JPH01304003A - Heating/cooling container - Google Patents

Abstract

PURPOSE:To easily arranging a valve for taking a substance to be treated from a container main body, by providing the jacket chamber, which is provided around the container main body and has a heat exchanger provided therein, apart from a liquid sump part having an electromagnetic induction heater and connecting both of them by a pipe. CONSTITUTION:A jacket chamber 4 is provided so as to surround a container main body 1 and a heat exchanger 6 is provided therein. A liquid sump part 12 having an electromagnetic induction heater 13 and receiving a heating medium 5 in a state sealed under vacuum is provided apart from the jacket chamber 4. Both of them are connected by connection pipes 17, 18 and the evaporated heating medium is supplied to the jacket chamber 4 by the connection pipe 17 and the liquid phase heating medium condensed therein is recovered to the liquid sump part 12 by the connection pipe 18. Since the jacket chamber 4 and the liquid sump part 12 are separated, the space required in the arrangement of a valve 11 can be easily and certainly secured in the bottom part of the container main body 1.

Description

[Detailed description of the invention] (Industrial application field) The present invention relates to a heating and cooling container.

(Prior art) In a heating container, a jacket chamber in which a gas-liquid two-phase heat medium is sealed is installed around the main body of the container, and the heat medium is heated and evaporated by an electromagnetic induction heating mechanism, and the evaporated heat medium is heated. It is already known that the object to be processed inside the container body is heated by the latent heat generated when it condenses.

In addition, in this type of container, after raising the temperature of the object to be processed to a certain temperature, it is necessary to maintain the temperature at a constant temperature while removing heat generated from the object, such as heat of chemical reaction and heat of dissolution. Sometimes.

In addition, the workpiece heated to a certain temperature as described above,
Thereafter, it may be necessary to lower the temperature to a certain temperature.

To this end, it has been separately proposed to provide a cooling heat exchange device in the jacket chamber, to condense the vaporized heat medium, and to bring the condensed heat medium into contact with the container body to cool it.

(Problems to be Solved by the Invention) If the cooling by the heat exchange device described above is used, it is possible to heat and cool the object to be treated inside the container body. In order to promote this, the liquid reservoir and electromagnetic induction heating mechanism are installed at the bottom of the container body.

Therefore, if you try to install the ascending order, which is used when taking out the objects to be processed in the container body, at the bottom of the container body, it will interfere with the liquid reservoir, etc., making installation difficult. It may be necessary to provide extra space at the bottom of the container body.

This invention provides a container that can be heated and cooled.
The object of the present invention is to make it possible to easily take out a processed material from the bottom of the container body, and also to enable the installation of a liquid reservoir and an electromagnetic induction heating mechanism without requiring extra space at the bottom of the container body. shall be.

(Means for Solving the Problems) This invention provides a heat exchange device that cools and condenses the vaporized heat medium inside the jacket chamber, and also has a liquid reservoir in a position separated from the container body. and an electromagnetic induction heating mechanism for heating the heat medium in the liquid reservoir, in which the heated and vaporized heat medium in the liquid reservoir is placed between the jacket chamber and the liquid reservoir. It is characterized by providing a connecting pipe that supplies the jacket chamber and a connecting pipe that collects the condensed heat medium in the jacket chamber to a liquid reservoir.

(Function) The heat medium heated by the electromagnetic induction heating mechanism and vaporized is supplied into the jacket chamber through the connecting pipe. When the heat medium is condensed, the container body is heated by the exchange of latent heat of vaporization.

When cooling the container body, the heat exchanger cools the heat medium that has already been vaporized for heating the container body.

As a result of this cooling, the heat medium is condensed, becomes liquid, touches the peripheral wall of the container body, and flows down along the peripheral wall. In this process, the heat medium is heated and evaporated by the heat held in the container body. The container body is cooled by the latent heat of vaporization taken away at that time.

The liquid reservoir containing the liquid phase heat medium is separated from the container body, and a connecting pipe for supplying and recovering the heat medium is installed between the two. Therefore, there is no need to install a liquid reservoir or an electromagnetic induction heating mechanism at the bottom of the container body. Therefore, a space can be easily secured at the bottom of the container body for installation in ascending order for taking out the objects to be processed.

(Example) An example of the present invention will be described with reference to the drawings. 1 is a container body, 2 is a stirrer, and 3 is an object to be treated. 4 is a jacket chamber provided so as to surround the container body 1; 5 is a gas-liquid two-phase heating medium; and 5' is a gas phase portion of the heating medium 5.

A heat exchange device 6 for cooling is provided inside the jacket chamber 4. The heat exchange device 6 consists of, for example, a finned pipe 7, which is installed around the outer periphery of the container body 1 in a spiral manner. A heat medium for cooling is supplied to the pipe 7, and 8 is an inlet/outlet thereof.

A liquid collecting device 9 is installed below and adjacent to the pipe 7. The liquid collecting device 9 has a plate 10 formed in a spiral shape, and is arranged so that the plate 10 is located below the pipe 7. At this time, the plate 10 was made to be inclined toward the outer wall of the container body 1 as shown in the figure, and the plate 11 was provided at the bottom of the container body 1. This is a valve for taking out the object to be processed.

