KR20150010846A - Refrigerator - Google Patents

Abstract

Provided are a foaming unit capable of improving the flow of a heat insulating material foaming between an inner cabinet and an outer cabinet, and a refrigerator having the same. The refrigerator comprises: a main body including an inner cabinet and an outer cabinet; a machine room cover to cover a machine room prepared in the lower part of the main body to accommodate a compressor, and having a heat insulating material inlet to foam a heat insulating material in a foaming space between the inner cabinet and the outer cabinet; and a guide member whose one end is connected with the heat insulating material inlet and the other end is extended to the inside of the foaming space to guide the initial discharge location of the heat insulating material to be extended to the inside of the foaming space.

Description

Refrigerator {REFRIGERATOR}

The present invention relates to a refrigerator having a structure for efficiently filling a heat insulating material.

Generally, a refrigerator is a device for storing food freshly provided with a main body including an inner and an outer surface, a storage chamber formed by an inner surface, and a cool air supply device for supplying cool air to the storage chamber.

The temperature of the storage chamber is maintained at a temperature within a certain range required to keep the food fresh.

The storage room of such a refrigerator is provided so that its front surface is opened, and the opened front surface is normally closed by the door to maintain the temperature of the storage room.

Insulation is filled between the inner and outer parts to prevent cold air leakage inside the storage room.

A heat insulating material injection port for filling the heat insulating material between the inner and outer surfaces is provided in a machine room cover covering the machine room provided at the lower part of the main body, and the foaming head is connected to the heat insulating material inlet port to foam the heat insulating material.

In the case of a refrigerator having a large refrigerator and a thin insulating wall, since the inserting inlet is provided on the machine room cover at the bottom of the rear of the main body, the moving distance of the heat insulating material to be foamed through the inserting inlet is increased.

However, since obstacles such as ducts and electric wires are arranged between the inner and outer surfaces, the flow of the thermal insulator foamed between the inner and outer surfaces is disturbed and the moving distance is shortened. Therefore, It can not be filled.

Further, in order to uniformly fill the heat insulating material in all the sections between the inner and outer contours, it is necessary to over-inject the heat insulating material in relation to the volume of the space between the inner and the outer traces. Therefore, the curing time of the heat insulating material is delayed, The quality is deteriorated and the work time is delayed because the heat insulating material exposed to the outside must be removed. When the foam head is not managed properly, voids are formed in the surface of the heat insulating material which is foamed between the inner and outer surfaces, (Void) phenomenon may occur.

One aspect of the present invention provides a foam unit and a refrigerator having the foam unit, which can improve the flow of the heat insulator foamed between the inner and outer surfaces.

A refrigerator according to an embodiment of the present invention includes a main body including an inner surface having a storage chamber formed therein and an outer surface coupled to an outer surface of the inner surface to form an outer tube, A machine room cover covering the machine room, a mechanical chamber cover having a heat insulating material inlet for foaming the heat insulating material in a foaming space between the inner and outer surfaces by a foam head, one end connected to the heat insulating material inlet, And the guide member extends the initial discharge position of the heat insulating material foamed into the foam space into the foam space by the length of the guide member .

The heat insulating material inlet may be provided on a machine room upper cover covering the front and the upper portion of the machine room cover, and may be provided at a position corresponding to the foam space on the rear side of the body.

The heat insulating material inlet may be provided at a central portion of the machine room upper cover.

The guide member may include a connector coupled to the heat insulating material inlet and a guide pipe connected to the connector to extend into the foam space.

The guide pipe may be a hollow straight pipe.

The guide pipe may include a first guide pipe provided as a hollow straight pipe and connected to the connector, and a second guide pipe branched from the first guide pipe, and may be a pipe having a hollow Y shape.

The guide member may be integrally formed with a connector coupled to the heat insulating material inlet and a guide pipe extending into the foam space.

Since the guide member is provided so as to extend into the foam space, the heat insulating material foamed through the foam head can be prevented from being obstructed by obstacles in the foam space in a section guided by the guide member.

