KR200416645Y1 - Structure of ice guidance device for icehouse ice discharge of ice machine - Google Patents

Abstract

The present invention relates to a structure of an ice guiding device for discharging ice in the ice making room of the ice maker for discharging the ice in the ice making room of the ice making machine, and more specifically, the compressor 11 and A condenser 12, a machine room 10 for installing the condenser fan 13 and the like, and an ice storage room 20 for storing iced ice, and an evaporator 15 of a refrigeration cycle above the ice storage room 20. And a plurality of injection nozzles 37 for spraying water onto the ice guide plate 100 and ice tray 31 for discharging ice, and storing water for ice making. In the ice maker which comprised the ice-making chamber 30 which formed the water storage tank 38,

When the temperature of the condensed refrigerant reaches 35 degrees Celsius or more by installing a temperature sensor 14 to detect the temperature of the condensation gas in the gas line of the condensation gas discharge side of the condenser 12 installed in the machine room 10, the condensation fan ( 13) to discharge the condensation heat and to stop the condensation fan (13) when the temperature of the refrigerant is less than 35 ℃ Celsius, to perform the refrigeration cycle to ensure that the temperature of the circulating refrigerant always maintain a certain range of temperature,

When the ice is iced from the ice tray 31, the pump 40 is operated once or twice to spray water from the spray nozzle 37 to impact the ice tray 31 to make the ice tray 31. ) To defrost ice that has not been defrosted

The sterilization lamp 100 is installed in the water storage tank 38 of the ice making room 30,

When the ice deiced in the ice making chamber of the ice maker is deformed by deforming the structure of the ice guide plate 100 installed under the ice making frame 30 of the ice making chamber 30 to guide it out of the ice making chamber when the ice is defrosted. By transforming the structure of the ice guide device to guide it out of the ice making chamber into a plate shape, the ice is prevented from being caught in the ice guide device during defrosting. It is convenient to use by minimizing the operation noise by preventing the noise generated by dropping directly from the water of the spray nozzle and the water supplied to the water stored in the reservoir by flowing down from the ice guide plate without falling directly to the surface of the water stored in the tank. The purpose is.

Ice making body, refrigeration cycle, bypass line, bypass valve, pump, control system, ice making room, ice making frame, ice guide board, through hole

Description

Structure of ice guidance device for icehouse ice discharge of ice machine}

1 is an exemplary view of the overall configuration of the present invention.

Figure 2 is an exemplary view of the ice-making chamber and water supply line configuration of the main part of the present invention.

Figure 3 is an enlarged view showing the configuration of the ice making frame that is the main part of the present invention.

Figure 4 is an exemplary view illustrating a refrigeration cycle configuration of the present invention.

5 is an exemplary view illustrating a control system configuration of the present invention.

Figure 6 is an illustration of the configuration of the ice guide plate that is the main part of the present invention.

♣ Explanation of symbols for the main parts of the drawing

1: ice making element.

10: machine room. 11: compressor. 12: condenser.

13: Condensation fan. 14: Temperature sensor. 15: Evaporator.

16: Bypass line. 17: Bypass valve.

20: Ice room. 21: Withdrawal statement.

30: Ice-making room. 31: Ice tray. 32: air ball.

33: Ice tray support plate. 34: Waterman. 36: Exit door.

37: Reservoir. 38: injection nozzle. 39: drainage line.

40: pump.

50: water pipe. 51: water supply control valve.

60: insulation. 70: water pipe. 80: sterilization lamp.

90: control system.

100: ice guide. 101: through the air.

The present invention relates to a structure of an ice guiding device for discharging ice in an ice maker of an ice maker for discharging ice in an ice maker of an ice maker, and more specifically, to make ice deiced in an ice maker of an ice maker. By deforming the structure of the ice guide device that guides it out of the ice making room into a plate shape, it prevents the ice from being caught in the ice guide device during defrosting. It does not fall directly to the surface of the water stored in the reservoir, but flows from the ice guide plate to prevent noise caused by the water of the spray nozzle and the water falling directly on the surface of the water stored in the reservoir to minimize operating noise. The purpose is to.

With the development of industry, the standard of living has been developed, and in order to have a more cultural life regardless of the change of season, it is heated in cold winter and ice is produced in hot summer. As a result, the use of small ice makers to produce ice as the amount of usage increased gradually, which was initially used for the purpose of keeping the seafood fresh for a long time. Is gradually increasing.

In response to the growing demand for such small ice makers, various types of ice makers have been developed and manufactured. All ice makers make ice trays that are integrated with existing refrigeration cycles for producing ice and evaporators of these refrigeration cycles. It consists of an ice chamber and the water stored in the water storage tank of the ice-making chamber by a nozzle and supplies to the said ice-making frame.