Reference numeral 12 denotes a liquid reservoir portion for the heat medium 5, in which the heat medium 5 is sealed under reduced pressure. 13 is arranged in a space 14 within the liquid reservoir 12. An electromagnetic induction heating mechanism for heating a heat medium 5, which includes an iron core 15 and an induction coil 16 wound around the iron core 15.
It is mainly composed of.

According to this invention, the upper part of the jacket chamber 4 and the liquid reservoir part 1
It is connected to the upper part of 2 by a connecting pipe 17. The vaporized heat medium is supplied into the jacket chamber 4 through the connecting pipe 17. The lower part of the jacket chamber 4 and the lower part of the liquid reservoir 12 are connected by a connecting pipe 18. The liquid heat medium condensed in the jacket chamber 4 is recovered into the liquid reservoir 12 through the connecting pipe 18 .

In the above configuration, when the electromagnetic induction heating mechanism 15 is driven, an electric current is induced, Joule heat is generated, and the heat medium 5 in the liquid reservoir 12 is heated and evaporated. Evaporated steam is transferred to connecting pipe 1
It is supplied into the chamber 4 through the interior of the container body 1, and is condensed when it comes into contact with the outer wall surface of the container body 1.

At that time, the container body 1 is heated by releasing latent heat of condensation.

This heating heats the object to be processed 3 inside. The condensed heat medium returns to the liquid reservoir 12 from the bottom of the jacket chamber 4 via the connecting pipe 18, where it is heated again. Thereafter, this process is repeated to heat the object 3 to a predetermined temperature. This heating action is not particularly different from that of ordinary heating containers of this type.

Next, heat generated from the object 3, such as reaction heat and heat of dissolution, is removed to maintain it at a predetermined temperature, or when the object 3 is lowered for the next process. supplies a cooling heat medium to the heat exchange device 6, that is, to the pipe 7.

Then, the steam heat transfer medium 5' in the jacket chamber 4 condenses on the surface of the pipe 7, becomes liquid, and passes through the liquid collection device 9, that is, the plate 10.
The liquid is collected by From there, it flows down almost uniformly in the form of a film or drops along the outer wall surface of the container body 1.

While flowing down, the condensed heat medium receives heat from the object to be processed 3 which is in a high temperature state within the container body 1 via the wall surface of the container body 1, and is evaporated by the heat.

At that time, the latent heat of vaporization is transferred to the container body 1. Since it is taken away from the object 3 to be processed, the temperature of the object 3 to be processed quickly decreases.

At this time, the evaporated heat medium condenses again on the surface of the pipe 7, becomes liquid, and continues to contribute to the cooling of the object 3 to be processed.

When it is necessary to heat the object 3 again.

The supply of the cooling heat medium to the pipe 7 may be stopped. As a result, the object 3 to be processed is rapidly heated by the steam heat medium 5' within the jacket chamber 4.

In practice, the start and stop of the supply of the heat medium for cooling may be automatically controlled by detecting the temperature of the object 3 to be processed. Furthermore, if it is necessary to widen the cooling temperature range of the object 3 to be processed, the voltage applied to the electromagnetic induction heating mechanism 13, the frequency, etc. are controlled in accordance with the decrease in the temperature of the object 3 to be processed.

The amount of heat supplied to the heat medium in the jacket chamber 4 may be reduced.

For the jacket chamber 4, a liquid reservoir 12. Therefore, the electromagnetic induction heating device 13 is also arranged separately. Since it is only necessary to connect the valves 17 and 18 using the connecting pipes 17 and 18, the space required for installing the valve 11 can be easily and reliably secured at the bottom of the container body 1.

(Effects of the Invention) According to the invention described in detail above, in a container configured to allow heating and cooling, the container body having a jacket chamber, the liquid reservoir and the electromagnetic induction heating mechanism are separated. Since the two are connected by a connecting pipe, it is possible to easily install the objects in ascending order to take out the object from the container body, and there is no need for unnecessary space at the bottom of the container body. This has the effect of eliminating

[Brief explanation of the drawing]

The figure is a sectional view showing an embodiment of the present invention. DESCRIPTION OF SYMBOLS 1... Container body, 4... Jacket chamber, 5... Heat medium, 6... Heat exchange device, 9... Liquid collection device, 11...
- Valve, 12...Liquid reservoir, 13...Electromagnetic induction heating mechanism, 17.18...Connecting pipe.

Claims (1)

[Claims] A jacket chamber in which a gas-liquid two-phase heating medium is sealed, which heats the container body by giving and receiving latent heat during condensation, is provided around the container body in which the object to be processed is placed, and In addition to installing a heat exchange device to cool and condense the vaporized heat medium, a liquid reservoir is installed at a position separated from the container body, and an electromagnetic device for heating the heat medium in the liquid reservoir is installed. A connecting pipe is provided between the jacket chamber and the liquid reservoir for supplying the heated and vaporized heat medium of the liquid reservoir to the jacket chamber, and a connecting pipe for supplying the heated and vaporized heat medium of the liquid reservoir to the jacket chamber, A heating and cooling container comprising a connecting pipe for recovering a heat medium to the liquid reservoir.