KR102225075B1 - Drawer-type built-in refrigerator - Google Patents

Abstract

The present invention relates to a drawer type built-in refrigerator, which has an independent cooling means to a refrigerator main body which is a drawer type storage chamber to be installed in an existing structure such as a sink in the drawer type built-in refrigerator, uses the wasted space such as a baseboard, and enables floors of the drawers to be different to be independently operated to be used for various purposes such as a food waste refrigerator.

Description

Built-in drawer refrigerator {DRAWER-TYPE BUILT-IN REFRIGERATOR}

The present invention relates to a refrigerator, and more particularly, to a drawer type built-in refrigerator that can be installed in a sink and used for various purposes, such as a food waste refrigerator.

Built-in refrigerators are built-in to furniture such as sinks, and drawer-type refrigerators open and close in a drawer type and open and close in a kimchi refrigerator method.

In the conventional drawer type refrigerator, as in Korean Patent Registration No. 10-0377941, cooling means such as a compressor and an evaporation pipe are fixed to the main body, a storage chamber is provided with different layers, and only the storage box is drawn out and opened and closed. There is a problem that it is difficult to install a drawer-type built-in refrigerator on furniture such as a sink. In particular, it is difficult to install in a wasteful furniture space such as a sink base.

In addition, a drawer-type refrigerator in the related art is difficult to use for various purposes such as a food waste refrigerator because a cooling means is not independently provided in the drawer-type refrigerator, and there is a problem in that the storage compartment is automatically opened while drawing out, resulting in loss of cold air.

The present invention has been proposed to solve the problems of the prior art as described above, and an object of the present invention is to provide a drawer type built-in refrigerator that can be installed in a sink and used for various purposes, such as a food waste refrigerator.

In order to achieve the above object, a drawer-type built-in refrigerator according to the present invention includes: a refrigerator main body having a drawer-shaped upper opening and a heat insulating member provided on a bottom surface and front, rear, left, and right surfaces in contact with the bottom surface; First left and right rails attached to the lower left and right edges of the bottom surface or the left and right surfaces along the longitudinal directions of the left and right surfaces, respectively; A drawer front closing plate attached to the front surface to cover the first left and right rails; A cooling block penetrating the heat insulating member on the rear surface or provided with the heat insulating member; And a heat transfer inner case which is in contact with the cooling block and integrally provided on the bottom surface, the front, rear, and left and right sides of the refrigerator body, and a cooling means for transmitting cold air to the cooling block It is characterized in that it is provided on the back of the refrigerator so as to move together with the main body.

The cooling means is a compressor type including an evaporator, a compressor, a condenser and a heat dissipation fan, the evaporator is attached to the cooling block, and the compressor, the condenser and the heat dissipation fan are connected to the rear side or the rear side through a predetermined fastening means. It may be attached to the extended length of the first left and right rails to the rear of the.

The cooling means may be of a semiconductor type including a semiconductor thermoelectric device module, a heat sink, and a heat dissipation fan sequentially attached to the cooling block.

The refrigerator main body is provided to open and close in a drawer type into a predetermined structure to which the second left and right rails are attached so that the first left and right rails are respectively seated and slid, and the inlet is opened and closed, and the inlet is of the structure. It may be provided so as not to be exposed to cold air by being covered with an insulating plate of the upper door inside.

The upper door insulation plate may be provided between the inlet and the upper door of the refrigerator fixed to the structure.

An elastic member plate is further provided at a lower portion of the upper door insulation plate, and a thickness of the upper door insulation plate including the elastic member plate may be greater than a gap between an upper end of the inlet and an upper door of the refrigerator.

The front and rear surfaces of the upper door insulation plate may be inclined downward toward the rear and the front, respectively.

The upper door insulating plate may be provided to be slidable forward and backward between the upper end of the entrance and the upper door of the refrigerator, and a stop member for restricting the movement of the upper door insulating plate may be further attached to the rear of the upper door of the refrigerator.

In the drawer-type built-in refrigerator-attached sink according to the present invention, the above drawer-type built-in refrigerator is provided in the sink as the structure, a magnetic gasket is attached to the front of the upper door of the refrigerator, and the magnetic gasket and the magnetic gasket are attached to the inside of the drawer front closing plate. It characterized in that the magnet member is further attached to the facing portion.

The drawer-type built-in refrigerator may be provided on the base of the sink.

The refrigerator according to the present invention can be installed as a drawer-type built-in refrigerator in an existing structure such as a sink as a cooling means is independently provided in the refrigerator body, which is a drawer-type storage compartment, and can be operated independently with different layers of drawers. There is an effect that can be used for a purpose. In addition, the present invention has the advantage of being able to be installed in a space of waste furniture such as a base of a sink.