Here, the refrigeration cycle is composed of a compressor for compressing the refrigerant gas, a condenser for cooling the compressed refrigerant gas in a condensation fan and an evaporator for evaporating the condensed gas to the liquid phase and a closed circulation circuit while the refrigerant gas is circulated in the closed circulation circuit. The evaporator absorbs the latent heat of evaporation required to evaporate the refrigerant from the outside of the evaporator, thereby lowering the temperature around the evaporator to obtain the temperature required for freezing. When the evaporator is applied to a refrigerator, a refrigerator is produced and an ice maker is applied. Icemaker will be built.

In constructing an ice maker by applying the refrigeration cycle of the above-described configuration, in the freezer of a refrigerator used in a general household, first, the water for ice making is put in a predetermined container and put in a closed space in which an evaporator is installed. This is done as a means of ice making, but because ice freezes from the surface of the deceased person, the ice frozen into a small portion of the ice due to the volume of the ice expanding into the ice. Opaque ice-making has lost its value as a commodity.

The ice making machine of the ice making room is made of material with excellent thermal conductivity and formed to be integrally attached to the evaporator of the refrigerating cycle, and thin water flows on the surface of the ice making room so that ice is frozen from the inside of the ice making machine. And then further divided the ice maker's ice tray into pieces of ice suitable for the user's use, and then forming these ice trays face down, and then shooting water under the ice chamber into the ice tray. In order to make the ice freeze from the inner surface of the frame, and to make it more convenient, it is constantly developed about the external conditions, the temperature of the ice making room, the water supply means, etc., and their operation is interconnected to make ice making easier and easier. Developed to build.

As the ice makers are distributed to small businesses and homes, it is important to minimize noise generated during operation of the ice makers and to supply quieter ice makers and to smoothly discharge the iced ice during the defrosting.

However, the ice makers developed so far are constructed with a wire mesh structure of an ice guide device that guides the ice de-iced in the ice-making room of the ice-making machine while it is iced out of the ice-making room. This is caused by problems such as the noise generated when the water is sprayed from the nozzle during ice making and supplied to the ice making frame, and the fresh water falls directly onto the surface of the water stored in the reservoir and the noise generated when the ice is dropped into the wire mesh. There were many problems in use because of the high noise driving.

The present invention constitutes a machine room for installing a compressor, a condenser, a condensation fan, etc. and an ice storage room for storing iced ice in view of the above problems, and an evaporator of the freezing cycle above the inside of the ice storage room. The ice tray is formed in close contact with an ice guide plate for discharging ice, a plurality of spray nozzles for spraying water on the ice tray, and a reservoir for storing water for ice making. When the ice is removed, the structure of the ice guiding device that guides it out of the ice making chamber is transformed into a plate arranged with only a plurality of through-holes through which the stream of water sprayed from the nozzle passes. Water is sprayed from the nozzle during ice making and supplied to the ice tray It is convenient to use by minimizing the operation noise by preventing the noise generated by dropping the water of spray nozzle and water directly to the surface of the water stored in the reservoir by flowing down from the ice guide plate without falling directly to the surface of the water stored in the reservoir. I did it.

The present invention comprises a machine room for installing a compressor, a condenser, a condenser fan, etc. necessary for performing a refrigeration cycle, and an ice storage room for storing iced ice, and an ice making frame configured to be in close contact with the evaporator of the refrigeration cycle at an upper side of the ice storage room. In the ice making machine comprising an ice guide plate for discharging ice and a plurality of spray nozzles for spraying water on the ice making frame and a reservoir for storing water for ice making.

When the ice iced in the ice-making chamber is defrosted, the structure of the ice guide device for guiding it out of the ice-making chamber is deformed into a plate-like arrangement of a plurality of through-holes through which water streams sprayed from the nozzles are formed, and the material is formed as a site. It prevents the ice from being caught between the grills, and it is sprayed from the nozzle during ice making and supplied to the ice making frame, and the falling water and fresh water are flowed from the ice guide plate instead of falling directly to the surface of the water stored in the reservoir. Water and water to be supplied is to be convenient to use by minimizing the operation noise by preventing noise generated by falling directly on the surface of the water stored in the reservoir, which will be described in detail based on the accompanying drawings.

 On the lower side of the ice making body 1, a machine room 10 for installing a compressor 11, a condenser 12, a condensation fan 13, and the like necessary for performing a refrigeration cycle is constituted, and on the machine room 10, an ice drawing door ( An ice storage chamber 20 for automatically storing iced ice having 21) is configured, and an ice making chamber 30 is formed above the ice storage chamber 20.

Here, the ice making chamber 30 has an ice making frame 31 configured to be in close contact with the evaporator 15 of the refrigerating cycle at an upper side thereof, and has an inlet facing downward, and discharges ice under the ice making frame 31. Install the ice guide plate 100 inclined to form an discharge door 36 on its end side.

