JPH0619968Y2 - Liquid cooling device - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION (Industrial field of application) The present invention relates to an improvement of a liquid cooling device using a shell-and-coil heat exchanger in which a spiral cooler is housed in a shell casing. It is a thing.

(Prior Art) As a liquid cooling device for cooling liquid used in various devices such as an electric discharge machine and a laser application device, it is known that a heat exchanger (cooler) A and a tank B are separated, With this structure, as shown in FIG. 2, a liquid circuit without a water leak connecting between the cooler A and the tank B is required, and the heat insulation of the cooler A and the liquid circuit and the cooling for preventing the liquid leak are required. The vessel must be completely sealed.

In some cases, the heat exchanger A is directly installed in the tank B. In this case, the agitator C (Fig. 3A) or the pump D (Fig. 3B) is used to stir the liquid in the tank to generate heat. Although they are exchanged, there is a drawback that the efficiency of heat exchange is not good.

(Problems to be Solved by the Invention) The present invention omits the circuit connecting the cooler A and the tank B, which are the drawbacks of the above-mentioned prior art, and the means for preventing water leakage of the cooler, and heat exchange It is an object of the present invention to provide a liquid cooling device which has high efficiency, can perform stable heat exchange, and can easily adjust the evaporation amount.

(Means for Solving Problems) A shell-and-coil type heat exchanger having a coil-shaped cooler arranged in a tank and housed in a casing, and a heat exchanger mounted vertically from a casing upper plate. A cylindrical passage whose lower part communicates with the inside of the casing via a communication port and whose upper end opens toward the inside of the tank; and a circulation pump 10 for guiding the liquid in the tank into the casing via a pipe, In a device in which a cylindrical inner shell is arranged in the casing 2 and a cooler is spirally arranged in the inner shell, the liquid in the tank is introduced into the casing in which the heat exchanger is arranged so that the cooling liquid is circulated. This object is achieved by the configured cooling device for liquids.

(Embodiment) In FIG. 1, 1 is a tank, 2 is a casing, and a shell-and-coil type heat exchanger is constituted by the casing 2 and a spiral cooler arranged inside thereof.
The casing 2 is composed of a side plate 3 and an upper plate 4, and a cylindrical passage 5 is attached to the center of the upper plate 4, and the upper end of the passage 5 is opened toward the inside of the tank 1 and is located below the passage 5. Has a communication port 6 and communicates with the inside of the casing 2. The tank 1 is connected to pipes 7a and 7b which are connected to a device (not shown), and a pressure feed pump 8 circulates the cooling liquid in the tank 1.

Reference numeral 9 denotes a cylindrical inner shell in which a cooler is spirally wound around the inner and outer circumferences thereof, and a central passage 5 in the casing 2 is provided.
Is installed at a predetermined distance from the upper plate 4 with the center as the center. Reference numeral 10 denotes a circulation pump for guiding the liquid in the tank 1 into the casing 2. In this embodiment, the liquid is sucked from a pipe 12 having an intake 11 and is introduced into the casing 2 from a pipe 13 communicating with a lower portion of the casing 22. A circuit is formed that returns to the inside of the tank 1 from the passage 5 after the heat is fed and exchanges heat with the cooler.

When the operation is performed in the above structure, the liquid filled in the tank 1 enters from the inlet 11 by the circulation pump 10 and enters the casing 2 from the pipe 13. In the casing 2, since it is blocked by the inner shell 9, the liquid is directed upward as shown by the arrow in the figure, passes through between the top plate 4 and downward, and enters the communication port 6 below the passage 5. It returns to the inside of the tank 1 from the upper opening of the passage 5 and is repeatedly cooled. Then, the cooled liquid is sent to a device (not shown) by the pressure feed pump 8 and used.

In the present embodiment, the circulation of the liquid in the tank enters from the outside of the casing 2 and returns to the inside of the tank from the opening of the passage 5, but the direction of this flow may be reversed.

(Effect) The present invention has a shell-and-coil type heat exchanger arranged in the tank, and is configured to introduce the liquid in the tank into the casing of the heat exchanger through the circulation pump. The water channel connecting the exchangers is not needed, and the cooler is spirally wound around the cylindrical inner shell placed in the casing, so the flow of liquid is blocked by the inner shell and reaches the central passage. During this period, a cooler and a heat exchanger can be efficiently formed. Therefore, the operating condition of the refrigerator is stable,
Since the cooling addition can be kept constant, the evaporation amount can be adjusted with a simple structure such as a capillary tube.

[Brief description of drawings]

FIG. 1 is a sectional view schematically showing an embodiment of the present invention.
The figure is a schematic circuit diagram showing a known tank and a heat exchanger (cooler) separated from each other, and FIGS. 3A and 3B are explanatory views of a known tank having a heat exchanger. 1 ... Tank, 2 ... Casing 5 ... Passage, 8 ... Pressure pump 9 ... Inner shell 10 ... Circulation pump, A ... Heat exchanger (cooler) B ... Tank, C ... Agitator D ……pump

Claims (1)

[Scope of utility model registration request] 1. A shell-and-coil type heat exchanger in which a coil-shaped cooler arranged in a tank 1 is housed in a casing 2, and a lower part mounted vertically from the center of an upper plate of the casing of the heat exchanger. Is connected to the inside of the casing 2 through the communication port 6 and has a cylindrical passage 5 having an upper end opening toward the inside of the tank 1, and a circulation pump 10 for guiding the liquid in the tank 1 into the casing 2 through a pipe. And a cylindrical inner shell 9 is disposed in the casing 2, and the inner shell 9 is
A cooling device for liquid, characterized in that a cooler is arranged in a spiral shape.