KR101520668B1 - A device for super cooling - Google Patents

Abstract

The present invention relates to a supercooling apparatus, and more particularly, to a supercooling apparatus capable of smoothly performing a supercooling regardless of the size of a water reservoir or the like accommodated in the supercooling apparatus.

To achieve these and other advantages and in accordance with the purpose of the present invention, as embodied and broadly described herein, there is provided a container comprising: a container body having a predetermined storage therein; A heating device provided inside the cover member; And an elastic supporting member which is provided inside the accommodating container unit and elastically supports the contents accommodated in the accommodating container unit.

A supercooling device, a container portion, a cover member

Description

A DEVICE FOR SUPER COOLING

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a supercooling device, and more particularly, to a supercooling device capable of smoothly performing a supercooling regardless of the size or height of a container to be accommodated.

The supercooling refers to a phenomenon in which a melt or solid does not change even when cooled to a phase transition temperature or lower in an equilibrium state. Each of the materials has a stable state according to the temperature at that time so that if the temperature is changed gradually, the member of the material can follow the change of temperature while maintaining a stable state at each temperature.

However, when the temperature suddenly changes, there is no room for the member to change to a stable state according to each temperature, so that the stable state at the starting point temperature is maintained, or a part thereof changes to the state at the end point temperature .

For example, when water is slowly cooled, it does not solidify temporarily even when the temperature is lower than 0 占 폚. However, when the object becomes supercooled, it becomes a kind of metastable state, and even in the case of slight stimulation, its unstable equilibrium state is broken, and it is easy to move to a more stable state.

That is, a small operation of the substance is applied to the supercooled liquid, or when the liquid suddenly shakes, solidification starts, the temperature of the liquid increases to the freezing point, and a stable equilibrium state is maintained at the temperature.

A technique for making such a supercooled liquid is to provide an electromagnetic force around the container in which the liquid is contained to keep the water molecules from moving under the liquid freezing temperature so that they do not solidify.

In addition to this method, there is also a method in which the temperature of the image can be maintained by using a heater so as to form the liquid around the liquid at a temperature below the freezing point, .

 When a method using a heater is used, a liquid container containing a predetermined liquid is placed in a container, an open portion of the container is covered with a cover having a heater, and then heating is performed.

However, when the height of the liquid container accommodated in the container is excessively small, the heat of the heating device is not transmitted to the surface of the liquid contained in the liquid container.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems and it is an object of the present invention to provide an image forming apparatus capable of forming an image atmosphere around a liquid surface of a liquid contained in a liquid container regardless of the height of the liquid container accommodated in the supercooling device .

To achieve these objects and other advantages and in accordance with the purpose of the invention, as embodied and broadly described herein, A cover member provided to open and close the receiving container unit; A heating device provided inside the cover member; And an elastic supporting member which is provided inside the accommodating container unit and elastically supports the contents accommodated in the accommodating container unit.

The elastic support member may include a support plate for supporting a lower portion of the water; And an elastic member disposed between the support plate and the bottom surface of the accommodation container portion.

The elastic member may be a coil spring, one end of the coil spring is fixed to the support plate, and the other end of the coil spring is fixed to the bottom surface.

In addition, the elastic members are provided in a plurality of spaces and are spaced apart from each other.

Further, the heating device is a heater arranged on the inner wall of the cover member in a coil form.

A coupling guide protruding from a side surface of the cover member so that the cover member is rotatably coupled to the accommodating container unit; And an engaging portion provided on the inner wall of the receiving portion to be slidably engaged with the engaging guide portion.

The heating unit may further include a rising restricting portion extending downward from an upper portion of the inner surface of the cover member to prevent the predetermined stored object from contacting the heating device and restricting the lifting of the predetermined stored object.

According to the present invention, even if a container having a low height is accommodated in a supercooling device by elastically supporting the container regardless of the height of the container accommodated in the container, the surface of the liquid contained in the container is positioned in the heater portion of the supercooling device So that the sleeping portion can be maintained as an image.

Accordingly, there is an advantage in that the liquid can be conveniently supercooled even if the liquid contained in the container having a low height is transferred to a separate container and then supercooled.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings.

