air through-hole, and a switch. The pressure connection chamber is installed in an evaporation chamber(11) of a forced ventilation equation heat exchanger(10). The inner part of the elastic diaphragm installed inside a main body is connected to the pressure connection chamber and a pressure connecting tube(111). The exterior air through-hole is formed in the outer side of the elastic diaphragm. The switch is operated by a switch operation pin attached to the elastic diaphragm and controls the operation of the defrosting device.

Description

Vacuum Defrost Point Detection Device {Defrost point of Time Detector}

The present invention relates to a vacuum defrosting time detection device, the vacuum defrosting time detection device for detecting the defrosting time of the forced air type heat exchanger, the pressure is provided in the evaporation chamber 11 of the forced air type heat exchanger (10). A connection chamber 112; and an elastic diaphragm 120 installed inside the main body 110 and having an inner side 114 connected to the pressure connection chamber 112 and the pressure connection tube 111. An outside air hole 113 formed in the outer side 115 of the elastic diaphragm 120 of the main body 110 and a switch operation pin 131 attached to the elastic diaphragm 120 to operate the defrost apparatus. A switch 130 for controlling the operation; It relates to a vacuum defrosting point detection apparatus comprising a.

In general, in an evaporator that cools air, since air always has moisture, moisture in the air condenses and freezes, causing frost (snow / prost) to adhere to the surface of the cooling tube, and the frost grows to increase its thickness. As a result, the airflow amount of the evaporator decreases, and the heat passing rate (K value) of the heat transfer pipe is reduced, so that the low temperature in the refrigerator cannot be maintained. When this conception occurs, the temperature rise in the refrigerating chamber occurs due to the decrease in the cooling capacity, and as the evaporation temperature and the evaporation pressure decrease, the compression ratio increases, the volume efficiency decreases, the freezing capacity decreases, and the coefficient decreases. The required power is increased, there is a problem that the cylinder overheating, lubricating oil deterioration caused by the discharge gas temperature rise. Therefore, it is defrost to remove such frost and restore the cooling function.

This defrosting method is one of hot gas defrost method in which hot and high pressure gas from a compressor is directly put into an evaporator to heat an evaporator coil to defrost, and a refrigerant liquid treatment method generated in an evaporator in a hot gas defrost. The compressor discharge gas is stored in the compressor discharge gas through the thermo-bank to the condenser, and during defrosting, the refrigerant liquid condensed in the evaporator is passed there through, and after being evaporated, the heat storage tank prevents liquid compression. Defrost by thermo-bank, refrigerant in the evaporator is recovered, water defrost by water spraying 10 ℃ ~ 20 ℃ water on the evaporator coil after the blower is stopped, and during the defrost Is installed at a proper position of the evaporator, and is heated by defrosting. Brine) to prevent frost. Various defrosting methods, such as defrosting method by antifreeze spraying, are widely known and used.

However, in order to use these various defrosting methods efficiently, in most cases, considering the fact that efficient operation of the heat exchanger is difficult in the defrosting process, the defrosting process is accurately detected by starting the defrosting process and the end of the defrosting process. It is most important to operate the device.

As a conventional invention for detecting such a defrosting point, in the following Patent Document 1 Korean Patent Publication No. 10-2005-0012941 "Automatic Defrosting Method in an Air Conditioning Refrigeration Apparatus", a blowing fan before and after frosting of a freezing body on the surface of an evaporator. The current value of the motor 4 is detected by an ammeter 203 (ampere meter) and transmitted to the microprocessor. The current value of the motor 4 is compared with the set value by the microprocessor 200 (CPU). Alternatively, there has been disclosed a configuration in which a defrosting operation can be performed automatically by selectively operating the defrosting means 205 to operate the refrigeration apparatus.

However, since the conventional invention uses an indirect method of measuring the current value of the blower fan motor to detect the defrosting time point, the accuracy is inferior, and a microprocessor for comparing / processing the detected current value is used. There was a problem that the configuration is relatively complicated.

On the other hand, the following Patent Document 2 Korean Patent No. 10-0666680 "Defrost apparatus of the refrigerator and its control method", Defrost heater for generating heat to remove the frost layer formed on the cooler; A vibrator attached to the cooler to remove water droplets attached to surfaces of the cooler and the defrost heater; A first sensor for detecting a compressor driving integration time; A second sensor for sensing an operation and stop time of the defrost heater; A third sensor for sensing an operation and stop time of the vibration device; Disclosed is a configuration of a defrosting apparatus of a refrigerator and a method of controlling the same, comprising a control unit receiving a signal from the first, second, and third sensors to control the operation of the compressor, the defrost heater, and the vibration apparatus.

