KR20150098332A - Air control system - Google Patents

Abstract

The present invention relates to an air conditioning system, capable of performing a combined function of a cooling system (refrigerant) and a dehumidifier in order to prevent foul odors and drying processes of food processing unit from being exposed to the outside. When food, partially dried and ground in the food processing unit, is transferred to the inside of a stirrer (stirring), the food is heated at up to not less than 200 deg. C of room temperature by using a heater on the floor of the stirrer in order to dry the food, and therefore, steam is generated in the stirrer by high temperature heat. The moisture of the food is removed by generating condensate water by making a conditioner pass through an evaporator. The operations are continuously systemized and repeated until the food is completely dried. At this point, the air and foul odors in the stirrer are not exposed to the outside.

Description

[0001] AIR CONTROL SYSTEM [0002]

The present invention relates to an air conditioning system having a function of combining a function of a dehumidifier and a function of a cooling system (refrigerant) in order to prevent drying and smell of a food processor from being discharged to the outside.

When the foodstuff which has been partially pulverized and water-removed in the food processor is transported to the inside of the stirrer (mixer), the bottom plate of the stirrer is heated to a temperature of 200 ° C or more by using a heater to dry the food. Water vapor is generated. Then, the air conditioner is passed through the evaporator to generate condensed water to remove moisture from the food. This operation is continuously systemized and repeatedly circulated until it is completely dry. At this time, the inside odor of the stirrer and the air are completely sealed so as not to be exposed to the outside.

Generally, when the food processor is dried, water vapor and air are discharged to the outside. Therefore, there is a separate filter and antibacterial treatment, but here, the smell can not be completely caught. Also, since there is no system that blows dry air into the stirrer, it takes longer than 24 hours to dry when it is boiled for a long time and forced to evaporate. The power consumption required for operation also consumes more than 8kw, so electricity cost is also heavy, and it can only operate about once a day due to excessive drying time of food.

In order to compensate for the above disadvantages, the present invention operates by using an air conditioning system, but has various functions for stable operation as follows.

1. Refrigerant system application:

1) By using a cold evaporator, the evaporation temperature is reduced as much as possible, so that more heat exchange occurs and condensation water is generated in the shortest time as much as possible.

2) Semi-permanent circulation due to refrigerant system operation

2. Application of air cooler

1) By passing through the air cooler, the temperature of the air flowing in the refrigerant evaporator is lowered, thereby increasing the amount of condensed water and shortening the drying time.

2) It also serves to lower the inlet temperature of the FAN, thereby increasing the life of the fan motor.

3) Air flows into the inside of the air cooler and evaporates to the outside low temperature, so that condensate is generated.

3. Installation of air curtain (heat sink) : It makes water droplets fall to the floor by causing water vapor to hit the surface in the air flow, preventing steam from going back to the stirrer, acting as a heat exchanger plate and slowing the flow rate of air, .

4. Expansion valve (Keppelly) dual use

1) In the refrigerant system, an expansion valve (Keppel) is installed between the inlet of the compressor at the outlet of Eva to increase the temperature of the refrigerant as the inlet temperature of the evaporator rises gradually. Lower the temperature.

According to an aspect of the present invention, there is provided a food stirrer comprising: a fan for allowing air to flow between an outlet and an inlet of a food stirrer; And a water collecting part for collecting water contained in the air in the air flow, wherein the water collecting part comprises: a refrigerant evaporator in which the refrigerant flows; And an air cooler for allowing air to flow inside the air cooler, wherein the refrigerant eva system includes a refrigerant evaporator; And an air cooler system including an air cooler, wherein the refrigerant eva system comprises: a compressor for compressing refrigerant; A refrigerant condenser for cooling the refrigerant; And an expansion valve ( capillary ) . In the air cooler system, the air and the water from the agitator are allowed to flow therein, and the refrigerant system is separately installed in the refrigerant system to flow the refrigerant into the air conditioner. Air is allowed to flow out of the air cooler to effect heat exchange. In this case, if necessary, it can cool by the blowing fan at room temperature without refrigerant evaporator, and it is characterized by the system that the air from the inside of the stirrer passes through the refrigerant evaporator through the air cooler and then enters the stirrer again. The air conditioning system comprising:

Thus, in a preferred embodiment of the present invention, the refrigerant eva system operates at a predetermined minimum refrigerant operating temperature for a predetermined refrigerant operating temperature range at which the compressor operates, and is deactivated at a predetermined maximum refrigerant operating temperature, The air cooler is stabilized in order to prevent excessive operation of the compressor by stopping the operation of the compressor and stopping the operation of the compressor when the temperature is set to a predetermined temperature. In addition, an air cooler is applied to lower the inlet temperature of the refrigerant evaporator, The present invention provides an air conditioner system in which the amount of condensed water is increased to shorten a drying time by installing the evaporator in such a manner that it can act as a vaporizer.