According to another aspect of the present invention, there is provided a refrigerator comprising: a main body including an inner surface in which a storage chamber is formed and an outer surface coupled to an outer surface of the inner surface to form an outer surface; A machine room cover which covers the machine room and is equipped with a thermal insulation material inlet for foaming the thermal insulation material in a foaming space between the inner and outer surfaces by the foam head, one end connected to the heat insulating material inlet, And a guide member extending into the space to guide the initial discharge position of the heat insulating material into the foam space.

The guide member may include a connector coupled to the heat insulating material inlet and a guide pipe connected to the connector to extend into the foam space.

The guide pipe may be a hollow straight pipe.

The guide pipe may include a first guide pipe provided as a hollow straight pipe and connected to the connector, and a second guide pipe branched from the first guide pipe, and may be a pipe having a hollow Y shape.

The guide member may be integrally formed with a connector coupled to the heat insulating material inlet and a guide pipe extending into the foam space.

According to another aspect of the present invention, there is provided a refrigerator including a main body including an inner surface having a storage chamber formed therein and an outer surface coupled to an outer surface of the inner surface to form an outer tube, a door opening and closing the storage chamber, And a guide member which is connected to the heat insulating material injection port and has one end extending into the foam space and guiding the heat insulating material introduced through the heat insulating material injection port, the heat insulating material injection port being provided for foaming the heat insulating material in the foam space inside the door, Wherein the guide member extends the initial discharge position of the heat insulating material foamed into the foam space into the foam space by the length of the guide member.

The refrigerator includes an inner cavity and an outer cavity according to an embodiment of the present invention. The refrigerator includes a heat insulating material inlet through which the heat insulating material flows, a refrigerant pipe connected to the heat insulating material inlet, And a guide member provided to extend into the space to guide the heat insulating material, wherein the guide member extends the initial discharge position of the heat insulating material foamed into the foamed space into the foamed space by the length of the guide member .

Since the guide member is provided so as to extend into the foam space, the heat insulating material foamed through the foam head can be prevented from being obstructed by obstacles in the foam space in a section guided by the guide member.

According to the embodiments of the present invention, it is possible to evenly fill the entirety between the inner and outer surfaces while minimizing the amount of the heat insulator used in the large-capacity refrigerator and the minimum heat-insulating thickness refrigerator.

Further, the curing time of the heat insulating material can be shortened, and voids generated on the surface of the heat insulating material can be minimized while the heat insulating material is cured, thereby improving the quality.

1 is a perspective view of a refrigerator according to an embodiment of the present invention;
2 is a cross-sectional view of a refrigerator according to an embodiment of the present invention;
FIG. 3 is a view illustrating a guide member disposed in a refrigerator according to an embodiment of the present invention; FIG.
Fig. 4 is a view showing a state in which the linear guide member of Fig. 3 is coupled to a heat insulating material inlet provided in the machine room cover; Fig.
FIG. 5 is a view showing a state in which a guide member according to another embodiment of FIG. 4 is coupled to a heat insulating material inlet provided in a machine room cover;
6 is a view showing a Y-shaped guide member disposed in a refrigerator according to an embodiment of the present invention.
Fig. 7 is a view showing a state in which the Y-shaped guide member of Fig. 6 is coupled to a heat insulating material inlet provided in the machine room cover;
Fig. 8 is a view showing a state in which a guide member according to another embodiment of Fig. 7 is coupled to a heat insulating material inlet provided in a machine room cover; Fig.

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

1 and 2, the refrigerator includes a main body 10 forming an outer appearance, a storage chamber 20 having a front surface opened inside the main body 10, an open front surface of the storage chamber 20, And a door 30 rotatably coupled to the main body 10 so as to open and close the main body 10.

The main body 10 includes an inner surface 11 forming a storage chamber 20 and an outer surface 13 forming an outer surface and includes a cool air supply device for supplying cool air to the storage chamber 20. [

The cold air supply device may include a compressor C, a condenser (not shown), an expansion valve (not shown), an evaporator 27, a blower fan 29, A heat insulating material 15 is foamed and filled in the foam space S between the inner and outer surfaces 11 and 13 and the door 30 to prevent the outflow of cool air from the storage chamber 20.

The machine room 25 is provided with a compressor C for compressing the refrigerant and for condensing the refrigerant and a machine room 25 for installing the condenser. The machine room 25 can be covered by the machine room cover 26 have.

