KR20130104680A - Glass door for cold storage - Google Patents

Abstract

PURPOSE: A freezer glass door is provided to obtain high energy efficiency by lowering the power consumption of a heating wire and to ensure an excellent fastening force for a handle. CONSTITUTION: A freezer glass door comprises a frame (110), a glass (120), and a handle part (130). The frame is made of a rail structure with a predetermined thickness. Each segment of the frame is shaped into a long stick with an L-shaped cross section in order to obtain a rectangular shape after assembling the whole frames. The glass is made of a transparent material in order to enable users to identify the inside of the door from the outside with the naked eye. One part of the handle part is inserted into an uneven part when a curved part is cut. One or more surfaces of the handle part are attached to one side of the glass. The frame is in touch with the other side of the glass to be joined. The other side of the glass is exposed to the outside in order to widen a visual field ratio.

Description

Glass door for freezer {GLASS DOOR FOR COLD STORAGE}

The present invention relates to a glass door for a freezer, and more particularly, to a glass door for a freezer made of a glass of transparent material so as to be installed on a wall or an entrance of a refrigerated warehouse or a freezer warehouse from the outside.

In general, the glass door for the freezer is glass is coupled to the door frame, the door frame is airtightly adhered to the door frame is provided with a packing means for improving the freezing efficiency and maintain a sealed state.

1 is a front view showing a conventional freezer door.

As shown in FIG. 1, the conventional freezer door 1 is composed of a frame 2 having a square shape and a glass 3 bonded to the frame 2. In this case, in order to prevent dew condensation on the surface of the glass 3, a conductive transparent resistor capable of passing current on the surface of the glass 3 is coated, busbars are printed at both ends, and wires are welded at both ends of the busbars. By applying power from outside, forcibly generating heat on the glass surface.

In addition, the frame (2) is implemented as a rail structure having a predetermined thickness (t), each line segment is made of a long rod shape having a cross-section of the "c" shape is completed in a rectangular shape as a whole. One side of the frame 2 is coupled to the hinge 5 is installed to open and close rotationally.

The glass 3 is made of a permeable material so that the inside can be visually inspected from the outside of the door and may be made of a single or multiple, and is inserted into the recessed portion of the "c" shaped frame 2 and fixed to the frame 2. In addition, the freezer door (1) is fastened to the handle (4) for gripping when entering. In this case, the handle 4 is attached to the frame 2 or the glass 3 through a bond or the like.

However, since the freezer door 1 has a structure in which an end portion of the glass 3 is inserted into and fixed to the inside of the frame 2 by a predetermined length, the field of view is blocked by the thickness t of the frame 2. There was a bad problem. In addition, the conventional freezer door 1 has no space for mounting a heater wire or the like inside the frame 2 or occupies a lot of space for the installation of interior parts, thereby increasing the overall thickness. There was a problem of increase in unit cost and space limitation in design.

In addition, in the conventional freezer door 1, since the handle 4 is fixed to the frame 2 or the glass 3 by a bond or the like, there is a problem in designing the handle 4 and the problem that the fastening force is lowered. there was. In addition, the security door (1) conventional freezing had a glass (2) The heat ray applied when the door (1) inside, due to the external temperature, power consumption increases to 100W / m ² to about 140W / m ^2, poor energy efficiency problems .

In order to solve such a conventional problem, the present invention provides a glass door for a freezer having an excellent energy efficiency by improving the field of view, the structure is simple, the fastening force of the handle is excellent and the power consumption of the heating wire is lowered.

The glass door for a freezer according to the present invention is composed of the frame and the glass coupled to the frame, the frame is inserted into the end of the glass by contacting one side of the glass is coupled, so that the other side of the glass is exposed to the outside to widen the field of view Is done.

In this case, the frame has at least one recessed groove which is recessed to receive the wire of the heating wire at a portion opposite the end of the glass.

In addition, the frame has a concave portion formed to form a space in the other side direction of the glass, and has a curved portion rounded to surround the concave portion, the bent portion is made cutable.

In this case, the glass door for a freezer according to the present invention further includes a handle portion at which one portion is inserted into the concave portion and at least one surface is in close contact with the other surface of the glass when the curved portion is cut.

In addition, the glass is fixedly coupled to the first glass portion of the insulating material is fixedly coupled to the inner side of the frame, the second glass portion and the second glass portion of the insulating material is fixedly spaced apart and bonded to the first glass portion and the heating wire is And a voltage regulator configured to control the magnitude of the voltage applied to the hot wire of the hot wire glass part, wherein the heat wire glass part is formed, a heat insulating gas is filled between the first glass part and the second glass part, and between the second glass part and the hot wire glass part. It is further provided.

