JPS62284165A - Water cooling device - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

DETAILED DESCRIPTION OF THE INVENTION 3. Detailed Description of the Invention Field of Industrial Application The present invention relates to a water chiller that uses a refrigeration cycle to cool tap water or the like for drinking purposes.

2. Description of the Related Art As shown in FIGS. 3 and 4, a conventional chilled water system of this type includes a closed cylindrical cold storage tank 1 for storing cold water and ice, a compressor 2 as a means for cooling, and a condenser. 3, and the aperture mechanism 4
It consisted of a refrigeration cycle 6 consisting of a refrigeration cycle 6 and an evaporator 5, and a water supply pipe 7 for supplying tap water and a water outlet pipe 8 for discharging cooled tap water were connected to the cold storage tank 1. Further, an evaporator 5 was provided in contact with the outer surface of the cold storage tank 1, and the condenser 3 was provided with a 7-ring 1o for heat radiation.

With such a configuration, the refrigeration cycle/L/6 is operated to cool the water in the cold storage tank 1, to create cold water, and to continue cooling to increase the amount of cold storage.

Ice was generated on the inner wall of the cold storage tank 1 corresponding to the evaporator 5, making it possible to increase the amount of heat stored.

Problems to be Solved by the Invention However, in the above configuration, even if ice cold storage is performed in the cold storage tank 1 and the amount of cold storage heat is increased, the cold storage tank 1
The tap water flowing into the interior from the water supply pipe 7 did not sufficiently thaw the ice 1o, and the water temperature did not drop significantly before flowing out from the water outlet pipe 8. This is because the number of water particles that come into contact with the ice 10 and cause it to separate is small, and the number of non-contact particles is overwhelmingly large, and the water flows inside the cold storage tank 1. In other words, heat exchange between the ice and water occurs. This happens due to poor efficiency, especially when a large amount of low-temperature cold water is continuously discharged.The amount of cold water discharged is not much different from when the sensible heat of the cold water in the cold storage tank 1 is discharged, and the amount of cold water is I couldn't move.

The present invention solves these conventional problems.

The purpose is to make sufficient contact with the ice in the cold storage tank and the inflowing water, and to utilize the heat of partitioning of the ice to continuously extract a large amount of low-temperature cold water.

Means for Solving the Problems In order to solve the above-mentioned problems, the chilled water device of the present invention provides a cylindrical panfur with a sealed upper part and an opening at the lower part inside the cold storage tank, and a cylindrical baffle/L'O A spiral collar is provided on the outer periphery of the body, the tip of the spiral collar is provided close to the n-inner wall of the cold storage tank, the water supply pipe is communicated with the upper part of the inside of the cold storage tank, and the water outlet pipe is communicated with the upper part of the inside of the cylindrical baffle. It is something that

According to the above-described configuration, the present invention allows tap water flowing into the upper part of the cold storage tank from the water supply pipe to flow through a flow path formed by the cylindrical baffle, the spiral boxwood, and the ice formed on the inner wall of the cold storage tank. while in contact with the ice.

When tap water flows downward in a spiral, it flows into the cylindrical baffle through the opening at the bottom of the cylindrical baffle, and flows out from the outlet pipe that communicates with the upper part of the cylindrical baffle. The flow path area is small and the flow is turbulent, flowing in sufficient contact with the ice, and a large amount of low-temperature cold water can be taken out using the heat of ice's separation.

Embodiment Hereinafter, one embodiment of the present invention will be described based on the accompanying drawings.

In FIGS. 1, 2, and 3, a closed cylindrical cold storage tank 1 for storing cold water and ice, a compressor 2, a condenser 3, a throttling mechanism 4, and an evaporator are used as cooling means. The evaporator 5 is provided in contact with the periphery of the outer surface of the cold storage tank 1. Inside the cold storage tank 1, there is a cylindrical buff with a sealed top and an opening at the bottom.
A spiral collar 12 is provided on the Iff outer periphery of 1 cylindrical buff/L/11, and the tip of the spiral collar 12 is provided close to the inner wall of the cold storage tank 1 to supply tap water. A water supply pipe 7 is provided in communication with the inner upper part of the cold storage tank 1, and a water outlet pipe 8 for discharging the cold water in the cold storage tank 1 is provided in communication with the inner upper part of the cylindrical baffle 11.

