JPH0740851Y2 - Cooling system - Google Patents

Description

[Detailed Description of the Invention] [Industrial field of application] The present invention relates to a cooling device used for cooling a liquid concentrate.

[Conventional technology]

2. Description of the Related Art Conventionally, as an apparatus for cooling fluid foods or chemicals such as soup, a system in which a refrigerant is circulated by surrounding or containing a flexible pipe around the outside of a container is relatively often used. However, the refrigerant path formed by the flexible tube surrounding the outer circumference of the container cannot obtain a sufficient cooling effect because the contact area with the container is small, and the built-in type has a significantly large storage amount of the stock solution to be treated. It was not suitable because it decreased. In addition, although a method of separately cooling the raw material to be processed by vacuuming is also widely used, the equipment is generally oversized due to the use of a rigid and large container, and the space required for arranging these is large. However, it was not always suitable for processing a large-scale undiluted stock solution.

[Problems to be solved by the invention]

The present invention has been made in view of the above circumstances, and is relatively small in size, requires a small installation area, is efficient, and is easy to handle, and vacuum cooling and cooling using a circulating refrigerant work together. It is an object of the present invention to provide a novel cooling device which can significantly solve the problems in the conventional device, such as working to significantly enhance the cooling efficiency of the raw material to be treated.

[Means for solving problems]

In order to solve the above-mentioned problems, the present invention provides a cooling device having a closed cylindrical vacuum-proof container for circulating a refrigerant around the outer periphery and additionally providing an ejector portion to cool the stock solution to be treated, b. The side wall and lower bottom of the vacuum-proof container are composed of a plate coil section that seam-welds an embossed steel plate and a flat steel plate and forms a refrigerant path between the two steel plates. is there.

〔Example〕

 The present invention will be described below based on embodiments with reference to the drawings.

The present invention is a cooling device that is useful when applied to the cooling of a stock solution requiring treatment.

FIG. 1 is an explanatory view showing an example of an apparatus according to the present invention.

The central part of the device of the present invention is a closed cylindrical vacuum resistant container 1.
Exist in. In this container, a side wall portion 1a and a lower bottom portion 1b are formed by a plate coil member 2 as shown in FIG. 2, and its hollow portion 2a serves as a refrigerant path. In the present invention, the drum can is most preferably used. Since the plate coil member has higher strength than a flat steel plate having the same plate thickness, it is possible to reduce the plate thickness and reduce the weight. Seam welding is applied to the overlapping contact portion 3 between the embossed steel plate and the flat steel plate. The vacuum resistant container 1 according to the present invention has a strength that can withstand a vacuum degree of 730 mmHg or more and does not buckle.

An ejector 4 is attached to the vacuum resistant container 1. The ejector 4 causes the line pump 5 to drop the pumped water from the pipe 7 inserted in the water tank 6 in the direction of the arrow 8 to recirculate the pumped water to the water tank, so that the container 1 is in a vacuum state (for example, 730
〜740mmHg, 23 ℃ 〜25 ℃).

The stock solution to be treated (for example, soup) is cooled by a stock solution transport system, that is, a system in which the stock solution inlet / outlet 9 is used to feed the stock solution into the container 1 by the operation of a motor valve 10.
In the device of the present invention, for example, in the case of soup of about 80 ° C, it is cooled to about 25 ° C in 10 minutes.

In the device of the present invention, cooling is performed from the side wall of the container by the refrigerant (for example, cold water) circulating in the path of the hollow portion 2a.
It enters into the refrigerant inlet 13 at the lower part of the container 1 through the conduit 12 supplied from the medium intake 11, passes through the above-mentioned path, and is discharged 17 from the refrigerant outlet 14 at the upper part of the container 1 via the conduits 15 and 16. These refrigerants are recooled and recirculated as needed.

The plate coil member of the vacuum container according to the present invention is
The strength is greater than that of a flat steel plate member, and since the contact area is large due to the flexible tube method, the cooling efficiency is increased.
Further, since the outer surface side has an elliptical shape, the refrigerant circulates while rotating (vortexing), and a constant average flow upward can be secured, so that uniform cooling is possible.

Further, the breaking of the vacuum in this apparatus is performed by opening the motor valve 18 on the air-in side to allow air to flow from the air filter 19 into the container. After the vacuum in the container is broken, the cooled stock solution is discharged from the stock solution inlet / outlet 9 in the direction of the arrow β.

Using the apparatus of the present invention having the above-described structure, for example, in order to cool a stock solution requiring high temperature treatment to, for example, room temperature, the following operation is performed.

First, in the first step, the line pump 5 is operated to pump water from the water tank 6 to the ejector 4 and drop it in the direction of the arrow 8 to suck the air in the vacuum resistant container 1 through the pipe 4a to move the inside of the container. Hold in a vacuum state (for example, 730 to 740 mmHg). Then, in the second step, the stock solution to be treated (eg, soup at about 80 ° C.) is fed from the stock solution inlet / outlet port 9 to the motor valve.
Activate 10 to feed into container 1. The next third step is
The above-mentioned stock solution to be treated is, for example, from 80 ℃ to 23 ℃ to 24 ℃ in 10 minutes.
It is to be cooled down to. In this step, since the refrigerant circulates between the refrigerant inlet 13 and the refrigerant outlet 14 on the side wall of the container,
The stock solution in the container receives not only vacuum cooling but also indirect cooling by circulation cooling. The fourth and final step is to open the air filter in the container 1 by opening the motor valve 18.
The air flows in from 19 to break the vacuum, and thus the undiluted solution that has been subjected to the cooling treatment is discharged from the undiluted solution inlet / outlet 9 and transferred to a predetermined container.

[Effect of device]

The present invention is based on the above-described structure. The vacuum resistant container, which is the core of the device, has high strength, particularly high vacuum resistance, because the side wall and the lower bottom are formed of plate coil members. In addition to being effective for vacuuming the stock solution, and in addition to this, cooling is performed cooperatively by the path of the refrigerant formed on the outer surface thereof, so that cooling can be performed smoothly. In addition, an ejector and other devices are attached, but it does not have a large volume as a whole, it has a relatively small installation area, and it has many advantages such as easy handling. It is extremely useful when applied to foods, chemical products, etc.

[Brief description of drawings]

FIG. 1 is an overall explanatory view of an example of the device of the present invention, and FIG. 2 is a sectional view showing a plate coil member used as a side wall portion (body plate) of a vacuum resistant container according to the present invention. DESCRIPTION OF SYMBOLS 1 ... Vacuum resistant container, 1a ... Side wall part, 1b ... Lower bottom part, 2 ... Plate coil member, 2a ... Hollow part, 3 ... Seam welding part, 4
... Ejector, 5 ... Line pump, 6 ... Water tank, 9 ...
Stock solution inlet / outlet, 10 ... Motor valve, 11 ... Refrigerant inlet, 13 ...
Refrigerant inlet, 14 ... Refrigerant outlet, 18 ... Motor valve, 19 ... Air filter.

 ─────────────────────────────────────────────────── ─── Continuation of front page (56) References JP-A-62-191001 (JP, A)

Claims (2)

[Scope of utility model registration request] 1. A cooling device having a closed cylindrical vacuum-proof container for circulating a refrigerant on the outer periphery and for attaching an ejector to cool a stock solution to be treated, wherein a side wall part and a bottom part of the vacuum-proof container are embossed. A cooling device comprising a plate coil portion in which a steel plate and a flat steel plate are seam-welded and a hollow portion between the steel plates serves as a refrigerant path. 2. The cooling device according to claim 1, wherein the vacuum resistant container is formed by a drum can.