According to a preferred embodiment of the present invention, there is provided an air conditioner system including a heat sink between the outlet and the fan, and a heat heater at the inlet side.

Further, in a preferred embodiment of the present invention, the refrigerant eva system is provided in an external form in which the refrigerant condenser is installed in the periphery of the agitator, and the position of the blowing fan is located between the air outlet of the stirrer and the air cooler, A cooler or a refrigerant eva outlet, and an inlet of the agitator.

1. The air conditioner is used to discharge a large amount of condensate in a short period of time to shorten the drying time of the food.

2. Power consumption can be reduced by operating the refrigerant system.

3. It is completely shut off from the outside (sealed) and smell is not felt.

4. Using the air cooler, the refrigerant system was stabilized by lowering the inlet temperature of the refrigerant eva.

5. Reduce the drying time of the food by discharging the condensate further by using the air cooler.

6. In order to stabilize the system in the refrigerant system, an expansion valve is installed at the compressor inlet to prevent high pressure of the refrigerant.

1 is a schematic block diagram of an external refrigerant eva system of a refrigerant condenser in an air conditioner system according to the present invention.
2 is a detailed block diagram of an external refrigerant eva system of a refrigerant condenser in an air conditioner system according to the present invention.

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

That is, the air conditioner system according to the present invention includes a fan for allowing air to flow between an outlet of the food stirrer and an inlet, as shown in FIGS. And a water collecting part for collecting moisture contained in the air during the flow of the air.

Accordingly, the water collecting unit may include: a refrigerant evaporator in which the refrigerant flows; And an air cooler, so that the air contained in the food is effectively removed while the air cooler using the refrigerant evaporator and the temperature of the air are used in parallel.

According to the system configuration, the air conditioner system according to the present invention includes: a refrigerant eva system including a refrigerant evaporator; And an air cooling system using an air cooler.

The refrigerant Eva system includes a compressor for compressing refrigerant; A refrigerant condenser for cooling the refrigerant; And an expansion valve.

In addition, the air cooling system is provided with an external refrigerant evaporator to lower the temperature of the high air, so that the refrigerant passes through the air cooler to the outside of the air cooler at a temperature lower than the room temperature and passes through the refrigerant evaporator and the air cooler. Install the air cooler so that heat exchange is possible only at room temperature.

As a result, the air in the air conditioner is heat exchanged with the evaporator (evaporator) (refrigerant evaporator, air cooler, etc.) of the collecting section through the fan to generate the condensed water. The low temperature air passing through it passes through the heat heater and heat exchanges above the mid-low temperature and enters the stirrer. Install a refrigerant evaporator and air cooler on one line of evaporator refrigerant evaporator and install a heat sink to lower the inlet temperature of the fan. By systemizing the action of this system, the inside of the stirrer is repeatedly operated until the moisture is completely dried.

In such an air conditioner system, the refrigerant eva system operates at a predetermined minimum refrigerant operating temperature for a predetermined refrigerant operating temperature range at which the compressor is operated, and even when the operation ceases at a predetermined maximum refrigerant operating temperature, So that the generation of the condensed water can be continuously generated.

In addition, the present invention is characterized in that an air cooler is provided between the outlet of the stirrer and the refrigerant evaporator, and a heat (heating element) heater is provided at the inlet side of the stirrer.

In order to prevent the high temperature of the compressor of the refrigerant system described above, an air cooler is installed to lower the outlet temperature of the stirrer to keep the inlet air temperature of the evaporator at 90 degrees or less, It is installed to change the flow of air, so that more condensed water can be generated, and the temperature of the lowered air is increased by raising the temperature of the air by installing a thermal heater at the inlet of the agitator.

Such a refrigerant eva system is provided with a built-in type in which the compressor is installed on the inlet side, or an external type in which the compressor is installed on the outside.

That is, in order to prevent the high temperature of the compressor of the refrigerant system described above, the installation position of the condenser may be provided inside the air circulation device (built-in type). If necessary, the condenser may be externally installed outside, It is a system to prevent the refrigerant condenser from having an external, built-in function.

