KR200395732Y1 - Poultry Aeration Wash Tank Air Dryer - Google Patents

Abstract

The present invention relates to an air dryer of a poultry aeration cleaning tank for slaughtering and cleaning poultry such as chicken and duck. The poultry is supplied by supplying cold air into the washing water contained in the washing tank during the poultry cleaning process in the final step of the packaging process. Even if it is washed continuously, it is possible to suppress the rise of the temperature of the wash water.

To this end, the upper and lower closed outer cylinder (1) and the heat exchanger tube is installed to penetrate through the center of the outer cylinder so that the heat exchange in the process of passing the outside air to supply cool air to the washing tank (2) 3), a coolant circulation pipe (4) installed in a zigzag between the outer cylinder and the heat exchange tube to circulate the coolant, a coolant supply pipe (8) for supplying cool refrigerant to the inlet of the coolant circulation pipe, and Refrigerant discharge pipe (10) for recovering the refrigerant having been heat exchanged through the discharge portion of the refrigerant circulation pipe to the compressor (9), the air inlet pipe (11) connected to the external air inlet of the heat exchange pipe, and the air It is composed of a blower 12 for sucking the outside air through the inlet pipe.

Description

Poultry Aeration Washer Air Dryer {omitted}

The present invention relates to an aeration washing tank for slaughtering poultry such as chickens and ducks, and more specifically, to supply poultry by supplying cold air in the washing water contained in the washing tank in the process of washing the poultry at the end of the packaging process. The present invention relates to a poultry aeration scrubber air dryer that can suppress a phenomenon in which the temperature of the washing water rises even if the washing continues.

1 is a process diagram for explaining the slaughter process of poultry, the poultry supplied from the producer is slaughtered in the slaughterhouse and then scalded in hot water to remove the hair by the hair remover (S1, S2).

This hairy poultry is covered in the next process to remove the intestines, cut the head and legs, and then washed clean in the washing process (S3, S4).

Poultry washed through the above process is unit-packed in the packaging process and shipped to the retailer (department store, large mart, supermarket, etc.) (S5, S6).

Referring to the process of washing the poultry in which the foreign matter is removed in the above washing process in more detail as follows.

In the process of slaughtering poultry and completely removing the hair, and then cleaning the poultry cleanly by the washing water contained in the washing tank, even though the initial washing water temperature is low, the skin temperature of the poultry is raised during the hair removal process. As a result, the temperature of the washing water also gradually increases.

However, if the poultry is continuously washed with the washing water at such a temperature, the epidermal temperature of the poultry increases and the skin of the poultry becomes red, resulting in deterioration of the quality and of being deteriorated in the distribution process and shortening the shelf life.

Therefore, in order to prevent the above problems, in the process of washing poultry, supplying cold ground water in the washing water in the form of aeration to suppress the temperature rise of the washing water to the maximum.

However, such a conventional method does not maintain the proper temperature of the washing water below 5 ℃ and maintains about 12 ~ 13 ℃, so there is a limit to overcome the conventional problems and deplete the adjacent ground water according to the continuous supply of ground water Of course, wastewater was generated that would cause groundwater contamination.

The present invention has been devised to solve such a conventional problem, by using a new type of air dryer, supplying cool air into the wash water only when the temperature of the wash water is higher than the set temperature (5 ℃) to always set the wash water The purpose is to maintain the following.

According to a form of the present invention for achieving the above object, the upper and lower parts are closed and the outer cylinder is installed to penetrate through the center of the outer cylinder so that the heat exchange in the process of passing the outside air to supply the cool air to the washing tank A heat exchanger tube installed in a zigzag between the outer cylinder and the heat exchanger tube and configured to circulate the refrigerant, a refrigerant supply tube supplying cool refrigerant to an inlet of the refrigerant circulation tube, and discharge of the refrigerant circulation tube A refrigerant discharge pipe for recovering the refrigerant that has undergone heat exchange through the compressor to the compressor side, an air inlet pipe connected to an external air inlet of the heat exchange pipe, and a blower for sucking external air through the air inlet pipe A poultry aeration cleaning tank air dryer is provided.

Hereinafter, with reference to Figures 2 to 4 showing the present invention as an embodiment in more detail as follows.