In addition, the bent portion has a shape that is open so as to communicate with the outside of the concave portion, it is configured so that the wires connected in the concave portion can be drawn out.

The glass door for a freezer according to the present invention is a very useful invention with improved energy efficiency by improving the field of view, the structure is simple, and the fastening force of the handle is excellent and the power consumption of the heating wire is lowered.

1 is a front view showing a glass door for a conventional freezer,
Figure 2 is a front view of a glass door for a freezer according to an embodiment of the present invention,
3 is a cross-sectional view along the line AA of FIG.
4 is a sectional view taken along line BB in Fig.

Hereinafter, the technical configuration of the glass door for a freezer according to the accompanying drawings in detail as follows.

2 is a front view of a glass door for a freezer according to one embodiment of the present invention, FIG. 3 is a cross-sectional view taken along the line A-A of FIG. 2, and FIG. 4 is a cross-sectional view taken along the line B-B of FIG.

As shown in Figure 2 to 4, the freezer glass door 100 according to an embodiment of the present invention is installed on the wall or door of the refrigerated warehouse or freezer warehouse so that the inside can be seen from the outside, the frame 110, glass 120, and handle portion 130. In this case, it is noted that the freezer glass door 100 according to the present invention can be used not only for a freezer but also for a refrigerator.

Frame 110 is made of a rectangular shape, made of a rail structure having a predetermined thickness (T), each line segment is made of a long rod shape having a cross-section of the "b" shaped to have a rectangular shape as a whole after assembly. . The hinge 119 is coupled to one side of the frame 110 to be rotatably connected to the installation position of the door, thereby opening and closing the door in a rotational manner. A more detailed structure of the frame 110 will be described later.

Glass 120 is made of a permeable material so that the inside can be visually confirmed from the outside of the door, it is made of one or multiple, in this embodiment will be described a triple structure as an embodiment. In addition, in order to prevent dew condensation on the surface of the glass 120, a conductive transparent resistor that allows current to flow through the surface of the glass 120 is coated, a busbar is printed between both ends, and wires are welded at both ends of the busbar. It can be configured to forcibly generate heat on the surface of the glass 120 by applying power from the outside.

In particular, the frame 110 is inserted into the end of the glass 120, one surface of the glass 120 is contacted and coupled. In addition, the frame 110 is formed so that the other surface of the glass 120 is exposed to the outside, the viewing rate is widened. In this case, one surface of the glass 120 means the inside of the freezer, and the other surface of the glass 120 means the outside of the freezer. In addition, the D-gasket 117 and the M-gasket 118 are fastened to the frame 110.

Through this configuration, the purpose of using the glass door in the refrigeration or refrigeration door to be able to see the inside, the glass door 100 according to the present invention, both sides of the frame 110 is a glass 120 Instead of supporting and fixing the structure, only one surface of the frame 110 is fixed in contact with one surface of the glass 120, thereby allowing a larger field of view.

In addition, the recess 110 is formed in the frame 110. The recessed groove 111 is formed at a portion of the glass 120 that faces the end portion, and serves to receive the wire of the heating wire. At least one concave groove 111 may be formed. Therefore, it is possible to effectively solve the problem of difficult to mount the heater or heating wire and to effectively draw the wire of the heating wire or heater to the outside without increasing the thickness T or the overall volume of the frame 110.

In addition, the frame 110 has a concave portion 112 is formed to form a space in the other direction of the glass 120, and has a bent portion 113 rounded to surround the concave portion (112). In this case, the bent portion 113 is made cutable. Therefore, it becomes possible to insert the handle portion 130 to be described later through the concave portion 112, thereby enabling a firm fixing of the handle portion 130. In addition, the bent portion 113 is made to be cut, so that the bent portion is partially cut, and the handle portion 130 can be inserted only at the cut portion. In addition, the concave portion 112 may be utilized as a space such as a hot wire.

In addition, the handle portion 130, when cutting the bent portion 113, one portion is inserted into the concave portion 112 and at least one surface is in close contact with the other surface of the glass 120 is coupled. That is, the handle portion 130 is composed of a handle joint 131 and the handle body 132. Handle joint 131 is formed of a "b" shape of the inner surface is inserted into the concave portion 112 is bolted to the frame 110, the other inner surface of the handle joint 131 is in close contact with the glass 120 do. The handle body 132 is fastened to the handle joint 131. Therefore, since the handle part 130 is fixed in a state of being closely contacted while simultaneously interviewing the glass 120 and the frame 110, the shape of the handle part 130 may be realized in various designs and the tightening force may be more firm.