In addition, in order to cool the air cooler, if the evaporator is installed separately or if it is installed only by the blower fan, the condensed water generated in the heat exchanger is discharged to the drain pipe.

Hereinafter, the role of each function in the air conditioner system according to the present invention will be described.

1. Refrigerant system application:

According to the air conditioner system of the present invention, a high-temperature, high-pressure gas compressed by a compressor is installed so as to pass through the evaporator, and the temperature discharged from the stirrer at the time of condensing is smoothly operated without abnormalities at room temperature. When the heater of the stirrer bottom plate is heated to 200 degrees for over 1 hour, the air temperature inside the stirrer approaches 100 degrees. At this time, the temperature of the air discharged from the inside of the stirrer to the outside is more than 80 degrees, and when the temperature of the air directly hits the refrigerant evaporator, the discharge temperature of the refrigerant compressor is operated in the overheated condition of 100 degrees or more.

That is, when the initial temperature of the refrigerant evaporator of the normal refrigeration system is lower than -10, the temperature of the evaporator is increased and the compression temperature of the compressor is increased. When the temperature of the compressor is higher than 100 degrees, When it is activated, it is automatically turned off.

To start the compressor again automatically, the compressor's own heat must be cooled before the relief switch starts. However, it takes a considerable amount of time for the switch to be turned on to prevent condensation.

The compressor is forced off before operation of the compressor and turned on when the compressor reaches a certain temperature.

If the temperature of the refrigerant once reaches the upper limit value as described above, the number of times of on and off is continuously increased, and the amount of the condensed water is reduced, and the service life of the compressor can be shortened by frequent on and off. In order to prevent this, another expansion valve (Keppelari) is installed between the outlet of the refrigerant evaporator and the inlet of the compressor so that the refrigerant of the gas which is lower than the outlet temperature of the refrigerant evaporator is cooled to the temperature of the refrigerant entering the inlet of the compressor by mixing the low- Install it.

Here, the inlet temperature of the refrigerant evaporator is supplied through the air cooler to a temperature lower than the outlet temperature of the stirrer, thereby preventing the high temperature of the refrigerant evaporator and maximizing the role of the evaporator of the refrigerant evaporator.

2. Application of air cooler system

In order to process hot air and a large amount of water vapor in the stirrer, at least one or more of a diameter smaller than the outer diameter of the outlet is provided so as to flow air into the inside of the outlet, and the heat of the air flowing in the outside may be discharged to the outside So that the heat can be released by letting air flow lower than the inside of the outside.

The structure installed here blows out the room temperature by using a blowing fan on the outside, and helps to discharge the heat higher than the room temperature. To lower the temperature difference there, use a lower temperature than the room temperature In this case, one more refrigerant evaporator is formed and passed to the outside of the air cooler by using a blowing fan, so that more heat is dissipated.

At this time, a temperature difference between the inlet and outlet air flowing in the air cooler is generated, and a certain amount of evaporated condensed water is generated, so that the moisture contained in the food can be dried.

In addition, the air passing through the air cooler is lower than the outlet temperature of the Kyocyun period, and the temperature of the air entering the inlet of the refrigerant eva is considerably lowered, which also helps to stabilize the refrigerant system.

 2. Air flow:

The initial air that is fed from the agitator sucks air through the fan so that water vapor and hot air can flow out to the outlet. As the heat exchanges through the inner pipe of the air cooler, a large amount of water vapor is converted into condensed water, and the temperature of the air is lowered. The air is passed through the air curtain before it goes to the evaporator, The water is dropped on the floor to hit the wall and the rest of the air is blown to the refrigerant evaporator. Before going to the blower, one more air curtain is installed if necessary, causing moisture to hit against the wall, causing moisture to fall off. The condensate water escapes into the drain, and the air passing through the refrigerant eva passes through the blower fan and then enters the mixer. When the temperature of the lowered air is mixed with the temperature of the stirrer, the temperature of the food is lowered. Therefore, it takes a considerable time and energy to increase the temperature of the food again. So that the flow can be repeatedly operated.

In the present invention, the air stream of the air conditioner is subjected to the primary heat exchange through the air cooler by the blowing fan, the hot air from the outlet of the agitator, the condensed water is generated, the secondary heat is exchanged while passing through the refrigerant evaporator, And a temperature higher than the mid-low temperature passed through the heater is passed through the heat heater to raise it to a temperature not lower than room temperature, and the heater is set in the stirrer. This action is systemized so that the inside of the stirrer is repeatedly operated until the moisture is completely dried.