Figure 2 is a perspective view showing an embodiment of the present invention and Figure 3 is a longitudinal sectional view showing the main part of the present invention and Figure 4 is a cross-sectional view taken along the line A-A of Figure 3, the present invention is the upper, lower closed outer cylinder (1 Heat exchange tube (3) for supplying cool air to the washing tank (2) side through the heat exchange in the process of passing the outside air in the center of the) is installed to pass through, the outer cylinder (1) is a cylindrical housing, It is comprised by the closing plate which closes the upper part and the lower part of the said housing.

As shown in FIG. 3, between the outer cylinder 1 and the heat exchange tube 3, a refrigerant circulation tube 4 for circulating the refrigerant is disposed in a zigzag manner, and cold air is transferred to the inside of the heat exchange tube 3. The plate 5 is fixed radially.

Even though the cold air transfer plate 5 is not fixed inside the heat exchange tube 3, the heat is exchanged with the external air passing through the heat exchange tube 3 by the refrigerant circulating through the refrigerant circulation tube 4, thereby making the external air cool. When the cold air transfer plate 5 is fixed radially inside the heat exchange tube 3, more heat exchange is performed, so that even if the intake amount of the external air is large, the external air can be cooled.

When the cold air transfer plate 5 is integrally formed in the heat exchange tube 3 by an extrusion method, it is not necessary to fix welding separately, thereby improving productivity.

In addition, the outer diameter of the refrigerant circulation pipe 4 can be appropriately adjusted and used as necessary.

That is, when the brine refrigerant 6 is not filled inside the outer cylinder 1 as shown in FIG. 5 according to another embodiment, the refrigerant circulating through the refrigerant circulation tube 4 and the outside passing through the heat exchange tube 3 are shown. Since the heat exchange with the air is not made quickly, the outer diameter is maximized so as to be connected between the inner surface of the outer cylinder and the outer diameter of the heat exchanger tube, but as shown in FIG. 4, a separate cooling fin 7 is installed between the refrigerant circulation tubes, or When the brine refrigerant 6 is filled in (1), heat exchange between the cold refrigerant and the external air passing through the heat exchange tube 3 sufficiently occurs without increasing the outer diameter of the refrigerant circulation tube 4.

A refrigerant supply pipe (8) for supplying a cool refrigerant to the inlet of the refrigerant circulation pipe (4) is connected, and the discharge portion of the refrigerant circulation pipe (4) is a refrigerant heat exchanged with the outside air to the compressor (9) The refrigerant discharge pipe 10 to be recovered to the side is connected.

An air inlet pipe 11 is connected to the outside air inlet of the heat exchange tube 3, and a blower 12 for sucking outside air is installed at an inlet of the air inlet pipe, and one side of the blower is provided with external air. The filter 13 for filtering the contained foreign matter is provided.

When the temperature sensor 14 is installed in the washing tank 2 and the temperature sensor detects the temperature of the washing water below the set temperature, the control unit 15 stops driving the compressor 9 and vice versa. When the temperature sensor 14 detects the temperature of the washing water above the set temperature, the controller 15 is configured to drive the compressor 9.

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

First, the refrigerant circulating inside the refrigerant circulation tube 4 according to the driving of the compressor 9 is a freon gas as shown in FIGS. 2 to 4 as an embodiment of the present invention, and the inside of the outer cylinder 1 Filled with a brine refrigerant (6), which is a medium that does not freeze even at -40 ~ -50 ℃ to allow heat exchange in the process of passing the outside air through the heat exchange tube (3), or as shown in Figure 5 shown in another embodiment The inside of the outer cylinder 1 may be filled with a brine refrigerant inside the refrigerant circulation tube 4 without filling any refrigerant to allow heat exchange with external air passing through the heat exchange tube 3.

When the compressor 9 is driven in the state shown in FIGS. 2 and 3, heat exchange with the brine refrigerant 6 filled in the inside of the outer cylinder 1 in the course of circulating the refrigerant circulation tube 4 when the coolant is circulated is performed. Since the brine refrigerant 6 is made cold, the brine refrigerant does not freeze even at -40 to -50 ° C to be lowered to a very low temperature.

In this way, when the brine refrigerant 6 is cooled by the refrigerant circulating along the refrigerant circulation pipe 4, foreign air is filtered through the filter 13 as the blower 12 is driven, thereby filtering the heat exchanger tube ( 3) When the outside air is cooled while exchanging heat with the brine refrigerant 6 in the course of passing through the heat exchange tube (3) and then supplied to the inside of the washing tank (2) to suppress the temperature rise of the washing water to the maximum.

