KR100622265B1 - Building structures for positioning refrigerators outside - Google Patents

Abstract

      The present invention relates to a building designed to reduce the use of power energy of the refrigerator by exposing the refrigerator outdoors in a residential or commercial building.

      The present invention, in the building that separates the indoor and outdoor by a plurality of walls, the refrigerator is located in the room, the through-hole is formed in any one of the walls so that the refrigerator door is located indoors, The remaining portion provides a refrigerator outdoor mounted structure, characterized in that it is located outdoors to reduce the use of power energy by the refrigerator.

     According to the present invention, when the outdoor temperature is low, such as winter, by exposing the refrigerator to the outdoor, the operation of the refrigerator is essentially stopped to reduce the energy used by the annual refrigerator by 1/2, and additionally heat generated from the refrigerator By discharging to the room, the indoor temperature is prevented from rising and at the same time, the noise generated from the refrigerator is blocked from the indoor space to obtain the effect of making the indoor environment quiet and comfortable.

Residential or Commercial Buildings, Refrigerator Isolation, Refrigerator Storage Units, Energy Saving, Indoor Heat Dissipation, Noise Harm, Residential Improvements

Description

Refrigerator Outdoor Mounted Architecture {BUILDING STRUCTURES FOR POSITIONING REFRIGERATORS OUTSIDE}

1 is a schematic plan view showing a refrigerator indoor mounted structure according to the prior art;

2 is a graph showing the average indoor temperature and the inside temperature of the refrigerator according to the related art, and an explanatory view showing the operation period of the refrigerator;

3 is a graph showing the indoor average temperature, the internal temperature of the refrigerator, and the outdoor average temperature according to the present invention. When the refrigerator is placed outside, a graph for explaining the saving effect (amount) to about 1/2 of the electric energy used by the refrigerator is shown. Degree;

4 is a longitudinal sectional view showing the structure of a typical home refrigerator;

A), b) of FIG. 5 is a schematic plan view showing a refrigerator outdoor mounted structure according to a first embodiment of the present invention;

FIG. 6 is a view showing a configuration in which a refrigerator is arranged in a refrigerator outdoor mounted structure according to a first embodiment of the present invention.

          a) is an external appearance perspective view, b) is a longitudinal cross-sectional view;

7 is a schematic plan view showing a refrigerator outdoor mounting structure according to a second embodiment of the present invention;

8 is a longitudinal sectional view showing a configuration in which a refrigerator is arranged in a storage room in a refrigerator outdoor mounted structure according to a second embodiment of the present invention;

9 is an explanatory diagram showing a use state in which the present invention is applied to a drawer type kimchi refrigerator;

10 is an explanatory diagram showing a use state in which the present invention is applied to a drawer type kimchi refrigerator and a general refrigerator;

11 is an explanatory diagram showing a use state in which the present invention is applied to a kimchi refrigerator having an upper open door;

FIG. 12 is an explanatory diagram showing a use state in which the first and second embodiments of the present invention are applied to a drawer type kimchi refrigerator and a general refrigerator.

       <Description of the symbols for the main parts of the drawings>

1 .... refrigerator outdoor mounted structure according to the present invention

10 ... through hole 20 .... shielding means

25 .... crevice 30 .... wires

40 .... Vent 50 .... Refrigerator Storage

55 ... refrigerator compartment 60 ... bulkhead

65 .... bulkhead door 70 .... vent

100 .... conventional architecture 110 .... wall

120 ... indoors 130 ... outdoor

140 .... Refrigerator 158 .... Refrigerator Door

170 .... refrigerant compressor 200 ... veranda

T1 .... Average room temperature T2 ... Temperature inside refrigerator

T3 ... Outdoor Average

The present invention relates to a structure for reducing the power energy used by the refrigerator by additionally exposing the refrigerator outdoors in a residential or commercial building, and additionally preventing harmful effects of heat radiation and noise in the room. When the outdoor temperature is low, such as winter, when the outdoor temperature is low, the operation of the refrigerator is stopped at a source, and the power energy used by the refrigerator is reduced to 1/2 of a year. The present invention relates to a refrigerator outdoor mounted structure that prevents an increase in indoor temperature and at the same time blocks noise generated from a refrigerator from an indoor space to quietly and comfortably improve an indoor environment.