Further, the present invention provides an air conditioner system in which the evaporator temperature of the evaporator is continuously generated at a low temperature by applying a refrigerant system to continuously operate the refrigerant eva (evaporator).

In addition, in order to prevent the compressor of the refrigerant system from being turned off by a high temperature of 110 degrees (automatic operation of the relief switch), a temperature sensor is installed to adjust the discharge temperature of the compressor to 90 degrees to forcibly turn off the compressor The operating temperature of the air cooler is set to 55 ° C. and the air cooler blowing fan is not turned off so that only the condensing action of the primary heat exchanger of the air cooler can be performed for a time falling down to that temperature. Then, when the compressor is down to 55 ° C, if the refrigerant evaporator is activated, the secondary heat exchanger will continue to perform in the refrigerant evaporator.

Therefore, if the foodstuff which has been crushed and partially removed from the food processor is transported to the inside of the stirrer (mix), if the food is heated to 200 ° C using a heater on the bottom plate of the stirrer, Is generated. Then, condensate is generated by passing through the air conditioner to remove moisture from the food. These operations are continuously automated and systematically cycled repeatedly until fully dry. At this time, the inside odor of the stirrer and the air are completely sealed so as not to be exposed to the outside.

The present invention operates using an air conditioning system, but has various functions for stable operation as follows.

1. Refrigerant system application:

1) By using a cold evaporator, the evaporation temperature is reduced as much as possible, so that more heat exchange occurs and condensation water is generated in the shortest time as much as possible.

2) Semi-permanent circulation due to refrigerant system operation

2. Application of air cooler

1) By passing through the air cooler, the temperature of the air flowing in the refrigerant evaporator is lowered, thereby increasing the amount of condensed water and shortening the drying time.

2) It also serves to lower the inlet temperature of the FAN, thereby increasing the life of the fan motor.

3) Air flows into the inside of the air cooler and evaporates to the outside low temperature, so that condensate is generated.

3. Installation of air curtain (heat sink) : It makes water droplets fall to the floor by causing water vapor to hit the surface in the air flow, preventing steam from going back to the stirrer, acting as a heat exchanger plate and slowing the flow rate of air, .

4. Expansion valve (Keppelly) dual use

1) In the refrigerant system, an expansion valve (Keppel) is installed between the inlet of the compressor at the outlet of Eva to increase the temperature of the refrigerant as the inlet temperature of the evaporator rises gradually. Lower the temperature.

5. Installation of the air curtain (heat sink): In the air flow, the surface of the water is hit by the water vapor, so that the water drops drop to the floor, preventing the water vapor from going back to the agitator.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. The technical idea of the present invention should not be construed as being limited.

10: Air conditioning system

Claims (4)

A fan for allowing air to flow between the outlet of the food stirrer and the inlet; And
And a water collecting part for collecting water contained in the air in the air flow,
Wherein the water-
A refrigerant evaporator and an air cooler are provided as a generator for generating condensed water inside the collecting part,
A refrigerant Eva system, including a refrigerant Eva,
A compressor connected to the refrigerant eva to compress the refrigerant;
A refrigerant condenser for cooling the refrigerant;
Expansion valve ( capillary ) ; And
A refrigerant evaporator for evaporating the refrigerant,
An air cooler system, including an air cooler,
It is necessary to condense the high temperature air and steam flowing in the air cooler to remove moisture and to lower the temperature of the air before entering the refrigerant evaporator to prevent the refrigerant evaporation system from becoming hot and to stabilize the condition for generating condensed water The air conditioning system comprising:
The method according to claim 1,
In order to prevent the discharge temperature and the pressure of the compressor from rising due to an increase in the inlet air temperature of the refrigerant Eva in the refrigerant Eva system, an expansion valve (Keppillar) is installed between the inlet of the compressor and the outlet of the refrigerant evaporator, To stabilize the temperature and pressure of the air conditioner.
The method according to claim 1,
The air cooler system has a structure in which the high temperature and steam of the air from the outlet of the stirrer flows into one or more tubes in the air cooler and forms heat dissipating fins and deformed shapes so that the heat inside can be discharged quickly, The air conditioner is caused to generate heat at room temperature or an external blower fan to supply a large amount of air to the heat exchanger so that condensed water is generated due to the temperature change inside the air cooler.
The method according to claim 1,
In order to cause heat exchange at a temperature lower than the external ambient temperature in the air cooler system, a refrigerant evaporator is installed outside the air cooler and air is blown by a blowing fan to pass low temperature air of the refrigerant evaporator, To the outside of the air conditioner to cause heat exchange.

Images