At the bottom of the groove, when the refrigeration cycle (v6) is operated to cool the water in the cold storage tank 1 to create cold water, and to continue cooling to increase the amount of cold storage, the cold storage tank 1 corresponding to the evaporator 5 Ice 10 is generated on the inner wall of the shell, and the cylindrical baffle 1
Since the tip of the spiral collar 12 provided on the outer periphery of the cold storage tank 1 is close to the inner wall of the cold storage tank 1, as the ice 10 grows,
A spiral water flow path is formed between the body of the ice 10 and the cylindrical buff (vll) and the spiral collar 12. therefore.

The flow of water in the cold storage tank 1 is such that the tap water that has flowed into the upper part of the cold storage tank 1 from the water supply pipe 7 flows through the above-mentioned spiral water flow path while contacting the ice 10 because the upper part of the cylindrical buff (vll) is sealed. Flowing down from the opening at the bottom of the cylindrical buff p11,
The water enters the inside of the cylindrical baffle/v11 and flows out from the outlet pipe 8 communicating with the upper part of the inside of the cylindrical baffle 11. Therefore, the flow path that flows while contacting the ice 10 is narrow, the number of times the ice and water come into contact is large, and the heat exchange efficiency between the ice and water is significantly improved. It can be obtained in large quantities at low temperatures.

Effects of the Invention If the water chiller of the present invention is constructed as described above, the following effects can be obtained.

The evaporator of the refrigeration cycle is installed in contact with the outer periphery of the body of a sealed cylindrical cold storage tank, and a cylindrical baffle with a sealed top and an opening at the bottom is housed inside the cold storage tank. Boxwood is provided, and the tip of the spiral brim is placed close to the inner wall of the cold storage tank body, and the water supply pipe is connected to the upper part of the cold storage tank, and the water outlet pipe is connected to the upper part of the cylindrical baffle, so that water is generated on the inner wall of the cold storage tank body. The ice cubes and the inflowing tap water come into contact with each other efficiently and exchange heat, making it possible to continuously extract large amounts of low-temperature cold water.

In addition, it is possible to make full use of the heat from the thawing of ice, and a large amount of low-temperature cold water can be extracted even from a small cold storage tank.

The equipment can be made compact.

[Brief explanation of the drawing]

FIG. 1 is an internal configuration diagram of a cold storage tank of a chilled water system according to an embodiment of the present invention, FIG. 2 is a sectional view of a cold storage tank of the same system, and FIG.
The figure is an overall configuration diagram of a chilled water device according to an embodiment of the present invention and a conventional example, and FIG. 4 is a sectional view of a cold storage tank of a conventional chilled water device. 1... Cold storage tank, 2... Compressor, 3
・－・・・Condenser, 4... Throttle mechanism, 5...
...evaporator, 6...refrigeration cycle, 7...
...Water supply pipe, 8...Water pipe, 10...
... Ice, 11 ... Cylindrical buff, 12 ...
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Claims (1)

[Claims] A closed cylindrical cold storage tank stores cold water and ice obtained by cooling tap water, and the cooling means is composed of a refrigeration cycle consisting of a compressor, a condenser, a throttle mechanism, and an evaporator, and the cold storage tank The evaporator is provided on the outer surface of the body in contact with the evaporator, and a cylindrical baffle having a sealed upper part and an opening at the lower part is provided inside the regenerator tank, and a spiral collar is provided on the outer periphery of the body of the cylindrical baffle. provided, the tip of the spiral collar is provided so as to be close to the inner wall of the body of the cold storage tank, and a water supply pipe for supplying tap water is communicated with the upper part of the inside of the cold storage tank,
A chilled water device in which a water outlet pipe for discharging cold water in a cold storage tank is communicated with an upper part of the inside of the cylindrical baffle.