KR100445251B1 - Kim-Chi Storage and Method for Manufacturing thereof - Google Patents

Abstract

The present invention relates to a kimchi storage and its manufacturing method, the present invention is a heat exchanger consisting of an evaporation tube (3) wound on the outer wall of the inner case (2) in which kimchi is stored, the foam liquid is foamed outside the heat exchanger In the kimchi reservoir comprising an outer case (1) provided at a predetermined interval with the inner case to wrap the outer wall of the inner case (2), when the foaming liquid is foamed on the outside of the inner case (2), the heat exchange Evaporation tube (3) constituting the group is provided on the outside of the heat exchanger so as to be as close as possible over the entire area of the inner case (2) comprises a pressurizing member for pressurizing the evaporation tube (3) by the foam pressure do.

At this time, the pressing member is provided on the flat portion of the inner case (2) which is a surface contact portion between the heat exchanger and the inner case (2) and the fitting groove (5a) corresponding to the curved surface of the evaporation tube (3) each evaporation tube It is provided at the same interval as the installation interval of (3), and has rigidity so that it does not bend by the foaming pressure of the foaming liquid foamed on the outer side of the inner case 2. As shown in FIG.

Description

Kim-Chi Storage and Method for Manufacturing

The present invention relates to a kimchi storage and a method of manufacturing the same, and more particularly, by having a pressure member at one end of the evaporation tube constituting the heat exchanger wound on the outer wall of the inner case by the foaming pressure between the inner case and the outer case It relates to a kimchi storage and a method of manufacturing the heat exchanger to be in close contact with the outer wall of the inner case hermetically.

In general, kimchi storage is kept in a state of long-term aging in a state in which the food matured for a short time in a high temperature state such as kimchi in a suitable state according to the taste of the intake.

In this general kimchi storage, as shown in Figure 1, the inner case (2) is a storage container is installed inside the outer case (1) of the kimchi storage body, the outer wall surface of the inner case (2) evaporation heat exchanger The tube 3 is wound in a coil shape, and has the structure that the temperature sensor 4 is attached to the outer surface of the inner case 2.

The outer case (1) of the kimchi storage is interposed with a heat insulating material formed by foaming the foam liquid in the interior surrounded by the housing, the inner case (2) wrapped by the heat insulating material is installed on the upper, condenser, compressor, etc. The machine room is provided with the components of the cooling system.

In the general kimchi storage having such a configuration, the evaporation tube 3 wound around the outer circumferential surface of the inner case 2 is conventionally, as shown in FIGS. 2A and 2B, since the cross section of the inner case 2 is rectangular. Since only the edges of the inner case 2 are in close contact with each other and the four flat portions of the inner case 2 are not in close contact with each other, a gap is generated so that heat transfer from the evaporator tube 3 to the inner case 2 is not performed smoothly. There was a problem that the heat transfer efficiency does not fall.

In addition, there is a problem that the condensed water due to the temperature change may be caused by the air present in the space that is not in close contact between the inner case (2) and the evaporation tube (3) may cause a mechanical failure.

The present invention has been made to solve the above problems, an object of the present invention is to improve the heat transfer efficiency by fully adhering the evaporation tube of the heat exchanger to the outer surface of the inner case of the kimchi storage container over the entire area. It is to provide a kimchi storage to prevent the occurrence of mechanical failure by preventing the generation of condensate from the outside of the inner case.

In addition, another object of the present invention is to provide a method of manufacturing a kimchi storage to be able to completely adhere the evaporation tube, which is a heat exchanger over the entire inner case on the outer surface of the inner case.

1 is a cross-sectional view showing the configuration of a general kimchi storage,

Figure 2a and 2b is a cross-sectional view and a plan view showing a heat exchanger installed state of the kimchi storage according to the prior art,

3a and 3b is a cross-sectional view and a plan view showing a heat exchanger installed state of the kimchi storage according to the present invention,

4 is a manufacturing process of the kimchi storage according to the present invention,

5a to 5d are explanatory views of the principle that the evaporation tube applied to the present invention is in close contact with the inner wall.

Explanation of symbols on the main parts of the drawings

One ; Outer case 2; Inner case

3; Evaporator 4; temperature Senser

5; Pressing plate 5a; Groove

6; Lee Hyung-jae

Kimchi storage according to the present invention for achieving the above object is a heat exchanger made of an evaporation tube wound on the outer wall of the inner case where the kimchi is stored, so that the foam is foamed outside the heat exchanger to wrap the inner case outer wall In the kimchi storage including an outer case provided at an interval with the inner case, when the foaming liquid is foamed on the outside of the inner case, the evaporator tube constituting the heat exchanger as close as possible over the entire surface of the inner case It is provided on the outside of the heat exchanger characterized in that it comprises a pressing member for pressing the evaporation tube by the foaming pressure.

