KR20150075836A - Multi-refrigerator capable of individual control - Google Patents

Abstract

Disclosed is an individual-control type multi-refrigerator. According to an embodiment of the present invention, the individual-control type multi-refrigerator includes: an outdoor unit (100) having a compressor and a condenser forming a coolant circulating cycle installed outdoors; a coolant branch pipe (200) supplying a coolant of the outdoor unit (100) to a coolant supplying unit (210) installed in at least one room; at least one sub refrigerator (300) connected to the coolant supplying unit (210), generating cold air using the coolant supplied from the outdoor unit (100), and cooling food; a main refrigerator (400) generating cold air by receiving the coolant from the outdoor unit (100), cooling food, and having a multi-control panel (410) capable of being individually manipulated to set an inner temperature and a temperature of the sub refrigerator (300); a control box (500) electrically connected to the main refrigerator (400) and the sub refrigerator (300), transmitting control signals corresponding to a manipulation of the multi-control panel (410); and a coolant control valve (600) supplying the coolant supplied to the coolant supplying unit (210) or cutting off the coolant supply in accordance to the control signals of the control box (500).

Description

[0001] MULTI-REFRIGERATOR CAPABLE OF INDIVIDUAL CONTROL [0002]

The present invention relates to an independently controlled multi-refrigerator.

2. Description of the Related Art Generally, a refrigerator is a household appliance provided to store food in an internal storage space opened and closed by a door at low temperatures. The refrigerator is provided with a refrigerator, which uses cool air generated by heat exchange with a refrigerant circulated by a refrigeration cycle, A cold supply device may be provided to cool and store foods in an optimal state.

The cold air supply device of the refrigerator includes a compressor for compressing the refrigerant to a high temperature and a high pressure, a condenser for liquefying the compressed refrigerant by heat exchange, an expansion valve for expanding the condensed refrigerant, And an evaporator. The refrigerant is repeatedly circulated by the refrigeration cycle to supply cold air to the storage compartment.

In the conventional general refrigerator, since the compressor and the condenser necessary for the refrigeration cycle are installed in the refrigerator body, there is a problem that a lot of noise and heat are generated when the refrigerator is disposed in the room.

In addition, since the conventional refrigerator has the compressor and the condenser, which occupy a large volume in the refrigerator body, there is a problem that the storage space of the refrigerator is relatively reduced.

In addition, since a conventional refrigerator is installed in a corresponding space (for example, each room) when a plurality of refrigerators are required, the cost of purchasing and installing the refrigerator increases, and the noise and heat dissipation as described above may be involved.

Patent Document: Korean Patent Laid-Open No. 10-2007-62359 (published on June 15, 2007)

Embodiments of the present invention provide a compressor and a condenser which generate noise and heat in an outdoor environment, so that noise and heat are not generated in the room, so that the indoor environment can be maintained comfortably and the conventional compressor and condenser space can be stored in a refrigerator storage space It is intended to provide an independent controlled multi-refrigerator in which the capacity of the refrigerator can be increased because it can be expanded and used.

Embodiments of the present invention also provide an independent controlled multi-refrigerator which can easily connect sub-refrigerators to each room if necessary, and can easily control the sub-refrigerators independently in the main refrigerator to improve ease of use .

According to an aspect of the present invention, there is provided an outdoor unit comprising a compressor and a condenser forming a refrigerant circulation cycle, the outdoor unit being installed outdoors; A refrigerant distribution pipe for supplying the refrigerant of the outdoor unit to a refrigerant supply portion provided in at least one room; At least one sub-refrigerator connected to the refrigerant supply unit to generate cold air through the refrigerant supplied from the outdoor unit and cool the food; A main refrigerator having a multi-control panel which can receive refrigerant from the outdoor unit to generate cool air, cool the food, and operate the internal temperature and the temperature of the sub-refrigerator independently; A control box which is electrically connected to the main refrigerator and the sub-refrigerator and transmits a control signal corresponding to an operation of the multi-control panel; And a refrigerant control valve installed in the refrigerant distribution tube for supplying or blocking a refrigerant of the outdoor unit supplied to the refrigerant supply unit by a control signal of the control box.

In addition, a connecting part connected to the refrigerant supply part for receiving the refrigerant may be provided at one side of the sub refrigerator.

The refrigerant supply unit may be provided with a connection switch unit for sensing connection of the connecting unit.

The multi-control panel may further include: a main operating unit capable of controlling the main refrigerator; And a sub-operating portion capable of controlling the one or more sub-refrigerators.

In addition, the multi-control panel may be provided with at least one or more display units that indicate the temperature and the operation state of each of the main refrigerator and the sub-refrigerator.

Further, the sub-operation unit may be provided with an operation switch that can independently operate the sub-refrigerator.

In addition, the control box can send and receive signals via short-range wireless communication.