In the process as described above, the cooling fins 7 are fixed between the outer cylinder 1 and the heat exchanger tube 3 so as to be located between the refrigerant circulation tubes 4, or radially inside the heat exchanger tube 3. When the cold air transfer plate 5 is fixed, heat exchange occurs more actively, so that the temperature of the outside air can be kept cold in a short time.

As the external air is converted into a cold state by the above-described operation and supplied to the inside of the washing tank 2, the washing water in the washing tank falls to a set temperature (about 5 ° C. or lower) and senses the temperature installed inside the washing tank 2. When the sensor 14 detects this, the drive of the compressor 9 is temporarily stopped by the control of the controller 15, and the blower 12 is continuously driven to inhale external air.

When the compressor 9 is stopped and only the blower 12 is driven to suck in the outside air, the temperature of the outside air after heat exchange with the brine refrigerant 6 is gradually raised, so that the temperature of the washing water is also gradually increased.

As such, when the temperature of the washing water rises as the compressor 9 stops driving, and the temperature sensor 14 detects the washing water temperature above the set temperature, the compressor 9 is driven again by the controller 15. It is possible to keep the temperature of the wash water below the set temperature at all times.

In addition, in FIG. 5 shown in another embodiment, since the brine refrigerant is directly circulated into the refrigerant circulation pipe 4 without filling the brine refrigerant inside the outer cylinder 1, heat exchange with external air is performed. The temperature can be kept below the set temperature.

On the other hand, when the size of the washing tank 2 is large, the amount of the washing water increases, it will be understood that the air dryer of the present invention can be installed in multiple stages in parallel to increase the amount of cold air supplied into the washing tank.

As described above, the present invention has several advantages as compared to the prior art.

First, since the temperature of the washing water in the washing tank is maintained below a predetermined temperature, the skin of the poultry is reddened, and thus, high quality poultry can be provided to consumers.

Second, since the skin of the poultry is prevented from reddening due to the increase in the temperature of the washing water, the shelf life of the poultry can be increased as much as possible.

Third, because the groundwater near the slaughterhouse is not used, the groundwater is depleted and the groundwater is contaminated.

1 is a process chart for explaining the slaughter process of poultry

2 is a perspective view showing an embodiment of the present invention

3 is a longitudinal sectional view showing the main part of the present invention;

4 is a cross-sectional view taken along the line A-A of FIG.

Figure 5 is a longitudinal cross-sectional view showing another embodiment of the present invention

6 is a cross-sectional view taken along the line B-B of FIG.

Explanation of symbols for the main parts of the drawings

1: outer cylinder 2: washing tank

3: heat exchange tube 4: refrigerant circulation tube

5: cold delivery plate 6: brine refrigerant

7: cooling fin 8: refrigerant supply pipe

9: compressor 10: refrigerant discharge pipe

11: air inlet pipe 12: blower

14: temperature sensor 15: control unit

Claims (5)

Upper and lower portions of the outer cylinder and the heat exchanger tube which is installed to penetrate through the center of the outer cylinder to exchange heat in the process of passing the outside air to supply cool air to the washing tank, and zigzag between the outer cylinder and the heat exchange tube A refrigerant circulation tube installed at a position of the refrigerant circulation tube for circulating the refrigerant, a refrigerant supply tube supplying cool refrigerant to an inlet of the refrigerant circulation tube, and a refrigerant heat exchanged through the discharge portion of the refrigerant circulation tube to be recovered to the compressor side. And an air inlet tube connected to an external air inlet of the heat exchanger tube, and a blower for sucking external air through the air inlet tube. The method of claim 1, The aeration cleaning tank air dryer of the poultry, characterized in that the cold air transfer plate is fixed to the inside of the heat exchange tube. The method of claim 1, Cooling fins are installed between each outer cylinder and the heat exchange tube, wherein the cooling fins are configured to be located between the refrigerant circulation tubes. The method of claim 1, Filling the brine refrigerant in the outer cylinder and the refrigerant circulation tube filled with a freon gas, poultry aeration cleaning tank air dryer characterized in that the. The method of claim 1, The temperature sensor is installed in the washing tank so that the compressor is driven only when the washing water is above the set temperature by the control unit, and the driving of the compressor is stopped when the temperature of the washing water falls below the set temperature by the supply of cold air. Poultry aeration cleaning tank air dryer.