1, the refrigerator including the supercooling device 20 of the present invention includes a main body 1 having a refrigerating chamber 2 on one side and a freezing chamber 3 on the other side, And a door (3,4) for opening and closing the freezing chamber (3) and the refrigerating chamber (2).

In the freezing chamber 3, a supercooling chamber 10 capable of subcooling liquid or other meat is separately provided, and a supercooling device 10 for introducing a liquid container into the supercooling chamber 10 20 are provided.

The supercooling device 20 includes a container 30 having a size such that a liquid container can be accommodated therein, a cover member 40 for closing an opening portion of the container 30 to seal the inside of the container 30, And a heater (50) which is drawn into the inside of the heater (40).

2 shows a state in which a predetermined liquid container B is contained in the supercooling device 20. The accommodating container 30 is provided in the form of a cylinder, and the liquid container B Is elastically supported by the elastic supporting member 60.

The elastic support member 60 is provided between the support member 61 and the bottom surface of the container 30 so as to support the lower surface of the liquid container B, And an elastic member 62 for providing the elastic member. The elastic members 62 are preferably formed in the form of coil springs, and a plurality of the elastic members 62 are preferably provided so as to be evenly distributed.

A heating device 50 is provided inside the cover member 40. The heating device 50 is formed in a coil shape so that the heating device 50 can be arranged to surround the upper portion of the liquid container with a predetermined gap therebetween And is preferably provided inside the cover member (40).

The heating device 50 formed in a coil shape is preferably inserted into the cover member 40 through a predetermined protrusion 41 provided on the cover member 40, Power is applied by the control operation of the control unit provided outside the supercooling chamber 10 to operate.

As shown in Fig. 3, the accommodating container 30 and the cover member 40 are coupled to seal the inner space thereof. To this end, an inner side wall of the opening portion 31 of the accommodating container 30 is provided with a helical engagement portion 32 for engaging with the cover member 40, and the lower outer wall of the cover member 40 A coupling guide portion 42 to which the coupling portion can be coupled is provided.

Accordingly, the user inserts a predetermined liquid container into the receptacle 30, and then contacts the receptacle 30 and the cover 40 to rotate the receptacle 30, And the engaging guide portion 42 move in the sliding state with respect to each other, thereby coupling the accommodating container 30 and the cover member 40 together.

Fig. 3 shows that a plurality of elastic members 62 are provided, while Fig. 4 shows that there is only one elastic member 62, and the other configuration is the same as in Fig.

5 and 6 show a state in which the liquid container B having different heights is stored in the supercooling device. When the liquid container B having a relatively small height as shown in FIG. 5 is inserted, The liquid container B is lifted up due to the elastic force of the elastic member 61 of the support member 60.

The upper portion of the cover member 40 is provided with an upwardly protruding restricting portion 43 which comes into contact with the lid of the liquid container B and the liquid container B is excessively raised And the lid portion of the liquid container (B) can be prevented from being damaged by contact with the heating device (50).

In the case of the liquid container B having a high height as shown in FIG. 6, the elastic member 62 maintains a compressed state unlike the case of FIG. That is, when the user joins the container 30 and the cover member 50 in a state in which the liquid container B is placed inside the container 30, The elastic member 62 of the elastic supporting member 60 is compressed so that the liquid container B is urged toward the elastic supporting member 60. As a result,

7, after the liquid container B is inserted into the container 30, the cover member 40 and the container 30 are coupled to seal the inner space of the container 40. As a result, The container B is supported by the elastic supporting member 60 and is lifted up but the lid portion of the liquid container B is in contact with the rising limiting portion 43 to limit the rise thereof, The elastic restricting member 43 and the elastic supporting member 60 are tightly fitted.

In this state, the upper portion of the liquid container B is enclosed by the heating device 50.

In this situation, it will be understood that the liquid W contained in the liquid container B is subjected to a supercooling process.

When the temperature of the air A3 in the subcooling chamber 10 drops below the phase transition temperature of the liquid W in a state where the heating device 50 is not operated, The liquid is supposed to maintain the supercooled state even at the cooling temperature below the production stand.

During this cooling, evaporation takes place from the liquid W and water vapor is placed in the air layer A1 located above the liquid W surface.

