JPH06117782A - Liquid cooler - Google Patents

Abstract

PURPOSE:To provide the cooler being most suitable for cooling a liquid in relation to food processing in which depositions are easy to occur. CONSTITUTION:Nozzles 12 for allowing a liquid to be cooled to flow in the state of whirling are provided in a cooling cylinder 1 placed at the midway part of a conduit pipe for the liquid to be cooled. As a cooling means for the cooling cylinder 1, a refrigerant part 3 consisting of both the coiling of a cooling coil 2 and a flowing liquid, i.e., antifreezing fluid, which covers the cooling coil 2 is provided. In this way, the efficiency of heat-exchange, i.e, cooling efficiency, is increased and even if depositions educed from the liquid to be cooled are allowed to adhere to the inside of the cooling cylinder 1, the depositions can be easily washed out.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a liquid cooler mainly used in the food industry.

[0002]

2. Description of the Related Art A liquid cooler is used when cooling wine, sake, etc. for refrigeration, cooling wash water used when processing fresh fish, and other cooling liquids.

The conventional liquid cooler is of a sealed type so as to ensure the hygiene of the liquid to be cooled without the risk of intrusion of other impurities. Further, the continuous cooling structure of the liquid is adopted in order to improve the efficiency of industrial production. Since it is necessary, a so-called multi-tubular heat exchange system is employed in which a cooling coil connected to a refrigerating device is placed inside a cooling tank which is hermetically sealed and provided in the middle of the flow path of the liquid to be cooled.

[0004]

By the way, when the liquid to be cooled is not pure water, for example, when cooling wine, tartaric acid, tartrate, etc. are deposited and adhere to the cooling coil. The contained component of the liquid to be cooled is deposited and laminated and attached to the cooling coil. Therefore, internal cleaning becomes necessary after an appropriate operating period.

However, the cooling coil has a cooling efficiency (heat exchange efficiency).
In order to improve the cooling efficiency, the contact area with the liquid to be cooled is formed to be larger than that, and the shape of the cooling coil is complicated and cleaning is extremely difficult. Therefore, the present invention proposes a liquid cooler having a simple heat exchange surface.

[0006]

A liquid cooling machine according to the present invention comprises a cooling cylinder having a long tubular body and a cooling portion provided around the outer periphery thereof,
It is characterized in that it is provided on one end surface of the cooling cylinder and is provided with an injection portion of the liquid to be cooled which is provided obliquely to the axial direction of the cooling cylinder.

Further, according to the present invention, a cooling coil connected to a refrigerating device is wound around the outer circumference of a long cylindrical cooling cylinder through which a liquid to be cooled is circulated, and a cooling coil is provided by a liquid refrigerant portion provided with fluidity. It is characterized in that the whole is covered. Furthermore, the invention is characterized by combining the above two inventions.

[0008]

When the liquid to be cooled is jetted from the jetting portion for the liquid to be cooled provided obliquely with respect to the axial direction of the cooling pipe into the cooling pipe having the cooling portion on the outer periphery, the liquid to be cooled is cooled. It flows in the inside in a rotating state and makes good contact with the inner surface of the cooling cylinder, so that the liquid to be cooled is cooled.

When the cooling coil wound around the outer periphery of the cooling cylinder is covered with the liquid refrigerant layer having fluidity, the liquid refrigerant cooled by the cooling coil efficiently cools the cooling cylinder.

[0010]

EXAMPLES Next, examples of the present invention will be described. The cooling machine shown as the embodiment of the present invention includes a cooling unit including a cooling cylinder 1, a cooling coil 2 and a refrigerant unit 3. The cooling cylinder 1 is, for example, a long cylinder made of stainless steel having high chemical resistance. Of the liquid to be cooled a, which constitutes a flow path system for the liquid to be cooled a, is provided with the separately-installed pump 11, and is provided on one end face side in a direction oblique to the axial direction of the cooling cylinder 1. And an injection unit 12.