The machine room cover 26 includes a machine room upper cover 26a covering the front and top of the machine room 25 and a machine room rear cover 26b covering the rear side of the machine room 25.

The storage room 20 may be partitioned into a plurality of storage compartments 17 and a plurality of shelves 27 and a storage container 29 may be provided in the storage room 20 to store food or the like.

The storage chamber 20 partitioned by the partition wall 17 can be partitioned into the upper storage chamber 21 and the lower storage chamber 23 by the first partition wall 17a coupled to the inner surface 11 in the lateral direction, The lower storage chamber 23 may be partitioned into a left storage chamber 223a and a right storage chamber 23b by a second partition wall 17b coupled to the inner surface 11 in the vertical direction.

The upper storage chamber 21 and the lower storage chamber 23 are opened and closed by an upper door 31 and a lower door 33 which are rotatably coupled to the main body 10 and are connected to the upper door 31 and the lower door 33, Can be provided as a double door.

A plurality of door guards 35 can be provided on the rear surfaces of the upper door 31 and the lower door 33, respectively.

Next, the configuration for foaming the heat insulating material 15 in the foam space S between the inner and outer phases 11 and 13 and the door 30 will be described in detail.

As shown in FIGS. 2 to 3, in the foam space S between the inner and outer surfaces 11 and 13 of the main body 10 and the inner space of the door 30, (15) is foamed.

It is shown that a heat insulating material injection port 26c to be described below is provided at a position for foaming the heat insulating material 15 in the foam space S between the inner surface 11 and the outer surface 13 of the main body 10, The foam space S filled with the liquid 15 is described as a space between the inner and outer surfaces 11 and 13.

However, the heat insulating material inlet 26c may be provided at a position where the heat insulating material can be foamed inside the door 30.

A heat insulating material 15 is foamed and filled in the foam space S between the inner and outer surfaces 11 and 13 by the foam head 110. [

The mechanical room upper cover 26a of the mechanical room cover 26 covering the mechanical room 25 for foaming the heat insulating material 15 in the foam space S between the inner and outer phases 11 and 13 is provided with a heat insulating material inlet 26c, .

The heat insulating material inlet 26c is formed on the rear surface of the main body 10 for foaming the heat insulating material 15 in the foam space S on the rear surface side of the main body 10 among the foam spaces S between the inner and outer surfaces 11, Is provided at a position corresponding to the foamed space (S)

The heat insulating material inlet 26c is provided in the central portion of the machine room cover 26 so that the heat insulating material 15 foamed through the heat insulating material inlet 26c is uniformly filled in the foam space S between the inner and outer surfaces 11 and 13 .

A foam head 110 connected to a heat insulating material inlet 26c provided in the machine room upper cover 26a for foaming the heat insulating material 15 in the foam space S between the internal phase 11 and the external phase 13, A guide member 120 connected to the heat insulating material inlet 26c is provided in the interior of the heat exchanger S.

The foaming head 110 blows the heat insulating material 15 through the heat insulating material inlet 26c to fill the foamed space S with the heat insulating material 15. [

Although it is shown in the drawing that only one heat insulating material injection port 26c is provided and the foam head 110 is formed to correspond to the single heat insulating material injection port 26c, the present invention is not limited thereto. A plurality of heat insulating material injection ports are provided, ≪ / RTI >

When the foam head 110 is connected to the heat insulating material injection port 26c to foam the heat insulating material 15, the heat insulating material 15 is foamed from the heat insulating material injection port 26c into the foaming space S and filled therein. In the case of a refrigerator having a thin heat insulating wall, the space between the heat insulating member 11 and the outer surface 13 is narrow. In the case of a refrigerator having a thin heat insulating wall, The discharge distance of the heat insulating material 15 is shortened due to the interruption of the flow, and the entire foam space S can not be filled evenly.

In order to uniformly fill the entire foam space S, the amount of the heat insulating material 15 foamed in the foam space S must be excessively injected relative to the volume of the foam space S.