1 is a perspective view showing a sink in which a drawer-type built-in refrigerator is installed according to an embodiment of the present invention.
FIG. 2 is a cross-sectional view taken along line AA of FIG. 1 showing the structure of a drawer-type built-in refrigerator on the top layer.
3 is a cross-sectional view showing a state in which the main body of the drawer type refrigerator is taken out in FIG. 2.
FIG. 4 is a top plan view of a top plate of a sink and a refrigerator top door in FIG. 3 viewed from above.
FIG. 5 is a cross-sectional view showing an embodiment in which the structure of the upper door insulation plate in FIG. 2 is changed, that is, the upper door insulation plate has downwardly inclined surfaces.
6 is a cross-sectional view illustrating a state in which the upper door insulation plate slides when the refrigerator main body is removed in FIG. 5.
7 is an exploded perspective view of the structure of FIG. 6.
8 is a cross-sectional view showing a semiconductor-type drawer built-in refrigerator.
9 and 10 are diagrams showing the structure of a drawer-type built-in refrigerator according to another embodiment of the present invention and a view showing a state when closed after being withdrawn.

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

The drawer-type built-in refrigerator according to an embodiment of the present invention is mounted to be opened and closed by drawer-type refrigerators 132 and 142 in a predetermined structure such as a sink 100, as shown in FIGS. 1 to 4.

The drawer-type built-in refrigerator 132 and 142 shown in FIG. 1 has a drawer-shaped upper opening and a bottom surface and a refrigerator body 20 provided with heat insulating members on the front, rear, left, and right sides in contact with the bottom surface. ; First left and right rails (14) attached to the lower left and right edges of the bottom surface or to the left and right surfaces along the longitudinal directions of the left and right surfaces, respectively; A drawer front closing plate (40) attached to the front surface to cover the first left and right rails; A cooling block (60) penetrating the heat insulating member on the back side or provided with the heat insulating member; And a heat transfer inner case 30 which is in contact with the cooling block and integrally provided on the bottom surface, the front, rear, and left and right sides of the refrigerator body, and the cooling block 60 has cold air. Cooling means (70, 73, 75) for transmitting the is provided on the rear surface so as to move together with the refrigerator body (20).

In FIGS. 1 to 4, the cooling means is shown to be a compressor type including an evaporator, a compressor 70, a condenser 73, and a heat dissipation fan 75 attached to the cooling block 60, but as shown in FIG. 8, The cooling block 60 may be of a semiconductor type including a semiconductor thermoelectric device module (not shown), a heat sink 80, and a heat dissipation fan 82 sequentially attached to the cooling block 60.

When implementing the cooling means with the former compressor type, the evaporator is directly attached to the cooling block 60, and the compressor 70, the condenser 73, and the heat dissipation fan 75 are provided with a refrigerator through a predetermined fastening means (screw, etc.). It may be directly attached to the rear side of the main body 20, and as shown in Figs. 3 and 4, on the first left and right rails 14 extending to the rear of the rear through the pedestal 71 as the fastening means. Can be attached.

By being configured as described above, the cooling means is moved together with the refrigerator body 20 and becomes a drawer part in an installation structure such as the sink 100, so that the installation expandability of the drawer-type built-in refrigerators 132 and 142 can be increased. do.

According to an embodiment, the refrigerator main body 20 is a drawer type into a predetermined structure 100 to which the second left and right rails 12 are attached so that the first left and right rails 14 can be seated and slid, respectively. It is provided to open and close and open and close the inlet, and the inlet may be provided so that there is no exposure of cold air by being covered with an upper door insulation plate 52 within the structure 100.

The upper door insulation plate 52 may be positioned under the refrigerator upper door 54 fixedly attached to the drawer insertion space of the structure 100 as shown in FIG. 3. That is, the upper door insulation plate 52 may be provided between the inlet of the refrigerator body 20 and the refrigerator upper door 54 fixed to the structure 100. By doing so, when the drawer is in the closed state, the upper door insulation plate 52 and the refrigerator upper door 54 serve as the door 50 of the drawer-type built-in refrigerators 132 and 142.

5, an elastic member plate (not shown) is further provided at a lower portion of the upper door insulation plate 52, and the thickness t of the upper door insulation plate 52 including the elastic member plate is It may be larger than the gap g between the upper end and the upper door 54 of the refrigerator. In this way, when the drawer is in the closed state, the door 50 completely contacts and presses the entrance, that is, the upper end of the entrance is in a state pressing the elastic member plate, so that the cold air of the storage chamber 32 leaks to the outside. It will not be.

At this time, it is preferable that the front and rear surfaces of the upper door insulation plate 52 have inclined surfaces 52a inclined downward toward the rear and the front, respectively, as shown in FIGS. 5 and 6. In this way, when the refrigerator is opened or closed, the upper front and rear entrances of the refrigerator body 20 are easily separated and inserted through the inclined surfaces 52a of the front and rear of the upper door insulation plate 52.

