JPS599825B2 - liquid cooler - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a liquid cooler that can cool and supply liquid dispensed from a liquid tank containing drinking water or the like during a distribution process.

High temperature (60~90°C) or room temperature (15~20°C)
) Pour out liquid in small quantities from a liquid tank that stores liquids such as drinking water, and during the distribution process, a cooler
A liquid cooler is known that cools and supplies liquid to about °C.

Conventionally, as shown in FIG. 1, this liquid cooler uses heat insulating material a
A cooling water tank b is provided which is covered with a cooling water tank b, and a support portion d for supporting the liquid tank C is provided in the vertical direction midway of the cooling water tank b.

A cooler e is provided below the support portion d of the cooling water tank b.

Then, a spout f is provided at the bottom of the liquid tank C.
The liquid g poured out from ... flows down along the support part d and the inner circumferential surface of the cooling water tank b, during which time it is cooled by the cooler e, and after being stored at the bottom of the cooling water tank b, it is supplied from the faucet h. It looks like this.

However, since the inner peripheral surface of the cooling water tank b, that is, the flow path of the liquid g, is vertical, the liquid g poured out from the liquid tank C flows down the inner peripheral surface of the cooling water tank b, and is cooled by the cooler e. It is stored at the bottom without being sufficiently carried out.

Therefore, the temperature of the liquid g stored in the cooling water tank b rises, and there is a problem that the liquid cooled to a low temperature cannot be supplied.

This invention was made in view of the above circumstances, and its purpose is to provide a metal mesh on the inner peripheral surface of a cooling water tank,
It is an object of the present invention to provide a liquid cooler that can improve cooling efficiency by gradually causing flowing liquid to flow down.

Hereinafter, this invention will be explained based on an embodiment shown in the drawings.

1 in Figures 2 and 3 is the main body of the cooling machine, and this main body 1
A cooling water tank 3 surrounded by a heat insulating material 2 is provided inside.

The cooling water tank 3 has a cylindrical shape with a bottom, and is formed with a large diameter part 6 having an opening 5 at the upper part and a small diameter part 7 at the lower part, with an upper intermediate support part 4 in between.

The support portion 4 is formed into an inverted conical shape and constitutes an inclined surface 8, and this inclined surface 8 is used for liquid 9 such as drinking water.
A liquid tank 10 accommodating the liquid is removably mounted.

This liquid tank 10 is formed in a cylindrical shape, and the bottom surface thereof has a spout 11 consisting of a large number of small holes along its outer periphery.
・is drilled.

Furthermore, a cooler 12 is provided on the outer peripheral surface of the small diameter portion 7 of the cooling water tank 3, and is configured by winding a refrigerant pipe in a spiral shape, and this constitutes a refrigeration cycle together with a compressor and a condenser (not shown). are connected like this.

The inner peripheral surface of the small diameter portion 7 of the cooling water tank 3 is formed as a flow path 13 for the liquid 9, and a metal mesh 14 made of stainless steel or the like with a fine mesh or large mesh is attached to the upper edge of the flow path 13. ing.

Note that 15 is a faucet that projects from the bottom of the cooling water tank 3 to the front of the main body 1 via a pipe 16, and the cooled liquid 9 can be supplied by opening the cock 17.

Next, the operation of the above embodiment will be explained.

When the liquid tank 10 is placed on the support part 4 of the cooling water tank 3,
The liquid 9 is gradually poured out from the spout 11 and flows down onto the inclined surface 8.

The liquid flowing down the slope 8 flows down along the slope, flows through the flow path 13 on the inner peripheral surface of the cooling water tank 3, and is stored at the bottom.

At this time, since the metal mesh 14 is provided in the middle of the flow path 13, the flow velocity of the liquid 9 is extremely reduced, and the liquid 9 flows evenly on the inner circumferential surface thereof and gradually advances downward.

At this time, the liquid 9 is cooled by the cooler 12 and then flows down into the liquid 9 stored at the inner bottom of the cooling water tank 3.

The liquid 9 stored in the inner bottom of the cooling water tank 3 in this way
can be supplied from the faucet 15 as needed.

As explained above, in this invention, since the supporting part is formed into an inverted conical inclined surface, the liquid dripping from the spout of the liquid tank (spreads out on the inclined surface), and a metal mesh is provided on the inner circumferential surface of the cooling water tank. Therefore, the liquid flowing down along the inner peripheral surface of the cooling water tank can be spread evenly over the entire inner peripheral surface.

Therefore, since the heat conduction through the metal mesh is improved, the cooling efficiency of the liquid is improved, low-temperature liquid can be supplied satisfactorily, and the structure is simple.

[Brief explanation of drawings]

FIG. 1 is a vertical side view showing a conventional liquid cooler, FIG. 2 is a vertical side view showing an embodiment of the present invention, and FIG. 3 is a cross-sectional view showing an enlarged metal mesh. ...Cooling water tank, 4...Support part, 8.
... Slanted surface, 10 ... Liquid tank, 12
...Cooler, 13...Flow path, 14.
...Metal mesh.

Claims (1)

[Claims] 1. In a liquid cooler that has a support part that supports a liquid tank at the upper part of the cooling water tank and a cooler that cools the liquid poured out from the liquid tank at the lower part, the support part is tilted in an inverted conical shape. and the lower inner circumferential surface of the cooling water tank is used as a flow path for liquid poured out from the liquid tank,
A liquid cooling machine characterized by providing a metal net in this flow path.