The refrigerant control valve may control a flow rate of the refrigerant flowing through the refrigerant branch connected to the respective refrigerant supply portions.

In addition, the refrigerant control valve may control the flow rate of the refrigerant stepwise by the control box.

In the embodiments of the present invention, since the compressor and the condenser, in which noise and heat are generated, are integrated into the outdoor unit and installed outdoors, noise and heat are not generated in the room, so that the indoor environment can be maintained comfortably.

Also, embodiments of the present invention can increase the capacity of the refrigerator because the conventional compressor and the condenser space can be expanded to the storage space of the refrigerator.

Further, embodiments of the present invention can easily use a sub-refrigerator easily connected to each room if necessary, and each sub-refrigerator can be independently controlled in the main refrigerator, thereby improving the usability of the refrigerator.

1 is a configuration diagram of an independent controlled multi-refrigerator according to an embodiment of the present invention;
FIG. 2 and FIG. 3 are cross-sectional views illustrating a connection structure of a sub-refrigerator and a refrigerant branch of an independent controlled multi-refrigerator according to an embodiment of the present invention,
FIG. 4 is a front view of an independent controlled multi-refrigerator according to an embodiment of the present invention including a multi-control panel,
FIG. 5 is a layout diagram showing the arrangement of the refrigerant control valves of the independent controlled multi-refrigerators according to the embodiment of the present invention,
6 is a block diagram illustrating control logic of an independently controlled multi-refrigerator according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, configurations and operations according to embodiments of the present invention will be described in detail with reference to the accompanying drawings. DETAILED DESCRIPTION OF THE INVENTION The following description is one of many aspects of the claimed invention and the following description may form part of the detailed description of the invention.

However, the detailed description of known configurations or functions in describing the present invention may be omitted for clarity.

While the invention is susceptible to various modifications and its various embodiments, it is intended to illustrate the specific embodiments and the detailed description. It is to be understood, however, that the invention is not to be limited to the specific embodiments, but includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention.

Terms including ordinals such as first, second, etc. may be used to describe various elements, but the elements are not limited by such terms. These terms are used only to distinguish one component from another.

It is to be understood that when an element is referred to as being "connected" or "connected" to another element, it may be directly connected or connected to the other element, . On the other hand, when an element is referred to as being "directly connected" or "directly connected" to another element, it should be understood that no other element exists in between.

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

Referring to FIG. 1, an independent controlled multi-refrigerator according to an embodiment of the present invention includes an outdoor unit 100, a refrigerant tube 200, a sub-refrigerator 300, a main refrigerator 400, a control box 500, And may include a refrigerant control valve 600.

The meaning of one embodiment of the present invention is not limited to these configurations but includes these configurations basically, and may also include other configurations (for example, well-known technologies widely known in refrigerators) However, since the known technology may obscure the gist of the present invention, a detailed description thereof will be omitted.

The outdoor unit 100 may include a compressor and a condenser that form a refrigerant circulation cycle. The compressor may generate a very loud noise during the high temperature and pressure increase of the refrigerant. The condenser dissipates the heat absorbed in the heat exchanging process of the refrigerant to the outside, so that high temperature heat may be generated around the condenser.

The compressor and the condenser are usually installed in the main body of the refrigerator. However, in the present embodiment, the compressor and the condenser may be installed in the outdoor unit 100, respectively, so that noises and heat are generated in the room.

Accordingly, since the outdoor unit 100 includes the compressor and the condenser required in the refrigeration cycle, there is no problem that the refrigerator maintains its original function.

The refrigerant branch 200 can supply the refrigerant of the outdoor unit 100 to the refrigerant supply unit 210 installed in at least one or more rooms. The refrigerant supply unit 210 and the outdoor unit 100 may be installed in each of the refrigerant distribution units 210 and 210. The refrigerant supply unit 210 may include a refrigerant supply unit 210 that can receive refrigerant supplied from the outdoor unit 100, (Not shown). For example, the first refrigerant supply unit 211, the second refrigerant supply unit 212, and the third refrigerant supply unit 213 may be installed in the rooms 1, 2, and 3, respectively.

Specifically, the coolant supply unit 210 may be installed in the wall of each room as an outlet so that the coolant branch 200 may not be visible from the outside. Therefore, the refrigerant in the outdoor unit 100 flows along the refrigerant tube 200 and can be supplied to the refrigerant supply unit 210 installed in each room.

The sub refrigerator 300 is detachably connected to the refrigerant supply unit 210 to receive refrigerant from the outdoor unit 100 and cool the food stored therein by generating cool air through the supplied refrigerant . The sub refrigerator (300) may be provided in one or more as needed. For example, when a sub-refrigerator 300 is required in any one of the rooms, the sub-refrigerator 300 can be used by connecting the sub-refrigerator 300 to the refrigerant supply unit 210 installed in the room to receive the refrigerant. The sub-refrigerator 300 may include an evaporator of a refrigeration cycle to cool the food stored therein by generating cold air through the supplied refrigerant.

