KR820001779Y1 - Refrigerator using hopper - Google Patents

Abstract

No content.

Description

Hopper chiller

1 is an exploded perspective view of the present invention.

2 is a cross-sectional view of the present invention.

3 is an enlarged cross-sectional view of a portion A of FIG.

The present invention forms a conventional cooling water chamber and a cooling coil water pipe inside a hopper used to pour milk or liquid to be cooled, so that these liquids are primarily cooled by the hopper's cooling action when the liquid is poured into the hopper by the hopper. It is a cooler that combines a hopper that allows the conventional hopper to simply induce liquid action, and there is no cooling action, so milk squeezed from cows is not cooled at all when collected in a liquid container even if it has a temperature of about 32 ℃. Since it is left at a hot temperature until it is transported to the place where the cooler is installed, there is a risk of rancidity if it is not processed quickly in the summer, and the amount of energy required for cooling is increased because the hot milk is cooled by the cooler from the beginning. There was a problem of becoming high.

In order to solve this problem, the present invention forms a double-walled water chamber in a conventional hopper and collects a cooling coil water pipe inside the water chamber so that its lower end is bent in a reverse direction, and then coolant such as groundwater in the coil water pipe above the water chamber. The main surface of the hopper is cooled and the rectifying plate and the inductor are inserted into the inlet, so that milk, air, or liquid to be cooled down flows in a thin layer on the inner circumferential surface of the hopper by the hopper plate and the inductor. As liquid is primarily cooled and milk takes a little longer than oiling period, there is no risk of deterioration and cooling maintenance cost is cheaper than power cooling as it is cooled using ground water. It will be described in detail with reference to the drawings as follows.

A conventional cooling water chamber 2 is formed between the hopper 1, the inner wall 1 'and the outer wall 1 ", and the inlet 2' and the outlet 2" of the cooling water are formed on the outer peripheral surface of the upper end of the hopper 1. The lower end edges of the hopper 1 and the induction pipe 1a are formed by storing a normal cooling coil water pipe 3 inside the water chamber 2 so as to protrude so that the lower end 3 'is bent in the reverse direction of the coil. A plurality of small holes 4 are formed in the flange 4 'to insert a cylindrical inductor 1b having a diameter smaller than that of the induction pipe 1a, and the uneven periphery 5' at the upper end of the induction pipe 1a. By inserting the rectifying plate 5 with), the liquid flows out between the periphery of the rectifying plate 5 to be cooled along the inner circumferential surface of the induction pipe 1a.

In the figure, reference numeral 6 denotes a drop guide piece of surface condensed water, 7 denotes a liquid container.

In this way, the present invention relates to a hose from a coolant tank, such as a groundwater of a higher position, not shown in the inlet 2 'and the outlet 2 ", and then introduces the coolant into the inlet 2'. Circulate inside the water chamber 2 while flowing into the lower end 3 'and then bent in the reverse direction by the lower end 3'. It smoothly rises and circulates to the outlet (2 ") to cool the main surface of the hopper (1) to a temperature close to the cooling water, and at this time, hot milk squeezed from cows or liquid to be cooled is poured into the hopper (1) According to), the liquid contained in the hopper 1 flows in a thin liquid layer between the inlet pipe 1a and the induction pipe 1b of the hopper 1 through the uneven periphery 5 'of the rectifying plate 5. The inner circumference of the hopper 1 while falling while retarding into the small holes 4 of the rear lower flange 4 '. Moisture in the air contacted and cooled to the outer circumferential wall 1 ″ of the hopper 1 becomes condensed water and falls out of the liquid container 7 at the lower end of the guide piece 6. Cooling water chamber and cooling coil water pipe were formed to circulate cooling water such as groundwater to cool the hopper while allowing milk or liquid to be cooled by contacting the inner circumferential surface of the hopper when the liquid is poured by the hopper. Therefore, there is no risk of milk deterioration even if the milking time takes a long time in the ranch, etc. As the ground water is used as the cooling water, the cooling maintenance cost is not very high and the cooling maintenance cost is also reduced as the first cooled liquid is kept in the cooler. It has an effect that can be used more economically.

Claims (1)

As shown in the figure, a double wall cooling water chamber 2 is formed inside the hopper 1, and the cooling coil water pipe 3 is installed inside the water chamber 2 so that its lower end 3 'is bent in the reverse direction. In the bottom of the inlet pipe (1a) of the hopper (1) formed a flange (4 ') perforated with a small hole (4') to insert the induction pipe (1b) and then inserting the rectifying plate (5) on the upper inlet pipe Chiller with Hopper.