At this time, the pressing member is provided on the inner case plane of the inner case and the surface contact portion of the heat exchanger on the outside of the heat exchanger, and the fitting groove matching the curved surface of the evaporation tube at the same interval as the installation interval of each evaporation tube. It is preferable that it is provided, and it is preferable that the pressing member has rigidity to the extent that it is not bent by the foaming pressure of the foaming liquid.

In addition, the outer side of the pressing member is preferably wrapped with a release material such as aluminum foil, adhesive tape, vinyl member in order to prevent the foam liquid from penetrating through the base of the pressing member.

In addition, the present invention for achieving the above another object, forming an inner case; Winding an evaporation tube constituting a heat exchanger on an outer wall of the inner case; Wrapping the outer case at a predetermined interval from the inner case; In the manufacturing method of the kimchi storage comprising the step of foaming the foam liquid between the inner case and the outer case, the heat exchanger is fixed to the pressure member to the outside of the heat exchanger to the part spaced apart from the outer wall surface of the inner case When the foaming liquid is foamed to the outside of the inner case it is characterized in that the pressing member by the foaming pressure further comprises the step of closely contacting the heat exchanger to the wall surface of the inner case.

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

3A and 3B are sectional views and a plan view showing a heat exchanger installed state of a kimchi storage room according to the present invention, FIG. 4 is a manufacturing process diagram of the kimchi storage room according to the present invention, and FIGS. 5A to 5D are evaporation applied to the present invention. It is explanatory drawing of the principle which a tube adheres to a storage container.

At this time, in the description of the kimchi storage according to the present invention will be given the same name and the same reference numerals to the same parts as the prior art.

Kimchi storage according to the present invention, the evaporation tube (3) of the evaporation tube (3) to prevent the evaporation tube (3) wound on the outer wall of the inner case (2), which is a storage container for cold air transfer to lift off the flat portion of the inner case (2). It is characterized in that the pressing plate 5 serving as the pressing member is fixed to the outside.

In other words, the present invention when foaming the foam liquid for thermal insulation between the outer case 1 corresponding to the main body of the kimchi storage and the outer side of the inner case (2) wound the evaporation tube (3) constituting the heat exchanger The press plate 5 fixed to the outside of the evaporation tube 3 receives the foaming pressure of the foaming liquid and presses the evaporation tube 3 toward the inner case 2 so that the evaporation tube 3 is the inner case ( It is characterized in that it is in close contact with the outer wall of 2).

That is, in the kimchi storage according to the present invention, as shown in Figs. 3a and 3b, the evaporation tube (3) is wound in a coil shape on the outer wall of the inner case (2), evaporated on each wall surface of the inner case (2) The presser plate 5 which is a flat plate-like pressurizing member is padded to the outside of the pipe 3, and is fixed.

Here, the pressing plate 5, which is the pressing member, serves to help ensure that the entire line of the evaporation tube 3 is tightly adhered to the outer wall of the inner case 2, including the central portion of the evaporation tube 3, The pressing plate 5 has a structure in which fitting grooves 5a to which each of the evaporating tubes 3 closely correspond to the plate-shaped plate are formed at regular intervals.

At this time, the pressing plate 5 preferably has a flat plate formed of a metal or non-metal material, the material of the pressing plate 5 is to have a rigid enough not to bend the foaming pressure of the foam liquid, any Do.

In addition, the release member 6 is wrapped around the outside of the pressing plate 5, and the release member 6 prevents the foaming liquid from penetrating into the space below the pressing plate 5. Together with the separation or adhesion enhancing member.

At this time, the release material 6 is preferably selected from any one of aluminum foil, adhesive tape, vinyl member, but is not limited to this includes all members that can solve the above technical matters.

The manufacturing process of the kimchi storage having such a configuration will be described with reference to FIG. 4. First, the inner case 2 is formed, and the evaporation tube 3 is wound around the outer wall of the inner case 2 in a coil shape.

At this time, a gap is generated between the inner case 2 and the evaporation tube 3 in the planar portion by the shape of the inner case 2 having a quadrangular shape, and thus the evaporation tube 3 and the inner case 2 The pressing plate 5, which is a pressing member, is fixed to the outside of the evaporation tube 3 at a spaced apart portion.

As such, the evaporation tube 3 wound around the inner case 2 is in a state where the center portion of the wall surface of the inner case 2 is opened at the largest interval, so that the pressing plate 5, which is a pressing member, is installed at the center portion. The reason why the pressing plate 5 is provided in the center portion is because the deflection amount of the beam is greatest as described later.