The water vapor in the air layer inside the liquid container B in a state in which the inside of the liquid container B is sealed floats inside the air layer A1 or is attached to the inner wall of the liquid container B, As the temperature of the ice crystal producing zone is reached or passed, the water vapor forms ice tuberculosis.

This ice tuberculosis falls to the surface of the liquid W or comes into contact with the liquid W at the contact point P1 (P2) between the liquid surface and the inner wall of the liquid container, whereby the supercooled state of the liquid is released, Freezing state is caused.

However, when the heating device 50 is driven, heat is generated in the heating device 50, and the air temperature around the upper portion of the liquid container B rises due to convection. At this time, it is preferable that the temperature of the air around the upper part of the liquid container B becomes equal to or higher than the phase transition temperature of the liquid so that the water vapor does not become ice crystal.

8, when the heating device is operated, the temperature of the air (A3) in the supercooling chamber, the temperature of the internal air (A2) of the supercooling device, the temperature distribution of the air In the case of forming the air in the supercooling chamber A3 at a temperature of about -12 to -13 ° C. and in the case of the air inside the supercooling device A2 at about -10 ° C., 2), a part of the air heated by the heating device (see FIG. 2, 50) provided in the storage tank 40 flows into the storage container 30, It is high. However, the supercooled state of the liquid can be maintained even within this temperature range. At this time, as shown in the graph, the temperature of the internal air A2 of the supercooling device and the temperature of the liquid W in the liquid container are substantially equal to each other.

On the other hand, in the case of the air A1 provided in the upper part of the inside of the liquid container, since the temperature of the air A1 is directly affected by the air heated by the heating device 50, The water vapor contained in the air does not become ice crystals and stays in a vapor state.

When the liquid container B is filled in the subcooling device with a considerable amount of the liquid irrespective of the height of the liquid container B when the supercooling device is to maintain the supercooled state, The air layer A1 formed on the surface of the liquid contained in the liquid container by the elastic supporting action of the elastic supporting member 60 is disposed around the heating device 50 so that the temperature of the air layer A1 is higher than the ice crystallization temperature of the liquid As shown in Fig.

1 is a front view of a refrigerator including a supercooling device according to the present invention.

2 is an assembled perspective view of a supercooling device according to the present invention.

3 is a combined perspective view of another embodiment of the supercooling apparatus according to the present invention.

4 is an exploded perspective view of the supercooling apparatus according to the present invention.

5 is a side sectional view of a supercooling apparatus according to the present invention in which a small-sized liquid container is housed.

6 is a side cross-sectional view of a supercooling apparatus according to the present invention in which a liquid container of a large size is housed.

7 is a side sectional view showing the operation of the heating apparatus in the supercooling apparatus according to the present invention.

8 is a graph showing the temperature distribution of air in each zone in the supercooling apparatus according to the present invention.

DESCRIPTION OF THE EMBODIMENTS

20: supercooling device 30: receptacle container

40: cover member 50: heating device

Claims (7)

A storage room in which the temperature is maintained below minus zero; A storage container provided in the storage compartment to receive a predetermined storage; A cover member provided to open and close the receiving container unit; A heating device provided inside the cover member; An elastic supporting member which is provided in the accommodating container unit and elastically supports the water contained in the accommodating container unit; And a raising restricting portion provided to extend downward from an upper portion of the inner surface of the cover member to prevent the predetermined stored object from contacting the heating device and to restrict the rise of the predetermined stored object, Wherein the heating device heats the air layer provided in the upper part of the stored matter. The method according to claim 1, Wherein the elastic support member comprises: a support plate for supporting a lower portion of the water; And an elastic member disposed between the support plate and the bottom surface of the accommodating container portion, 3. The method of claim 2, Wherein the elastic member is constituted by a coil spring, one end of the coil spring is fixed to the support plate, and the other end of the coil spring is fixed to the bottom surface. The method according to claim 2 or 3, Wherein the elastic members are provided in a plurality of spaces and are spaced apart from each other. The method according to claim 1, Wherein the heating device is disposed in a coil shape on the inner wall of the cover member. The method according to claim 1, A coupling guide protruding from a side surface of the cover member so that the cover member is rotatably coupled to the receiving container unit; Further comprising an engaging portion provided on a side wall of the accommodating container portion to be slidably engaged with the engaging guide portion. delete

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