2 and 3, a connecting part 310 connected to the refrigerant supply part 210 for receiving the refrigerant of the outdoor unit 100 may be installed at one side of the sub refrigerator 300. [ The connecting portion 310 may have a structure and a shape corresponding to the refrigerant supply portion 210 and may be detachably coupled to the refrigerant supply portion 210.

The refrigerant supply unit 210 is connected to the refrigerant tube 200 so that the connecting unit 310 can be connected to the refrigerant supply unit 210 and the connecting unit 310 A nipple 211 for connection with the nipple 211 can be formed.

The connecting portion 310 may be provided with a rotation assembly 311 coupled to the nipple 211. The rotary assembly 311 may be rotated and screwed to the nipple 211 to be assembled to the refrigerant supply unit 210 so that the refrigerant does not leak.

The refrigerant supplied to the refrigerant supply part 210 through the refrigerant tube 200 may be supplied to the connecting part 310. When the coupling part 310 is coupled to the rotary assembly part 311 and the nipple 211, Accordingly, the refrigerant can be supplied to the sub-refrigerator 300.

In addition, the refrigerant supply unit 210 may be provided with a connection switch unit 220 for sensing connection of the connecting unit 310. The connection switch unit 220 may detect a connection of the connection unit 310 and send a predetermined signal. The connection switch unit 220 may protrude from the outer surface of the connection unit 310, So that it can be a contact switch that detects the connection of the connecting part 310. [

The connection switch unit 220 may be implemented in other forms. The function and role of the connection switch unit 220 will be described later.

In addition, the main refrigerator (400) can receive coolant from the outdoor unit (100) and generate cool air to cool the food. Since the compressor and the condenser are excluded from the general refrigerator, the main refrigerator 400 may not generate noise and heat even when operated in the room. The main refrigerator 400 may include an evaporator for generating cold air through the supplied refrigerant.

The main refrigerator 400 may include a multi-control panel 410. The multi-control panel 410 may control the internal temperature of the main refrigerator 400 and the temperature of each of the sub- .

In detail, the multi-control panel 410 can set the temperature of the main refrigerator 400. When the main refrigerator 400 is separated from the main refrigerator 400, Can be selected. In addition, the multi-control panel 410 can independently control one or more sub-refrigerators 300. The target temperature can be set in the same manner as in the main refrigerator 400 described above, and each sub- 300) can be individually operated or stopped and refrigerated and frozen can be selected.

4, the multi-control panel 410 may include a main control unit 411 and a sub-control unit 412.

The main operation unit 411 can control the main refrigerator 400 and can control not only the temperature of the main refrigerator 400 but also the operation mode and the refrigeration mode as described above.

The sub-operating unit 412 can control the one or more sub-refrigerators 300. Items that can be controlled at this time include a temperature, an operation state, a refrigeration mode, and the like.

The main operating unit 411 and the sub operating unit 412 may be separated from each other to avoid user confusion.

At least one or more display units 413 may be installed in the multi-control panel 410 to indicate the temperature and operating condition of each of the main refrigerator 400 and the sub-refrigerator 300.

Accordingly, the user can easily and conveniently recognize the state of the main refrigerator 400 and the state of the sub-refrigerator 300 by viewing the display unit 413.

The sub-operating unit 412 may be provided with an operation switch 414 for operating the sub-refrigerator 300 independently. More specifically, even if the sub refrigerator 300 is connected to the refrigerant supply unit 210 in a specific room, the operation of the sub-refrigerator 300 is controlled by the main refrigerator 400 through the sub-operating unit 412 To this end, the sub-operating unit 412 may be provided with an operation switch 414 for turning the sub-refrigerator 300 on and off.

The control box 500 is electrically connected to the main refrigerator 400 and the sub-refrigerator 300 and may transmit a control signal corresponding to the operation of the multi-control panel 410.

The refrigerant control valve 600 may be installed in the refrigerant tube 200 and may supply or block the refrigerant supplied to the refrigerant supply part 210 by a control signal of the control box 500.

Specifically, when the sub-operating section 412 of the multi-control panel 410 is operated, the control box 500 receives the operation signal and appropriately controls the refrigerant control valve 600, (300).

For example, the operation of the sub-refrigerator 300 installed in the room 1 can be stopped through the sub-operating section 412. When the sub-refrigerator operating switch 414 in the room 1 is turned off in the sub-operating section 412 And the main refrigerator 400 sends a corresponding signal to the control box 500. At this time, the control box 500 controls the refrigerant control valve 600 to close the refrigerant tube 200 supplied to the room 1. Accordingly, even though the sub-refrigerator 300 installed in the room 1 is connected to the refrigerant supply unit 210, the refrigerant is shut off by the refrigerant control valve 600 and is not operated.