The thickness (t) of the upper door insulation plate 52 and the downward inclination angles of the front and rear sides are the opening and closing method of the drawer, specifically, fastening of the first left and right rails 14 and the second left and right rails 12 and It can be adjusted according to the operation method.

The opening and closing method of the drawer is composed of a known push-under rail, and when the drawer front closing plate 40 is touched, the refrigerator main body 20 is automatically pulled out and the entrance of the refrigerator opens, and when pushed in, the entrance of the refrigerator becomes the upper door insulation plate. It is desirable to be inserted into (52) and closed.

Specifically, the first left and right rails 14 and the second left and right rails 12 are each composed of a runner set of push-under rails, and the under rails are fixed to each of the first left and right rails 14. A hardware cking device can be connected.

3 and 6, the first left and right rails 14 are shown to be attached to the left and right edges of the bottom of the refrigerator body 20, respectively, but on the left and right sides of the refrigerator body 20, respectively. It can also be attached to the length of the drawer. In the latter case, the second left and right rails 12 are attached to the drawer-type refrigerator installation structure 100 in accordance with the attachment positions of the first left and right rails 14.

6, the upper door insulation plate 52 is provided to be slidable forward and backward between the upper entrance of the refrigerator body 20 and the upper door 54 of the refrigerator, and the upper door 54 of the refrigerator It is preferable that a stopping member 56 that restricts the movement of the upper door heat insulating plate 52 is further attached to the rear. In this way, when the storage compartment 32 is opened while the refrigerator body 20 is pulled out, the upper door insulation plate 52 also slides forward along the refrigerator body 20 so that the inlet is not completely opened. (32) to prevent unnecessary wastage of cold air. On the other hand, when the drawer front closing plate 40 is pushed to place the refrigerator main body 20 back into the structure 100, the upper door insulation plate 52 also slides backward and follows, while being caught by the stopping member 56, the entrance of the refrigerator ( It is in a state of completely covering the entrance of the refrigerator body).

There may be various means for allowing the upper door insulation plate 52 to slide forward and backward between the upper entrance of the refrigerator body 20 and the upper door 54 of the refrigerator, but may be implemented as shown in FIG. 7.

7 is a top plate 120, left, right, rear side plate 124, and bottom plate 126 required in FIG. 1 for the space in which the drawer-type built-in refrigerators 132 and 142 of the present invention are inserted and installed in the structure 100. It is simply illustrated as consisting of.

The upper door 54 of the refrigerator is fixedly fastened to the upper plate 120 in the installation space of the structure 100, and as shown in FIG. 7, one or more guide grooves 53 may be formed in the longitudinal direction of the drawer. .

The upper door insulation plate 52 has a size that completely covers the inlet of the refrigerator (the inlet of the refrigerator body), and as shown in FIG. 7, the upper door has a number corresponding to the guide groove 53 and each corresponding position. One or more protrusions (eg, line-shaped) 51 inserted into the groove 53 may be formed in the longitudinal direction of the drawer.

When configured as described above, the upper door insulation plate 52 has one or more protrusions 51 between the upper inlet of the refrigerator body 20 and the upper door 54 of the refrigerator, respectively, inserted into one or more guide grooves 53 It is guided and slides forward and backward along the refrigerator body 20 a little later.

The difference between the front and rear movement of the upper door insulation plate 52 and the refrigerator body 20 is the degree of sliding friction between the upper door insulation plate 52 against the upper entrance of the refrigerator body 20 and the upper door 54 of the refrigerator. Can be adjusted according to. Specifically, it may be adjusted to the thickness t of the upper door insulation plate 52 and downward inclination angles of the front and rear surfaces.

In addition, the above-described groove 53 and the protrusion 51 may be formed opposite to each other. That is, contrary to that shown in FIG. 7, one or more guide grooves may be formed in the upper part of the upper door insulation plate 52, and one or more protrusions may be formed in the lower part of the upper door 54 of the refrigerator.

In another embodiment of the present invention, as shown in FIGS. 9 and 10, a gasket 80 is further provided in front of the upper door 54 of the refrigerator, and the front closing plate 40 of the drawer or the refrigerator body 20 It is desirable to block the leakage of cold air by in close contact with the. Further, a magnet gasket 84 is attached to the front of the refrigerator upper door 54, and a magnet member 82 is attached to a portion facing the magnet gasket 84 on the inside of the drawer front closing plate 40, respectively. , When closing the refrigerator, it is preferable to automatically close the refrigerator by magnetic force between the magnetic member 82 and the magnetic gasket 84.