On the other hand, the glass 120 is comprised by the 1st glass part 121, the 2nd glass part 122, and the hot wire glass part 123. As shown in FIG.

The first glass part 121 is fixedly coupled to the inside of the frame 110 and is made of a heat insulating material. In addition, the second glass part 122 is fixed to the first glass part 121 to be spaced apart, and is made of a heat insulating material. In addition, the hot wire glass portion 123 is spaced apart and fixedly coupled to the second glass portion 122, and a hot wire is formed on the surface. As a result, the first glass part 121, the second glass part 122, and the hot wire glass part 123 are sequentially fixed to each other at predetermined intervals from the inside to the outside of the freezer to fix one glass 120. While being fixed to the frame 110.

Insulating gas is filled between the first glass part 121 and the second glass part 122 and between the second glass part 122 and the hot wire glass part 123. The adiabatic gas is a special gas such as Ar to minimize thermal conduction between the inside and the outside of the freezer.

In addition, the freezer glass door 100 according to an embodiment of the present invention further includes a voltage regulator (not shown). The voltage regulator controls the magnitude of the voltage applied to the heating wire of the heating wire glass 123.

Therefore, the double structure of the first glass part 121 and the second glass part 122 having excellent heat insulating properties and the configuration of the heat insulating gas result in excellent heat insulating properties and ultimately reduce power consumption by 30% to 50%. You can do it. Therefore, the energy efficiency is excellent and the insulation effect can be maximized.

In addition, the bent portion 113 is configured to have an open shape so that the concave portion 112 communicates with the outside, and the wires connected in the concave portion 112 can be drawn out. That is, the bent portion 113 is formed in an open shape so as to communicate with the outside, it is possible to easily withdraw the various wires located inside the concave inlet 112 to the outside, do not drill a separate hole for such a drawing structure There is no need to proceed with the work easily.

Until now, the glass door for a freezer according to the present invention has been described with reference to the embodiment shown in the drawings, but this is merely exemplary, and those skilled in the art will understand that various modifications and equivalent other embodiments are possible. Accordingly, the scope of the true technical protection should be determined by the technical idea of the appended claims.

100: glass door for freezer 110: frame
111: concave groove 112; Indentation
113: bend 120: glass
121: first glass portion 122: second glass portion
123: hot wire glass portion 130: handle portion

Claims (6)

In the freezer door consisting of the frame 110 and the glass 120 coupled to the frame 110,
The frame 110,
Inserting an end of the glass 120, one surface of the glass 120 is in contact with each other, and the other surface of the glass 120 is exposed to the outside so that the field of view widens, the glass door for a freezer. The method of claim 1,
The frame (110) is a glass door for a freezer, characterized in that it comprises at least one concave groove 111 formed in the concave to accommodate the wire of the heating wire in a portion facing the end of the glass (120). The method of claim 1,
The frame 110,
Concave portion 112 is formed to form a space in the other direction of the glass 120, and has a curved portion 113 rounded to surround the concave portion 112,
The bent portion 113 is a glass door for a freezer, characterized in that the cut is made. The method of claim 3,
When cutting the bent portion 113, one portion is inserted into the concave inlet 112 and at least one surface is frozen further characterized in that it further comprises a handle portion 130 in close contact with the other surface of the glass 120 Hire glass door. The method of claim 1,
The glass 120 is:
A first glass part 121 of a heat insulating material fixedly coupled to the inside of the frame 110;
A second glass part 122 of an insulating material spaced apart from and fixed to the first glass part 121; And
It is composed of a hot wire glass portion 123 is spaced apart and fixedly coupled to the second glass portion 122, the hot wire is formed,
An insulating gas is filled between the first glass part 121 and the second glass part 122 and between the second glass part 122 and the hot wire glass part 123.
The glass door for a freezer, characterized in that it further comprises a voltage regulator for controlling the magnitude of the voltage applied to the heating wire of the heating wire glass (123). The method of claim 3,
The bent portion 113 is formed in a shape that is open so as to communicate with the outside of the concave portion 112, the wire for the freezer glass door, characterized in that configured to be drawn out to the outside.

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