Here, the refrigerator refers to a general household refrigerator having a freezer and a refrigerating chamber, a kimchi refrigerator having only a refrigerating chamber, and a freezer having only a freezer. The internal temperature is kept lower than the outside temperature, and a refrigerant is used to maintain the temperature. Commonly used in the place are commonly referred to, and for the sake of simplicity of the description below will be referred to as a refrigerator.

As shown in FIG. 1, the conventional building 100 divides the interior 120 and the exterior 130 into one or more walls 110 and mounts the refrigerator 140 in the interior 120. It is structure to use.

The refrigerator 140 located in the interior 120 of the building 100 typically maintains the internal temperature of the refrigerator compartment low even when the outside temperature is low, such as winter, spring, or autumn, as in FIG. 2. Works all year round.

That is, the indoor 120 temperature of the building 100 should be maintained at a constant temperature in order to maintain the temperature suitable for the human body, but the temperature of the refrigerator 140 is a temperature value set by the user regardless of the indoor 120 temperature. Because it should work to follow.

In FIG. 2, an average temperature T1 of a living space of a typical indoor 120 and an average temperature T2 of a refrigerator are shown in a graph. As such, the average temperature T1 of the living space of the indoor 120 is about 20 ° C. to 25 ° C., whereas the average internal temperature T2 of the refrigerator is about 5 ° C., so the refrigerator 140 operates in the room 120 almost all year round. Will be. That is, the refrigerator 140 placed indoors always operates all year round and uses power energy equal to the difference between the indoor average temperature T1 and the refrigerator average temperature T2.

On the other hand, as shown in Figure 3, when the refrigerator 140 is placed in the outdoor 130 according to the present invention, the energy emission by the difference between the outdoor average temperature (T3) and the average temperature (T2) in the refrigerator 140 is Therefore, the power energy used by the refrigerator uses power energy that is equal to the difference between the outdoor temperature T3 and the average temperature T2 in the refrigerator.

In other words, when placed in the room 120 as in the prior art, the heat energy emission corresponding to the difference between the room average temperature T1 and the refrigerator average temperature T2 is required, but when placed in the outdoor 130 as the present invention, the outdoor average temperature Since only a large amount of heat energy corresponding to the difference between the T3 and the average temperature T2 of the refrigerator is needed, energy saving of up to about 1/2 of the energy consumed in the refrigerator 140 is possible.

In particular, even when the indoor 120 temperature is high, such as in the summer, the refrigerator 140 installed in the indoor 120 still radiates heat to the indoor 120, thereby further increasing the indoor 120 temperature. Weight.

Therefore, the present invention has a power energy saving effect of up to 1/2 of the refrigerator 140 compared to the conventionally located in the indoor 120, which is the greatest saving effect in the winter when the temperature difference between the indoor and outdoor increases. appear. In addition, the difference between indoor and outdoor temperature is small in the summer or rather high outside, but most of the power energy used by the refrigerator is converted into heat, so if the indoor refrigerator uses 120 kwh of monthly power, it can heat up to 4 kwh daily in summer. It's like doing it.

By removing the effect of heating that appears in the summer, not only does the indoor environment become comfortable, but also when the air conditioner is used indoors, it has an energy saving effect of about one third (about 40 kwh) of the power consumption of the refrigerator.

In this case, if the air conditioner is used, the air conditioner again cools all the heat generated from the refrigerator 140 and discharges it to the heat pump, thereby increasing power energy use in summer as described above. For this reason, according to the present invention, since the rise of the temperature of the indoor 120 does not occur, it is determined that the maximum use value of the power according to the use of the air conditioner will provide a direct benefit in solving or mitigating the problem appearing each summer.

4 illustrates a typical household refrigerator 140 by way of example.

In the refrigerator 140, a freezing compartment and a refrigerating compartment 144 which are mutually partitioned therein are located, and an evaporator 146 and a fan 148 are installed, respectively. The freezer compartment and the refrigerating compartment 144 are respectively equipped with a freezer compartment temperature sensor and a refrigerating compartment temperature sensor for detecting an internal temperature, and an outside air temperature sensor for detecting an ambient temperature at which the refrigerator 140 is installed.