However, the existing invention also requires three sensors for its operation, and a configuration that requires a controller for processing and controlling signals detected by each sensor has a problem in that the configuration is very complicated.

Republic of Korea Patent Publication No. 10-2005-0012941 Republic of Korea Patent Registration 10-0666680

The present invention solves the problems of the existing invention described above, by the vacuum defrost point detection device of a very simple and inexpensive structure, by detecting the pressure change in the forced-air heat exchanger according to the idea of the timing and defrosting operation of the defrost operation It is possible to automatically operate the defrosting device by detecting the end point, and the object of the present invention is to maximize the operating efficiency of the forced-ventilated heat exchanger and to significantly reduce power consumption by efficient defrosting.

In order to achieve the above object, the vacuum defrosting time detection device according to the present invention is a vacuum defrosting time detection device for detecting a defrosting time point of a forced blowing heat exchanger, wherein the evaporation chamber 11 of the forced blowing heat exchanger 10 is provided. Pressure connection chamber 112 is installed in the; and, the elastic diaphragm 120 is installed inside the main body 110, the inner side 114 is connected to the pressure connection chamber 112 and the pressure connection tube 111. And an outside air hole 113 formed in the outer side 115 of the elastic diaphragm 120 of the main body 110; and operated by a switch operation pin 131 attached to the elastic diaphragm 120. A switch 130 for controlling the operation of the defrosting device; Characterized in that comprises a.

In addition, an operating pressure adjusting device (140) installed inside the main body (110) for adjusting the operating pressure of the elastic diaphragm (120); Characterized in that further comprises.

In addition, the operating pressure adjusting device 140, an adjusting device body 141, and is inserted into the control device body 141 is installed, connected through the elastic diaphragm 120 and the elastic connecting portion 144. A spring 142; and an adjustment screw 143 coupled to the outer end of the adjusting device body 141 and installed to adjust the elasticity of the spring 142; Characterized in that comprises a.

According to the present invention, a vacuum defrosting time detection device having a very simple and inexpensive structure detects the pressure change in the forced-air heat exchanger according to the conception, and detects the start point of the defrosting operation and the end point of the defrosting operation. It is possible to operate the defrosting device, maximizing the operation efficiency of forced blow heat exchanger and reducing the power consumption drastically by efficient defrosting, and preventing overload of the fan by reducing unnecessary defrosting time, thus damaging parts. There is an advantage that can be prevented in advance.

1 is an overall configuration diagram of a forced blow type heat exchanger provided with a vacuum defrost time detection apparatus according to an embodiment of the present invention.
2 is a configuration diagram of a vacuum defrost time detection apparatus according to an embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings, a vacuum defrosting time detection apparatus according to an embodiment of the present invention will be described in detail. First, it should be noted that, in the drawings, the same components or parts are denoted by the same reference numerals whenever possible. In describing the present invention, detailed descriptions of related well-known functions or configurations are omitted in order not to obscure the subject matter of the present invention.

1 and 2, the vacuum defrosting time detection device of the present invention, in the vacuum defrosting time detection device for detecting the defrosting time of the forced air type heat exchanger, the evaporation of the forced air type heat exchanger (10). A pressure connecting chamber 112 installed in the chamber 11 and an elastic body installed inside the main body 110 and connected to the pressure connecting chamber 112 by the pressure connecting tube 111. Diaphragm 120; and the outer air through-hole 113 formed in the outer side 115 of the elastic diaphragm 120 of the main body 110; and the switch operation pin 131 attached to the elastic diaphragm 120 The switch 130 is operated by, and controls the operation of the defrosting device; Characterized in that comprises a.

At this time, the defrosting device is a heat transfer type, high pressure gas spray type, spraying type, operation stop type, air spray type heat storage tank (thermo-bank) according to the characteristics of the forced air type heat exchanger in which the vacuum defrosting point detection device of the present invention is used. It may be configured to include any one or more of a variety of defrosting apparatus including a). Since the configuration and operation of the defrosting apparatus is a technique widely known and used in the field to which the present invention belongs, a detailed description thereof will be omitted.