When the heat insulating material 15 is excessively injected, the curing time of the heat insulating material 15 foamed into the foaming space S is delayed and a part of the heat insulating material 15 is exposed to the outside of the foaming space S, Since the heat insulating material 15 exposed to the outside of the foam space S must be removed, the working time for filling the heat insulating material 15 with the foam space S is delayed as well as troublesome. A void phenomenon, which is a phenomenon in which crater-shaped pores are generated on the surface of the heat insulating material 15 hardened in the foam space S, may occur.

In order to prevent the above problem, the heat insulating material 15 foamed through the foam head 110 may be guided to the portion extending from the heat insulating material injection port 26c by a predetermined interval into the foaming space S without interference of obstacles and the like A guide member 120 is provided.

The guide member 120 is connected to the heat insulating material inlet 26c at one end in the foam space S and the heat insulating material 15 extended at the other end inside the foam space S and foamed through the foam head 110, do.

3 to 4, the guide member 120 includes a connector 121 coupled to the heat insulating material inlet 26c, a guide pipe connected to the connector 121 to extend into the foam space S, 123).

The guide pipe 123 is provided as a hollow straight pipe so that the heat insulating material 15 foamed in the foam head 110 is inserted into the foam space S as much as the length of the guide pipe 123 without interfering with obstacles in the foam space S Guide.

The initial discharge position of the heat insulating material 15 foamed in the foam head 110 by the guide pipe 123 is extended in the foam space S by the length of the guide pipe 123 from the heat insulating material injection port 26c, Since the initial discharging position of the heat insulating material 15 extends from the bottom of the rear surface of the main body 10 to the center portion, the obstruction by the obstacles in the foaming space S is minimized, The entire foam space S can be uniformly filled with the heat insulating material 15 and the amount of the heat insulating material 15 injected can be minimized.

It is also possible to prevent the voids generated on the surface of the heat insulating material 15 while the heat insulating material 15 is cured in the foamed space S by surface friction during the foaming of the heat insulating material 15, The injection amount can be minimized, so that the heat insulating material 15 is not exposed to the outside, and the working time can be shortened.

As shown in FIG. 5, the guide member 130 may be integrally formed with the connector 131 and the guide pipe 133, and may be coupled to the heat insulating material inlet 26c.

Like the guide member 120 shown in FIG. 4, the guide pipe 133 is formed as a hollow straight pipe except that the connector 131 and the guide pipe 133 are integrally formed. .

6 to 7, the guide pipe 125 includes a first guide pipe 127 provided in a hollow straight pipe and connected to the connector 121, a first guide pipe 127 branched from the first guide pipe 127, 2 guide pipe 129 as shown in FIG.

The second guide pipe 129 can efficiently fill the entire foam space S by allowing the heat insulating material 15 that has passed through the first guide pipe 127 to branch and spread in two directions.

The guide pipe 125 including the first guide pipe 127 and the second guide pipe 129 has a hollow Y shape as a whole.

8, the guide member 130 is integrally formed with the connector 131 and the guide pipe 135 and is coupled to the heat insulating material inlet 26c. The guide pipe 135 is formed to have a hollow Y shape .

The guide pipe 135 includes a first guide pipe 137 which is provided as a hollow straight pipe and is connected to the connector 131 as in the guide pipe 125 shown in Fig. 6, and a second guide pipe 137 branched from the first guide pipe 137 And may include a second guide pipe 139.

While the preferred embodiments of the present invention have been disclosed for illustrative purposes, those skilled in the art will appreciate that various modifications, additions and substitutions are possible, without departing from the scope and spirit of the invention as disclosed in the accompanying claims. do.

10: main body 11:
13: Trauma 15: Insulation
17: partition wall 17a: first partition wall
17b:
20: storage room 21: upper storage room
23: Lower storage compartment 23a: Left storage compartment
23b: right storage room 25: machine room
26: Machine room cover 26a: Machine room upper cover
26b: Machine room rear cover 26c: Insulation inlet
27: shelf 29: storage container
30: door 31: upper door
33: lower door 35: door guard
110: foam head
120, 130: guide member 121, 131: connector
123, 125, 133, 135: guide pipe 127, 137: first guide pipe
129, 139: second guide pipe
C: compressor E: evaporator
F: blowing fan S: foaming space