In addition, the door 158 is configured with a key input unit for receiving an internal temperature from the user, and compares the temperature set by the key operation of the key input unit with the internal temperature detected by each temperature sensor to determine the freezing compartment 142 and It is determined whether or not to perform the cooling operation for the refrigerating chamber 144, and comprises a control unit for turning on or off the drive of the refrigerant compressor 170 according to the determination result.

The refrigerator 140 is used as a necessity in each home or business place, and the refrigerator 140 has a monthly power consumption of 54 kW in the L company's 499-litre refrigerator, but this is empty. Represents one month of power consumption, and the actual measured result is 119kw.

In ordinary residential buildings, the indoor average temperature (T1) is maintained at around 20 ℃ in winter and around 25 ℃ in summer. On the other hand, the refrigerator 140 must operate the compressor 170 for condensing and vaporizing the refrigerant from the gas state to the liquid state and the fans 148 for circulating cold air in order to keep the internal temperature low. The power energy must be consumed by the difference from the average temperature T1.

In this process, heat is emitted from the compressor 170 and the fan 148, and in particular, high heat is generated from the compressor 170, and the heat is mostly emitted to the room 120, and especially, in the summer, the heat is generated indoors ( 120) The vicious cycle of increasing the power consumption of the air conditioner used to raise the temperature and thus lower the elevated room 120 temperature continues.

In addition, the operation of the compressor 170 and the fan 148 generates noise to make the interior 120 space noisy and uncomfortable and increase discomfort.

However, in the related art, no solution has been proposed to solve the harm caused by the refrigerator.

The present invention is to solve the above-mentioned conventional problems, the object is to expose the parts of the refrigerator except the door located in the indoor space to the outside to stop the operation of the refrigerator at the source when the outdoor temperature is low, such as winter By reducing the power energy used by the refrigerator by 1/2 per year and additionally dissipating the heat radiation of the refrigerator to the outside, it prevents the room temperature from rising and at the same time makes noise generated from the refrigerator into the indoor space. It is intended to provide a refrigerator outdoor mounted structure that is designed to quietly and comfortably improve the indoor environment by cutting off.

In order to achieve the above object, the present invention, in the building that separates the indoor and outdoor with a plurality of walls, the refrigerator is located in the interior,
A refrigerator storage space in which a refrigerator is located in a part of the indoor space is formed, and the refrigerator storage space is separated from the other spaces through the partition walls; And,
A ventilation means formed in one of the partition walls of the refrigerator storage room and configured to allow an outdoor unit to flow into the inside of the refrigerator storage room;
The venting means is made of a grill (grille) or a leaf-like structure is made to provide a refrigerator outdoor mounting structure characterized in that the outside air flow to the refrigerator storage room is freely made, reducing the use of power energy by the refrigerator.

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

The refrigerator outdoor mounted structure 1 according to the first embodiment of the present invention has a plurality of walls 110 as well as the interior 120 and the outdoor, as shown in FIGS. 5a), b) and 6a), and b). In the building structure that divides the 130, the through-hole 10 is formed in any one of the walls 110, the refrigerator 140 is located in the outdoor 130, the refrigerator door 158 is the interior 120 It is located in.

The through hole 10 is slightly larger than the refrigerator 140 to be installed, and exposes most of the refrigerator 140 to the outdoor unit, and exposes only the door 158 of the refrigerator 140 to the indoor 120. .

A shielding means 20 is provided to shield the empty space formed between the through hole 10 and the refrigerator 140 to isolate the indoor 120 and the outdoor 130.

The shielding means 20 not only separates the heat and noise of the refrigerator 140 from the room 120, but also blocks the inflow of the outdoor unit into the room 120 or blocks the indoor air from going out to the outside 130.

Therefore, since the shielding means 20 seals the gap 25 formed between the through hole 10 and the refrigerator 140, a shielding means 20 contains a heat insulating material such as styrofoam having excellent heat insulating property, and is fabric or thin. It may have a structure wrapped with an outer cover formed of a flexible synthetic plastic cover or the like to fill the empty space, finish with silicon caulking or the like, or fill the void with a rubber bellows or the like.