On the other hand, the main body 110 is installed inside the main body 110, as shown in Figure 2 in order to be able to properly adjust the defrosting time by adjusting the operating pressure of the elastic diaphragm 120. An operating pressure adjusting device (140) for adjusting an operating pressure of the elastic diaphragm (120); It is preferably configured to further include. The embodiment of the operating pressure regulating device 140 can be implemented in a wide variety of embodiments, as shown in Figure 2 as a preferred embodiment, the operating pressure regulating device 140 is a regulating device Body 141; And, inserted into the adjuster body 141 is installed, the spring 142 is connected through the elastic diaphragm 120 and the elastic connecting portion 144; And, the adjuster body 141 Adjustable screw coupled to the outer end of the) is installed to adjust the elasticity of the spring (142) (143); It is preferably configured to include.

Hereinafter, the operation of the vacuum defrost point detection apparatus according to an embodiment of the present invention will be described.

First, when the frosting reaches 50 to 70% in the forced blow type heat exchanger, the inside of the evaporation chamber 11 is slightly lower than the atmospheric pressure of 3 to 5 mmH₂O by the operating load caused by the frosting of the evaporator and the suction power of the blowing fan. Is in a vacuum state. This vacuum state is transmitted from the pressure connection chamber 112 to the inner side 114 of the elastic diaphragm 120 through the pressure connection tube 111. In this case, since the outer side 115 of the elastic diaphragm 120 is connected to the outside air through the outside air hole 113, the elastic diaphragm 120 is contracted toward the inner side 114. The movement of the elastic diaphragm 120 is transmitted through the switch operation pin 131 and operates the defrosting device by operating the switch 130 to perform the defrosting process.

Next, when the defrosting process is performed to defrost the evaporator, the pressure is restored to the pressure close to the atmospheric pressure of the outside air again inside the evaporation chamber 11. This pressure recovery is again transferred from the pressure connecting chamber 112 to the inner side 114 of the elastic diaphragm 120 through the pressure connecting tube 111, so that the elastic diaphragm 120 returns to its original position. It is possible to terminate the defrost process by releasing the operation of the 130.

On the other hand, the pressure and defrosting time for operating the elastic diaphragm 120 can be adjusted using the operating pressure adjusting device 140. That is, when the elasticity of the spring 142 is increased by using the adjusting screw 143 of the operating pressure adjusting device 140, the defrosting point is set so that the pressure at which defrosting is started has a greater difference from atmospheric pressure. If the elasticity of the spring 142 is adjusted to reduce, the defrost timing may be adjusted so that the pressure at which the defrost is started has a smaller difference from the atmospheric pressure.

In the above, the best embodiments have been disclosed in the drawings and specification. Although specific terms have been used herein, they are used only for the purpose of describing the present invention and are not intended to limit the scope of the invention as defined in the claims or the claims. Therefore, those skilled in the art will appreciate that various modifications and equivalent embodiments are possible without departing from the scope of the present invention. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended utility model claims.

10: forced blow heat exchanger 11: evaporation chamber
100: vacuum defrost time detection device
110: main body 111: pressure connection tube
112: pressure connection chamber 113: outside air through
120: elastic diaphragm
130: switch 131: switch operation pin
140: working pressure regulator
141: adjuster body 142: spring
143: adjusting screw 144: elastic connection

Claims (3)

In the vacuum defrosting time detection device for detecting the defrosting time of the forced air type heat exchanger,
A pressure connection chamber 112 installed in the evaporation chamber 11 of the forced blowing heat exchanger 10;
An elastic diaphragm 120 installed inside the main body 110 and having an inner side 114 connected to the pressure connecting chamber 112 and the pressure connecting tube 111;
Outside air holes 113 formed in the outer side 115 of the elastic diaphragm 120 of the main body 110;
A switch 130 that is operated by a switch operation pin 131 attached to the elastic diaphragm 120 and controls an operation of a defrosting device; Vacuum defrost time detection device, characterized in that comprising a.
The method according to claim 1,
An operating pressure adjusting device (140) installed inside the main body (110) for adjusting an operating pressure of the elastic diaphragm (120); Vacuum defrost point detection apparatus further comprises a.
The method according to claim 2,
The operating pressure adjusting device 140,
Regulator body 141;
A spring 142 inserted and installed in the adjusting device body 141 and connected to the elastic diaphragm 120 and the elastic connecting portion 144;
An adjusting screw 143 coupled to the outer end of the adjusting device body 141 and installed to adjust the elasticity of the spring 142; Vacuum defrost time detection device, characterized in that comprising a.

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