Claims (16)

A main body including an inner surface in which a storage chamber is formed and an outer surface coupled to an outer side of the inner surface to form an outer tube;
A machine room provided at a lower portion of the main body and containing a compressor therein;
A mechanical chamber cover which covers the machine room and is provided with a heat insulating material inlet for foaming the heat insulating material in a foaming space between the inner surface and the outer surface by a foam head; And
A guide member connected to the heat insulating material inlet at one end and guiding the heat insulating material introduced into the foaming space through the heat insulating material inlet;
/ RTI >
Wherein the guide member extends an initial discharge position of the heat insulating material foamed into the foam space into the foam space by the length of the guide member. The method according to claim 1,
Wherein the heat insulating material inlet is provided on a machine room upper cover that covers the front and the upper part of the machine room cover, and is provided at a position corresponding to the foam space on the rear side of the body. 3. The method of claim 2,
Wherein the heat insulating material inlet is provided at a central portion of the machine room upper cover. The method according to claim 1,
Wherein the guide member includes a connector coupled to the heat insulating material inlet, and a guide pipe connected to the connector to extend into the foam space. 5. The method of claim 4,
Wherein the guide pipe is a hollow straight pipe. 5. The method of claim 4,
The guide pipe includes a first guide pipe provided in a hollow straight pipe and connected to the connector, and a second guide pipe branched from the first guide pipe, and is provided with a hollow Y-shaped pipe. The refrigerator. The method according to claim 1,
Wherein the guide member is integrally provided with a connector coupled to the heat insulating material inlet and a guide pipe extending into the foam space. The method according to claim 1,
Wherein the guide member is provided so as to extend into the foam space, so that the heat insulating material foamed through the foam head is prevented from being obstructed by obstacles in the foam space in a section guided by the guide member. A main body including an inner surface in which a storage chamber is formed and an outer surface coupled to an outer side of the inner surface to form an outer tube;
A machine room provided at a lower portion of the main body and containing a compressor therein;
A mechanical chamber cover which covers the machine room and is provided with a heat insulating material inlet for foaming the heat insulating material in a foaming space between the inner surface and the outer surface by a foam head; And
A guide member connected to the heat insulating material inlet at one end and guiding the initial discharge position of the heat insulating material to the inside of the foaming space by extending into the foaming space;
Wherein the refrigerator is a refrigerator. 10. The method of claim 9,
Wherein the guide member includes a connector coupled to the heat insulating material inlet, and a guide pipe connected to the connector to extend into the foam space. 11. The method of claim 10,
Wherein the guide pipe is a hollow straight pipe. 11. The method of claim 10,
The guide pipe includes a first guide pipe provided in a hollow straight pipe and connected to the connector, and a second guide pipe branched from the first guide pipe, and is provided with a hollow Y-shaped pipe. The refrigerator. 10. The method of claim 9,
Wherein the guide member is integrally provided with a connector coupled to the heat insulating material inlet and a guide pipe extending into the foam space. A main body including an inner surface in which a storage chamber is formed and an outer surface coupled to an outer side of the inner surface to form an outer tube;
A door that opens and closes the storage room;
A heat insulating material inlet provided for foaming the heat insulating material between the internal phase and the external phase and in a foaming space inside the door; And
A guide member connected to the heat insulating material inlet at one end and guiding the heat insulating material introduced into the foaming space through the heat insulating material inlet;
/ RTI >
Wherein the guide member extends an initial discharge position of the heat insulating material foamed into the foam space into the foam space by the length of the guide member. Claims [1] A refrigerator comprising an inner cavity and an outer cavity, the cavity being filled with a heat insulating material between the inner cavity and the outer cavity,
A heat insulating material inlet through which the heat insulating material flows;
A guide member connected to the heat insulating material inlet and extending to the inside of the foam space to guide the heat insulating material;
/ RTI >
Wherein the guide member extends an initial discharge position of the heat insulating material foamed into the foam space into the foam space by the length of the guide member. 16. The method of claim 15,
Wherein the guide member is provided so as to extend into the foam space, so that the heat insulating material foamed through the foam head is prevented from being obstructed by obstacles in the foam space in a section guided by the guide member.

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