Each embodiment of the above-described drawer-type built-in refrigerator can be independently installed anywhere in a structure where a space that can be mounted in a drawer type can be installed.

1 shows an example in which the above-described drawer-type built-in refrigerator is provided in the sink 100. As shown in FIG. 1, in the case of application to a sink with a built-in drawer type refrigerator of the present invention, a built-in drawer refrigerator 132 is provided in a plurality of layers in the existing drawer space 130, and a refrigerator for storing various beverages, fish, meat, etc. It is possible to implement a multifunctional drawer-type built-in refrigerator and sink 100 that can be stored for a long period while independently controlling and maintaining the necessary refrigeration temperature for kitchens and households that need to be refrigerated, such as storage or aging refrigerators, various food or rice storage refrigerators, and food waste refrigerators. It becomes possible.

In particular, the drawer-type built-in refrigerator 142 described above is provided on the mop 140 of the sink 100, and a sink with a drawer-type built-in refrigerator can be implemented. In this case, there is an advantage of using the wasted mop 140 of the existing sink, and the moist and unsanitary wasted space at the bottom or rear of the sink solves the above problem with heat emitted from the drawer-type built-in refrigerator 142. There will be.

In the accompanying drawings, unexplained reference number 22 is a touch switch panel that controls the refrigerator temperature, 72 is the rear space of the refrigerator of the structure where the built-in drawer is inserted, 110 is the washing tank of the sink, and 122 is the rear cover of the sink. It's great.

10: rail 20: refrigerator body
30: heat transfer inner case 40: drawer front closure plate
50: refrigerator door 60: cooling block
70: compressor 100: refrigerator insertion structure (sink)

Claims (10)

A refrigerator main body having an opening in the form of a drawer and provided with heat insulating members on a bottom surface and front, rear, left, and right surfaces in contact with the bottom surface;
First left and right rails attached to the lower left and right edges of the bottom surface or the left and right surfaces along the longitudinal directions of the left and right surfaces, respectively;
A drawer front closing plate attached to the front surface to cover the first left and right rails;
A cooling block penetrating the heat insulating member on the rear surface or provided with the heat insulating member; And
And a heat transfer inner case which is in contact with the cooling block and integrally provided on the bottom surface, the front and rear surfaces, and the left and right surfaces of the refrigerator body,
A cooling means for transmitting cold air to the cooling block is provided on the rear surface so as to move together with the refrigerator body,
The refrigerator main body is provided to open and close in a drawer type into a predetermined structure to which the second left and right rails are attached so that the first left and right rails can be seated and slide, respectively, and the entrance is opened and closed,
The inlet is provided so that there is no exposure of cold air by being covered with an upper door insulation plate within the structure,
The upper door insulation plate is provided between the inlet and the upper door of the refrigerator fixed to the structure,
An elastic member plate is further provided at a lower portion of the upper door insulation plate, and the thickness of the upper door insulation plate including the elastic member plate is greater than a gap between the upper end of the inlet and the upper door of the refrigerator,
The front and rear surfaces of the upper door insulation plate are inclined downward toward the rear and the front, respectively,
The upper door insulation plate is provided to be slidable forward and backward between the upper end of the inlet and the upper door of the refrigerator,
A stopping member for restricting the movement of the upper door insulation plate is further attached to the rear of the upper door of the refrigerator,
The thickness of the upper door insulation plate and the downward inclination angle of the front and rear sides are respectively adjusted according to the opening/closing method of the drawer. It is provided to completely cover the inlet while maintaining the inlet in a state where the inlet is not completely open, and when the drawer front closing plate is pushed to return the refrigerator body to the original position in the structure, the upper door insulation plate also slides backward and follows while being caught by the stopping member A built-in drawer refrigerator, characterized in that.
The method of claim 1,
The cooling means is a compressor type including an evaporator, a compressor, a condenser and a radiating fan,
The evaporator is attached to the cooling block,
The compressor, the condenser and the heat dissipation fan are attached to the extended length of the first left and right rails to the rear of the rear or the rear of the rear through a predetermined fastening means.
The method of claim 1,
The cooling means is a drawer-type built-in refrigerator, comprising: a semiconductor thermoelectric device module, a heat sink, and a heat dissipating fan sequentially attached to the cooling block.
delete delete delete delete delete The drawer-type built-in refrigerator of claim 1 is provided in the sink as the structure,
A magnetic gasket is attached to the front of the upper door of the refrigerator,
A drawer-type built-in refrigerator-mounted sink, characterized in that a magnetic member is further attached to a portion facing the magnetic gasket on the inside of the drawer front closing plate.
The method of claim 9,
The drawer-type built-in refrigerator-mounted sink, characterized in that the drawer-type built-in refrigerator is provided on a base of the sink.

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