And the lower side of the ice guide plate 35 to form a plurality of injection nozzles 37 for injecting water to the ice making frame 31 and to form a reservoir 38 for storing the water required for ice making to the lower side.

Here, the reservoir 38 is provided with a sterilization lamp 80 for sterilizing the water stored in the reservoir 38.

Looking at the structure for supplying the water required for ice making in the ice making body (1) configured as described above, holding the ice making frame 31 of the ice making room 30, the ice making frame support plate 33 formed with a plurality of water supply holes 34 The water supply pipe 50 is connected to an external water pipe so as to supply water on the upper side of the), and at one of the water supply pipes 50, the ice of the ice making machine 31 becomes iced to supply a certain amount of water when the ice is started. A water supply control valve 51 for controlling is configured.

Water supplied to the ice-making frame support plate 33 installed on the ice-making chamber 30 to hold the ice-making frame 31 is evenly spread on the ice-making frame support plate 33 to form a water supply hole formed in the ice-making frame support plate 33. 34 is formed in the reservoir 38 for storing the water flowing down through the 34, the drain line 39 for overdraining the excessively supplied water, and forcibly pumped the water stored in the reservoir 38 to the injection nozzle 37 The pump 40 is configured to be.

In this case, the pump 40 opens the bypass valve 17 of the bypass line 16 to defrost ice that has been iced in the ice making machine 31, and controls the water supply of the water supply pipe 50 connected to the water pipe 70. The valve 51 is configured to control the system 90 to be operated twice shortly when the defrosting is performed, and to be operated until the defrosting is completed and the deicing is started to become full ice.

In addition, the configuration of the refrigeration cycle for cooling the ice frame 31 is installed in close contact with the compressor 11 and the condenser 12 installed in the machine room 10, and the ice frame 31 of the ice box 30. One evaporator 15 is connected to each other so that the gas compressed in the compressor 11 is condensed by dissipating heat of condensation by the condenser fan 13 in the condenser 12, and then moved to the evaporator 15 to evaporate. By the way, between the compressor 11 and the condenser 12 is installed by the hot gas moving bypass line 16 is directly connected to the evaporator 15 and is selectively opened and closed by the control of the control system 90 The pass control valve 17 is installed to supply hot gas compressed by the compressor 11 to the evaporator 15 without being condensed in the condenser 12 to heat the ice making frame 31 to be filled with ice in the ice making frame 31. Melt the contact surface with the ice making frame 31 of the ice and the ice to the ice making frame 31 The foundation organized to talbing.

In addition, a condenser fan 13 is installed on the condenser gas discharge side gas line of the condenser 12 installed in the machine room 10 by detecting a temperature of the condensate gas. By selectively starting and stopping, the temperature of the gas delivered from the condenser 12 to the evaporator 15 installed in the ice making chamber 30 is maintained at a constant temperature regardless of the season.

Here, the machine room 10 of the ice making body 1 is configured to allow the outside air to be smoothly ventilated, and the ice storage room 20 in which the ice making room 30 is configured is wrapped with an insulating material 60 so as to be insulated with an external temperature. It is configured to not melt the ice, the ice-making frame 31 of the ice-making chamber 30 has an air hole 32 is opened in the upper end so that the ice filled ice easily fall out, and the inlet side has a wide configuration.

Referring to the use state of the present invention configured as described above are as follows.

First, the ice machine main body 1 is installed in the machine room 10 in a place where the ice maker is to be installed while the wind is well, and the water supply pipe 50 is connected to the water pipe 70, and the drain line 39 is connected to the sewer. After the installation, the power supply for operating the ice maker is supplied to the compressor 11, the condenser 12, and the condensation fan 13, so that the refrigeration cycle is operated and the control system 90 is operated to supply the water supply pipe ( When water is supplied by opening the water supply control valve 51 of 50), the water supplied from the water supply pipe 50 is evenly spread on the ice making support plate 33, flows down through the water supply hole 34, and receives from the ice guide plate 100. It flows into the reservoir 38 and collects.

At this time, the ice-making water accumulated in the reservoir 38 is sterilized by the sterilization lamp 100 to be in a clean state without bacteria.

In the above state, when the ice making water required for ice making in the water storage tank 38 is sufficiently accumulated, the control system 90 operates to shut off the water supply control valve 51 to stop the water supply and operate the pump 40 to operate the water storage tank ( 38, the water is injected into the spray nozzle 37, and the ice-making water is injected into the ice tray 31 through the through hole 101 of the ice guide plate 100 in the spray nozzle 37.

At this time, the water sprayed from the spray nozzle 37 and supplied to the ice making machine 31 does not fall directly to the surface of the water stored in the water storage tank 38, but the ice guide plate 100 receives and flows the water of the spray nozzle 37. The noise generated by falling directly on the surface of the water stored in the reservoir 38 is minimized to minimize the operation noise.