The control box 500 may receive a predetermined signal from the connection switch unit 220 installed in the refrigerant supply unit 210. Therefore, even if the operation signal is transmitted to the sub-refrigerator 300 through the sub-operation unit 412, if the signal is not inputted from the corresponding connection switch unit 220, the control box 500 controls the refrigerant control valve 600, So as to prevent the refrigerant from being supplied to the refrigerant branch 200 of the corresponding room.

In addition, the control box 500 may receive the current temperature of the sub-refrigerator 300 from a temperature sensor provided in the sub-refrigerator 300. Accordingly, the temperature of the sub-refrigerator 300 can be controlled by comparing the signal of the multi-control panel 410 with the signal of the temperature sensor and controlling the refrigerant control valve 600.

The control box 500 may be electrically connected to the main refrigerator 400, the connection switch unit 220 and the sub refrigerator 300. The control box 500 may be connected to the sub- And can exchange signals with the above configurations.

6, the control box 500 receives a signal from a temperature sensor in the connection switch unit 220 and the sub-refrigerator 300 and provides a bidirectional signal to the main refrigerator 400 So that the refrigerant control valve 600 can be controlled.

The control box 500 may receive signals from the multi control panel 410 of the main refrigerator 400 and may transmit signals of the connection switch unit 220 and the temperature sensor to the main refrigerator 400 So that the user can check the status of the sub-refrigerator 300 at present. The state of the sub-refrigerator 300 may be displayed through a display unit 413 provided in the multi-control panel 410.

The refrigerant control valve 600 may be a flow control valve capable of controlling the flow rate of the refrigerant flowing in the refrigerant distribution pipe 200 connected to the respective refrigerant supply units 210. The refrigerant control valve 600 receiving the control signal from the control box 500 controls the flow rate of the refrigerant tube 200 to increase or decrease the flow rate of the refrigerant supplied to the sub refrigerator 300, Can be controlled.

In addition, the refrigerant control valve 600 can control the flow rate of the refrigerant stepwise by the control box 500. In this case, the refrigerant control valve 600 may be a step-type solenoid valve that is operated by a digital method.

While the present invention has been described in connection with what is presently considered to be preferred embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It is to be understood that the invention is not limited thereto.

100: outdoor unit 200: refrigerant tube
210: coolant supply unit 211: nipple
220: connection switch 300: sub-refrigerator
310: connecting part 400: main refrigerator
410: Multi control panel 411: Main control panel
412: Sub-operation section 413:
414: Operation switch 500: Control box
600: Refrigerant control valve

Claims (9)

An outdoor unit including a compressor and a condenser which form a refrigerant circulation cycle, and installed outside the room;
A refrigerant distribution pipe for supplying the refrigerant of the outdoor unit to a refrigerant supply portion provided in at least one room;
At least one sub-refrigerator connected to the refrigerant supply unit to generate cold air through the refrigerant supplied from the outdoor unit and cool the food;
A main refrigerator having a multi-control panel which can receive refrigerant from the outdoor unit to generate cool air, cool the food, and operate the internal temperature and the temperature of the sub-refrigerator independently;
A control box which is electrically connected to the main refrigerator and the sub-refrigerator and transmits a control signal corresponding to an operation of the multi-control panel; And
A refrigerant control valve installed in the refrigerant branch and supplying or blocking a refrigerant of the outdoor unit supplied to the refrigerant supply unit by a control signal of the control box;
Wherein the refrigerator is a self-contained multi-refrigerator. The method according to claim 1,
And a connecting portion connected to the refrigerant supply portion for receiving the refrigerant is installed at one side of the sub-refrigerator. 3. The method of claim 2,
Wherein the refrigerant supply unit is provided with a connection switch unit for detecting connection of the connecting unit. The method according to claim 1,
The multi-
A main operating unit capable of controlling the main refrigerator,
A sub-operating unit operable to control the one or more sub-refrigerators;
Wherein the refrigerator is a self-contained multi-refrigerator. 5. The method of claim 4,
Wherein the multi-control panel is provided with at least one display unit for indicating the temperature and operating condition of each of the main refrigerator and the sub-refrigerator. 5. The method of claim 4,
Wherein the sub-operation unit is provided with an operation switch for independently operating the sub-refrigerator. The method according to claim 1,
Wherein the control box sends and receives signals via short-range wireless communication. The method according to claim 1,
Wherein the refrigerant control valve controls a flow rate of the refrigerant flowing through the refrigerant branch connected to each refrigerant supply unit. 9. The method of claim 8,
Wherein the refrigerant control valve controls the flow rate of the refrigerant stepwise by the control box.

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