On the other hand, if the size of the refrigerator 140 is determined in advance, the size of the through hole 10 is determined in consideration of the size of the building during construction, and after completing the construction so that a predetermined gap 25 remains, There may also be a method of only pushing the 140 and finishing with the shielding means 20 of a predetermined standard. In addition, if the refrigerator 140 is provided at the time of sale of the apartment, the gap 25 and the shielding means 20 are formed in accordance with the size of the refrigerator 140, and the refrigerator 140 is installed before the construction is completed. Then there is a way to finish.

And, the power supplied to the refrigerator 140 is connected from the power socket of the room 120, the wire 30 for supplying power is no problem because it passes through the through hole 10.

On the other hand, if the building of the present invention is a multi-family house such as an apartment or multi-family, the through hole 10 may be formed on the wall 110 partitioning the veranda 200 and the interior 120. In this case, of course, the shielding means 20 is required, as well as the porch 200 may be a structure that is formed in a structure that is blocked so that air is not circulated, and the outside air is not blocked by the chassis or the like.

As described above, the present invention exposes the refrigerator 140 located in the interior 120 of the building to the outside except for the door of the refrigerator 140 to stop the operation of the refrigerator at its source when the outdoor temperature is low, such as winter. Heat and noise generated from the refrigerator 140 to the space of the interior 120 by reducing the power energy used by the refrigerator to 1/2 on a year basis and changing the structure of the wall 110 to expose the heating source to the outside. It can effectively block the incoming. Therefore, in the summer, it is possible to prevent an increase in the temperature of the indoor 120 to lower the air conditioner operation rate, and to obtain an environmental improvement effect of creating a pleasant indoor 120 environment with little noise.

7 shows a second embodiment of a refrigerator outdoor mounted building 1 according to the present invention. According to the second embodiment of the present invention, in a building structure that divides the interior 120 and the exterior 130 into a plurality of walls 110, a refrigerator storage compartment 50 is formed in a part of the space of the interior 120. . The refrigerator storage room 50 has a refrigerator storage space 55 in which the refrigerator 140 is located, and the storage space and the refrigerator are shielded so that outside air does not reach the front of the refrigerator 140, and the refrigerator storage space 55 is a structure that is separated from the other space of the interior 120 through the partition walls (60). This concept can be well illustrated in the longitudinal section in FIG. 8 is different from FIG. 7 in that it has a white leaf structure at the back of the refrigerator.

In addition, the refrigerator storage chamber 50 should be provided with a door 65, which is formed in any one of the partition walls 60 separating the space between the refrigerator storage chamber 50 and the interior 120, the refrigerator storage chamber ( 50 and the interior 120 should be selectively opened and closed. Therefore, when the door 65 is opened, the door 158 of the refrigerator 140 may be opened in the room 120.

In addition, ventilating means 70 may be formed in the other one of the partition walls 60 of the refrigerator storage compartment 50 to allow outside air to flow into the refrigerator storage compartment 50. The ventilation means 70 may be a conventional grille or a window that is always open, and the free air may be freely distributed to the refrigerator storage compartment 50.

In addition, when the refrigerator storage room 50 is located in the common house, the partition 60 is formed on one side of the porch 200, etc., the space may be more easily arranged.

According to the second embodiment of the present invention configured as described above, the storage space 55 is formed so that the outside air is easily communicated with the refrigerator storage room 50, and the storage space 55 is a door 65, for example, a hinged door. , Or block it with a sliding door structure, install the refrigerator 140 in this space, and only open the door 65 when the refrigerator 140 is used, and close it when finished.

In the case of the door 65 which blocks the refrigerator storage compartment 50 and the interior 120, a material having excellent thermal insulation such as pair glass, acrylic, lexan (which is also used as bulletproof glass as a transparent polymer material), and the like is used. In addition to blocking the heat and noise of the refrigerator 140 from entering the room 120, the heat loss of the room 120 through the door 65 may be reduced.

In addition, when the door 65 is opened, a safety system that opens manually or automatically opens but closes automatically may maximize energy savings.

And, since the structure of the kimchi refrigerator 140 is usually a structure in which the door is attached to the upper portion, it is more effective to apply a method using the refrigerator compartment 50 and the door 65 as in the second embodiment of the present invention. will be.

In the above, the present invention is constructed so as to expose only the door 158 of the refrigerator 140 to the interior 120 by using the first embodiment, the kimchi refrigerator 140 is a refrigerator storage room ( 50) and the door 65 may be installed by mixing the above two methods.