As the above state continues, when ice is frozen inside the ice-making frame 31 and the ice is frozen, the control system 90 which recognizes this is operated to stop the operation of the pump 40 and at the same time the compressor 11 of the refrigerating cycle. Open the bypass valve (17) installed in the bypass line (16) directly installed to the evaporator (15) from the compressor (11) to send hot hot gas having compressed heat to the evaporator (15) directly to the evaporator (15). Heat the ice tray 31 integrated with the melted ice in the ice tray 31 to be freed from the ice tray 31.

At the same time, the water supply control valve 51 of the water supply pipe 50 is opened to supply water to the upper part of the ice making frame support plate 33 to melt the frozen ice on the ice making frame support plate 33, and the ice flows into the water storage tank so that the ice flows into the ice making frame 31. When ice is removed from the ice sheet, the pump 40 is operated once or twice to spray water from the spray nozzle 37 to impact the ice making frame 31 to remove ice that has not been removed from the ice making frame 31. Let's do it.

Ice defrosted from the ice tray 31 by the above operation is taken in the ice storage chamber 20 by passing through the discharge door 36 on the ice guide plate 100 and water is collected in the reservoir 38 so that ice making is completed. When the water supply control valve 51 is cut off by the operation of the control system 90 again, the supply of water is stopped and the bypass valve 17 is blocked so that the refrigerant gas is condensed in the condenser 12 and supplied to the evaporator 15. At the same time, the pump 40 operates to spray the ice making water of the water storage tank 38 into the ice making frame 31 by the spray nozzle 37 to make ice.

In the process of performing the above operation, the temperature sensor 14 installed on the side from which the condensed refrigerant of the condenser 12 is discharged continuously detects the temperature of the condensed refrigerant, so that the temperature of the refrigerant detected from the temperature sensor 14 is increased. When the temperature reaches 35 ° C. or higher, the condensation fan 13 is driven to discharge the condensation heat, and when the temperature of the refrigerant reaches 35 ° C. or lower, the condensation fan 13 is stopped to perform a refrigeration cycle. Maintain a range of temperatures.

As described above, the present invention deforms the structure of the ice guide device for guiding the ice deicing ice in the ice making room out of the ice making room into a plate arranged only a plurality of through-holes through which the water stream sprayed from the spray nozzle passes. The material consists of a site to prevent the ice from being caught between the grills during defrosting, and the water that is sprayed from the nozzle during ice making and supplied to the ice making frame, and the falling water and the newly supplied water do not fall directly to the surface of the water stored in the reservoir. It is a very useful design in practical use, such as to minimize the noise of operation by preventing the noise generated by the direct flow of water from the injection nozzle and the water being supplied from the guide plate directly to the surface of the water stored in the reservoir. .

Claims (1)

Compressor 11, a condenser 12, a condenser fan 13, etc. for installing a refrigeration cycle, and a machine room 10 for installing the ice storage chamber 20 for storing iced ice, the ice storage room 20 A plurality of injection nozzles for injecting water to the ice guide plate 100 and the ice making frame 31 to discharge the ice below the ice forming frame 31 configured to be in close contact with the evaporator 15 of the refrigeration cycle in the upper side of the In the ice maker which comprised the ice-making chamber 30 which provided 37 and the water storage tank 38 which stores the water required for ice-making, When the temperature of the condensed refrigerant reaches 35 degrees Celsius or more by installing a temperature sensor 14 to detect the temperature of the condensation gas in the gas line of the condensation gas discharge side of the condenser 12 installed in the machine room 10, the condensation fan ( 13) to discharge the condensation heat and to stop the condensation fan (13) when the temperature of the refrigerant is less than 35 ℃ Celsius, to perform the refrigeration cycle to ensure that the temperature of the circulating refrigerant always maintain a certain range of temperature, When the ice is iced from the ice tray 31, the pump 40 is operated once or twice to spray water from the spray nozzle 37 to impact the ice tray 31 to make the ice tray 31. ) To defrost ice that has not been defrosted The sterilization lamp 100 is installed in the water storage tank 38 of the ice making room 30, The structure of the ice guide plate 100 which is installed below the ice making chamber 30 of the ice making chamber 30 and guides it out of the ice making chamber when iced ice is defrosted is changed into a plate shape to prevent the ice from being caught between the grills during ice removing. When the ice is sprayed from the nozzle and supplied to the ice tray, the falling water and the newly supplied water do not fall directly to the surface of the water stored in the reservoir, but instead flow down from the ice guide plate. The structure of the ice guide plate for ice discharge chamber ice discharge of the ice maker characterized in that the noise generated by falling directly on the surface to minimize the operating noise.

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