When the pressing plate 5 is fixed to the evaporation tube 3, the pressing plate 5 is fixed in a state in which the pressing plate 5 is wrapped using a release material 6 such as aluminum foil, an adhesive tape, or a vinyl member.

After fixing the pressing plate (5) with the release material (6) to foam the foam liquid on the outside of the inner case (2) to be insulated.

At this time, the pressing plate 5, which is a pressing member, is pressed by the foaming pressure between the inner case 2 and the outer case 1 so that the evaporation tube 3 closely adheres to the outer wall surface of the inner case 2. And the evaporation tube 3 is wound around the inner case 2 in a state in which a gap between the inner case 2 and the inner case 2 is removed.

As described above, the principle in which the central portion of the evaporation tube 3 is in close contact with the inner case 2 according to the present invention as described above will be further explained by referring to FIGS. 5A to 5D based on the deflection analysis technique of beam. Same as

Typically, a beam is a member that is applied to a structure or mechanical element that receives a force acting transversely with respect to the axis.

Among the types of beams, a simply supported beam is a beam supported at both ends of the beam and supported by pins or rollers. As shown in FIG. 4A, the left support point is a pin joint and constrains degrees of freedom in all directions. The right support point is a roller joint, in which the degree of freedom in the rest of the beam except the displacement in the axial direction is constrained.

4B shows a simple support beam subjected to a distributed load, in which the lateral force w on a uniform axis in the axial direction of the beam acts uniformly on the longitudinal direction of the beam as a force with respect to the unit length.

The deflection governing equations of elastic beams with small displacements are expressed by Equation 1 below.

(Equation 1)

E; Modulus of elasticity [N / m ² ]

I; Moment of inertia [m ⁴ ]

; y-direction displacement [m]

Figure 4c shows the deflection of the beam by the load, in the case of a simple support beam, the maximum amount of deflection occurs at the L / 2 point of the center of the beam.

Maximum deflection in simple support by Equation 1 Can be calculated by the following equation.

_max = (Equation 2)

In the present invention, for the sag analysis of the evaporation tube (3) surrounding the storage container, which is the inner case (2) is carried out for a virtually cut copper tube in the horizontal and vertical direction with respect to the length of one side surrounding the inner case (2). .

As shown in FIG. 4D, the foaming pressure acting on the evaporation tube 3 is the pressure acting only on the upper side of the tube due to the release material 6 at the initial stage of foaming, and the foaming pressure is 0.3 kgf / cm 2. Was calculated.

At this time, the maximum deflection of the evaporation tube (3) by using the equation 2 is as shown in the table below.

By model Length of evaporator (mm) Deflection (mm) A 287 3.83 B 297 4.32 C 392 13.32 D 447 22.52

Table 1. Results of Maximum Deflection According to Evaporation Tube Length by Model of Kimchi Storage

The deflection of the evaporation tube (3) assuming simple support as described above was confirmed that the deflection of the minimum 3.83mm to the maximum 22.52mm when the foam pressure is 0.3kgf / ㎠ action.

As described above, it can be seen that the evaporation tube 3 is deflected at the central portion due to the foaming pressure, and the evaporation tube 3 is different depending on the foaming pressure or the length and cross-sectional shape of the evaporation tube 3. It is obvious that the external force generated in close contact with the inner case is generated.

As described above, the manufacturing method of the kimchi storage according to the present invention in the state that the pressing plate is attached to the evaporation tube wound on the outer wall of the inner case, which is a storage container, the pressing plate pressurizes the evaporation tube by the foaming pressure between the outer cases. By tightly adhering the tube to the inner case, heat transfer is smoothly performed from the evaporator tube to the inner case, thereby increasing the refrigerating efficiency.

In addition, the gap between the inner case and the evaporation tube is not generated, thereby preventing the generation of condensate, thereby preventing mechanical defects.

Claims (7)

delete delete delete delete delete Forming an inner case; Winding an evaporation tube constituting a heat exchanger on an outer wall of the inner case; Wrapping the outer case at a predetermined interval from the inner case; In the manufacturing method of the kimchi storage comprising the step of foaming the foam liquid to the outside of the inner case, Fixing the pressure member to the outside of the heat exchanger at a portion of the heat exchanger spaced apart from an outer wall surface of the inner case; Fixing the pressing member to the outside of the heat exchanger, and then wrapping the outside of the pressing member with a release material before foaming the foam liquid; And foaming the foam liquid on the outside of the inner case to bring the pressure member into close contact with the wall surface of the heat exchanger by the foaming pressure. delete