KR200169212Y1 - An ice-making machine - Google Patents

Abstract

The present invention relates to an improvement of an ice maker for making ice used for freezing fish and shellfish captured in the sea.

In the conventional ice maker, since the refrigerant inlet pipe for supplying the refrigerant is wound on the outer surface of the ice making cylinder, the contact surface of the refrigerant inlet tube is in contact with the outer surface of the ice making cylinder is very small, so that the heat conduction is not smooth and the ice making efficiency is low and the ice making time is also low. There was a lot of drawbacks.

The present invention is to spirally form the refrigerant groove through which the refrigerant is circulated without winding a separate refrigerant inlet pipe on the outer surface of the ice making cylinder, and to crush the crushed blade pieces on the top of the screw to make finely crushed ice to be used conveniently. There is one to help.

Description

Ice Maker {An ice-making machine}

The present invention relates to an improvement of an ice maker for making ice used for freezing fish and shellfish captured in the sea.

In general, the ice maker has a structure in which water is introduced by heat exchange based on the refrigerant in the refrigerant inlet pipe wound on the outer surface of the ice making cylinder while inflowing water between the screws of the ice making cylinder. Since it is wound on the outer surface of the ice making cylinder, the contact surface of the refrigerant inlet tube in contact with the outer surface of the ice making cylinder is very small, so that the heat conduction is not made smoothly.

The present invention has been devised in view of such a point, and it forms spirally the refrigerant groove through which the refrigerant is circulated without winding a separate refrigerant inlet pipe on the outer surface of the ice making cylinder, thereby improving the ice making efficiency and smoothing the screw. Breaking the conventional disadvantages by crushing the crushed blades at the top of the crushed finely to facilitate the use of the ice that has been iced, as described above according to the accompanying drawings.

1 is a partially cutaway perspective view of the present invention

2 is a cross-sectional view of the present invention

<Explanation of symbols for main parts of the drawings>

1: ice outlet 2: water inlet 3: ice making cylinder

4 screw 5 casing 6 refrigerant groove for refrigerant circulation

7,7 ': shredded wing

Conventional ice maker in which the screw 4 is installed inside the ice making cylinder 3 having the ice discharge port 1 and the water inlet 2 formed in the upper and lower parts, respectively, and the casing 5 is installed on the outer surface of the ice making cylinder 3. In the outer surface of the ice making cylinder (3) is characterized in that the coolant circulating coolant groove 6 is formed in a spiral manner and the crushing blade pieces (7) (7 ') on the upper end of the screw (4).

In the drawings, reference numeral 8 denotes a refrigerant inlet hole, and 9 denotes a refrigerant discharge hole.

In this manner, the water introduced through the water inlet pipe (2) installed at the bottom of the ice making cylinder (3) is exchanged with a cool refrigerant that circulates on the outer surface of the ice making cylinder (3) to make ice and ice. It is a well-known technique to ascend to the upper side and discharge through the ice discharge port 1 based on the screw 4 arranged inside the cylinder 3. The present invention provides a refrigerant that circulates the outer surface of the ice making cylinder 3. As described above, the refrigerant grooves 6 for circulating the refrigerant are helically formed on the outer surface of the ice making cylinder 3 without being circulated based on the refrigerant circulation tube wound on the outer surface of the ice making cylinder 3. 5) When the refrigerant flows into the refrigerant inlet hole 8 formed in the upper portion of the cooling medium, the refrigerant is circulated along the refrigerant circulation refrigerant groove 6 formed in a spiral manner and descends to be discharged into the refrigerant discharge hole 9 in the process of making ice. Cylinder (3) Here, the coolant groove 6 is formed directly on the entire outer surface of the ice making cylinder 3 so that the contact area is very large. As the ice making cylinder 3 is effectively cooled, the screw 4 inside the ice making cylinder 3 is The water introduced in between is frozen very quickly and the frozen ice is gradually raised upward by the screw 4 and discharged out through the ice outlet 1.

On the other hand, in the present invention, because the shredded blade pieces (7) (7 ') is provided on the upper end of the screw (4), the ice frozen by the operation as described above is frozen in a cylindrical shape and then rotated as the screw (4) When the crushed blade pieces (7) (7 ') are reached, the frozen ice is crushed finely according to the broken blade pieces (7) (7') and discharged to the ice discharge port (1) as a particle size of a convenient and convenient size. .

As such, the present invention circulates the refrigerant circulation structure for cooling the ice making cylinder 3 based on the refrigerant circulating refrigerant groove 6 without the use of a tube as in the prior art, so that the contact area is very large and the heat exchange is made quickly and quickly, thereby making the ice making efficiency high. There is a rising advantage, and the effect of making the use of ice more convenient by crushing the frozen ice finely before the discharge.

Claims (1)

Conventional ice maker in which the screw 4 is installed inside the ice making cylinder 3 having the ice discharge port 1 and the water inlet 2 formed in the upper and lower parts, respectively, and the casing 5 is installed on the outer surface of the ice making cylinder 3. The ice machine according to claim 1, wherein the coolant circulating coolant grooves 6 are formed in a spiral manner on the outer surface of the ice making cylinder 3, and the crushing blade pieces 7 and 7 'are provided on the upper end of the screw 4, respectively. .