Ventilation means 70 installed in the rear or side of the refrigerator 140 in any one of the first and second embodiments is a function of the crime prevention so that the air is smoothly flown, and outsiders can not enter or fall inside. It should be equipped with a free space at least 10cm or more around the refrigerator 140, so that the air distribution is smooth, it is desirable to be designed to maintain the shade at all times, such as the structure of the white leaf during sunshine.

On the other hand, the present invention, when the refrigerator 140 is located in the indoor 120 as in the prior art, when the outdoor temperature is low, such as winter, to stop the operation of the refrigerator 140 at a source to save the power energy used by the refrigerator 1 By reducing the temperature to 1/2 of the year and dissipating the heat radiation to the outside of the refrigerator, the indoor temperature is prevented from rising and the noise generated from the refrigerator is blocked from the indoor space to make the indoor environment quiet and comfortable. .

9 is a use state in which the present invention is applied to the drawer type kimchi refrigerator 140. In addition, FIG. 10 illustrates a state in which the present invention is applied to a drawer type kimchi refrigerator and a general refrigerator. This application case can be easily implemented by applying the first embodiment of the present invention.

And, Figure 11 shows the use state that the present invention is applied to the kimchi refrigerator 140, etc. having an upper open door. In addition, FIG. 12 shows a use state in which the present invention is applied to a drawer type kimchi refrigerator and a general refrigerator. Such application can be easily implemented by applying the first and second embodiments of the present invention.

As described above, the present invention can reduce the energy used in the refrigerator 140 by changing the structure of the apartment to alleviate the power shortage in the summer, and can also increase the power supply reserve ratio.

On the other hand, the present invention has been described with respect to a specific structure, the present invention is not limited to this, the modification structure can be variously implemented by those skilled in the art without departing from the spirit and scope of the present invention. For example, the simple shape and material change of various components such as the through hole 10, the shielding means 20, the door 65, and the venting means 70, the physical specification change, and the use of the equivalent items are all It will be apparent to those skilled in the art through the present invention, and it is apparent that all such modifications are within the scope of the present invention.

In addition, the present invention can be applied to commercial and commercial buildings as well as residential use using the refrigerator 140 and the like.

According to the present invention as described above, by changing the structure of the building to expose the parts of the refrigerator, except for the door to the outdoors, when the outdoor temperature is low, such as winter to stop the operation of the refrigerator by the power energy used by the refrigerator 1 You can cut it by half a year.

Therefore, the present invention basically reduces the energy consumption of the user, and thus can be said to be environmentally friendly in terms of global warming. Indirectly, it is possible to reduce the cost of power generation facilities, reduce the energy used in the home, and use it for industrial or other purposes.

In addition, the present invention prevents the noise generated by the operation of the refrigerator to be introduced into the room, the indoor occupants can secure a comfortable living space with less noise. Thus, residents can be free from noise pollution and become a useful solution to improve their quality of life.

Claims (10)

delete delete delete delete delete In the building that separates the indoor 120 and the outdoor 130 by a plurality of walls 110, the refrigerator 120 is located in the indoor 120, A refrigerator storage space 55 in which the refrigerator 140 is located is formed in a part of the space of the interior 120, and the refrigerator storage space 55 is formed through the partition walls 60 from the other spaces of the interior 120. A separate refrigerator storage compartment 50; And, And ventilation means (70) formed in any one of the partition walls (60) of the refrigerator storage compartment (50) to allow the outdoor unit to flow into the interior of the refrigerator storage compartment (50). The ventilating means 70 has a grille or a lobe-shaped structure, which freely distributes outside air to the refrigerator storage chamber 50, and reduces the use of power energy by the refrigerator 140. Outdoor mounted structure. delete The refrigerator of claim 6, further comprising a door (65) formed in any one of the partition walls (60) separating the space of the refrigerator storage compartment (50) and the interior (120). The refrigerator and the outdoor mounting structure of the refrigerator 140, characterized in that to separate the heat and noise from the room 120, and to open the refrigerator door 158 in the room 120 when the door 65 is opened. . The outdoor mounting structure of a refrigerator according to claim 8, wherein the door (65) is made of a material having excellent heat insulating properties such as pair glass, acrylic, or lexan (transparent polymer material). delete

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