The cooling coil 2 is wound around the outer periphery of the cooling cylinder 1 and is provided as a separate refrigerating device (a general refrigerating device such as a heat pump type by compression and expansion of CFC gas) 21.
The refrigerant b of the refrigerating apparatus is circulated in the cooling coil 2 by being connected to the cooling coil 2. The refrigerant part 3 has a double structure in the outer peripheral portion of the cooling cylinder 1 and encloses the entire cooling coil 2 inside, and the antifreeze liquid c is circulated by a separate pump 31.

Then, the pump 11 is operated to operate the cooling cylinder 1.
When the liquid to be cooled a is jetted into the inside from the jetting unit 12, the liquid to be cooled a flows in the cooling cylinder 1 in a rotating state. At the same time, when the refrigerating device 31 and the antifreezing liquid pump 31 of the refrigerant part 3 are also operated, a low temperature gas flows in the cooling coil 2 and at the same time, the antifreezing liquid c is also cooled by the contact with the cooling coil 1 to cool the entire cooling cylinder 1. .

Therefore, the liquid a to be cooled is in the rotating state and is in the cooling cylinder 1.
It flows through the inside and is cooled by heat exchange due to contact with the inner surface of the cooling cylinder 11 in the middle of this flow.
The contact distance with the inner surface of the cooling cylinder 1 becomes longer than in the case of passing the inside, and efficient heat exchange is performed. Further, the cooling cylinder 1 is immediately cooled by the antifreeze liquid c even if its temperature is raised by contact with the liquid to be cooled a, so that the cooling cylinder 1
The inner surface temperature of is always maintained at a low temperature, compared with the case where the cooling coil 2 is simply wound around the outer periphery of the cooling cylinder 1.
It is possible to realize efficient heat exchange.

Further, the cooling cylinder 1 which is the flow path of the liquid to be cooled of the present invention has no obstacle inside, and even if the deposit adheres to the inner surface of the cooling cylinder 1 and is laminated, it can be easily brushed or the like. It can be washed.

According to the present invention, a cooling liquid which is connected to a refrigerating device is wound around a cooling cylinder installed in the flow path of the liquid to be cooled, and a low temperature of the cooling coil is efficiently transmitted to the cooling cylinder (antifreeze liquid). ) Is provided with a refrigerant section,
The specific structure of the refrigerating apparatus, the type of flowing liquid used for the refrigerant portion, the flow imparting means, and the like can be arbitrarily reserved.

[0016]

As described above, according to the present invention, the liquid to be cooled is made to flow in a rotating state in the cooling cylinder installed in the flow path of the liquid to be cooled, or the cooling coil is used as the cooling means for the cooling cylinder. It is equipped with a winding part and a refrigerant part made of a flowing liquid (antifreeze liquid) that encloses the cooling coil, and the cooling liquid can be efficiently cooled only by passing through the cylindrical cooling part of the cooling liquid. Even if deposits from the liquid to be cooled adhere to the inside of the cooling cylinder, which is the passage, it is very easy to clean the deposits, and it is possible to provide an optimal liquid cooler for liquid cooling related to food processing where deposits tend to occur. It is a thing.

[Brief description of drawings]

FIG. 1 is a sectional view of an essential part of an embodiment of the present invention.

[Fig. 2] Schematic diagram of the entire system

[Explanation of symbols]

 1 Cooling Cylinder 11 Pump 12 Injection Port 2 Cooling Coil 3 Refrigerant Part

Claims (3)

[Claims] 1. A cooling cylinder having a long cylindrical body with a cooling portion provided around the outer circumference thereof, and a liquid to be cooled provided on one end surface of the cooling cylinder and obliquely provided with respect to the axial direction of the cooling cylinder. A liquid cooling device comprising: 2. A cooling coil connected to a refrigerating device is wound around the outer circumference of a long cylindrical cooling cylinder through which a liquid to be cooled is circulated, and the entire cooling coil is covered with a liquid refrigerant portion having fluidity. A liquid cooler characterized by being formed. 3. The cooling machine according to claim 2, further comprising: an injection portion for the liquid to be cooled, which is installed on one end surface of the cooling cylinder and is provided obliquely with respect to the axial direction of the cooling cylinder. A liquid cooling device characterized by being provided.