KR20010098288A - Machine room suction and discharge channel formation structure for refrigerator - Google Patents

Abstract

The present invention relates to a structure for forming a suction and discharge flow path of a machine room for a refrigerator, and in the case where the conventional cooling air is sucked forward and discharged to flow backward, the flow path design mainly considering a shielding condition of a refrigerator installed in a shielded space is proposed. Due to the insufficient cooling of the air sucked forward, the condensation and compression efficiency is lowered due to the increase of the ambient temperature, and the flow noise is greatly generated due to the uneven flow of the suction and discharge air. Since the number of revolutions of the cooling fan has to be increased to compensate for the reduction of the number of fans, the service life of the fan motor is reduced. Cooling air is sucked smoothly around the suction channel without any backflow. The discharge flow paths formed on both sides of the machine room and the gap between the machine room and the shielded space where the refrigerator is installed can be discharged smoothly without the occurrence of backflow, thereby effectively increasing the condensation and compression efficiency of the machine room and consequently improving the performance of the refrigerator. It is possible to reduce the flow noise generated by the inlet and discharge air flow in a uniform state, and to reduce the rotational speed of the fan motor by efficient heat exchange into the machine room, thereby improving the service life of the fan motor. It can extend and reduce the power consumption.

Description

Suction and discharge flow channel formation structure of the machine room for refrigerators {MACHINE ROOM SUCTION AND DISCHARGE CHANNEL FORMATION STRUCTURE FOR REFRIGERATOR}

The present invention relates to a structure for forming a suction and discharge flow path of a machine room for a refrigerator, and more particularly, to allow the cooling air sucked through the machine room to be discharged smoothly without a backflow occurring when the refrigerator is installed in a shielded space. will be.

In general, a refrigeration cycle applied to an air conditioner such as a refrigerator or an air conditioner absorbs heat from the outside or releases heat to keep food fresh and to keep the indoor environment pleasant by cooling / heating the room. Will be

Such a refrigeration cycle includes a compressor for changing a gaseous refrigerant of low temperature and low pressure into a gaseous state refrigerant of high temperature and high pressure, and a condenser for changing a gaseous state of high temperature and high pressure gaseous refrigerant changed into a liquid refrigerant of high temperature and high pressure. Heat exchanger for condensation, a capillary tube for converting the high temperature and high pressure liquid refrigerant changed in the condenser into a low temperature low pressure liquid refrigerant, and absorbing external heat while changing the low temperature low pressure liquid refrigerant changed in the capillary into a gas state It is composed of an evaporator (= heat exchanger for evaporation), wherein each of the components are connected to the refrigerant pipe.

As shown in FIGS. 1 and 2, the machine room formed at the lower end of the main body of the conventional refrigerator to which the above-mentioned refrigeration cycle is applied is provided with a lower cover 8 having a plurality of suction ports 9 formed on the front surface of the machine room 1a. In the machine room 1a behind the lower cover 8, a condenser 3 is supported and installed on the machine room bottom frame 10, and in the rear of the condenser 3, air outside the refrigerator is inside the machine room 1a. A fan motor 6 generating power for rotating the cooling fan 7 to be attracted to and cooled is mounted, and a compressor 4 is installed in front of the fan motor 6.

Accordingly, as the cooling fan 7 is rotated by the driving of the fan motor 6 mounted in the machine room 1a, the air outside the refrigerator passes through the inlet 9 of the lower cover 8 of the machine room 1a. As it is sucked inside and flows around the condenser 3, it takes heat away from the condenser 3 to condense the gaseous refrigerant flowing through the condenser 3, and subsequently cools the compressor 4 while The process of exiting backwards is repeated.

However, when the conventional cooling air is sucked forward and discharged to flow backward, the flow path design considering the shielding conditions of the refrigerator installed in the mainly shielded space as shown in FIG. Since the cooling air cannot be discharged smoothly to the rear, the condensation and compression efficiency due to the rise of the ambient temperature is lowered, the flow noise due to the flow irregularity of the intake and discharge air is greatly generated, and to compensate for the reduction of the air volume. Since the rotation speed of the cooling fan 7 has to be increased, there are many problems such as deterioration of the service life of the fan motor 5.

Accordingly, the present invention is to solve the above-mentioned problems, the cooling air sucked through the machine room in a state where the refrigerator is installed in a shielded space can be discharged smoothly without the occurrence of backflow to improve the condensation and compression efficiency In addition, the object of the present invention is to provide a suction and discharge flow path forming structure of a machine room for a refrigerator that can reduce the noise generated by allowing the suction and discharge air to flow in a uniform state.

In addition, another object of the present invention is to provide a suction and discharge flow path formation structure of the machine room for a refrigerator that can reduce the rotational speed of the fan motor by the efficient heat exchange into the machine room to reduce the power consumption.

1 is a side view showing a machine room of a conventional refrigerator

2 is a plan view schematically illustrating a state in which cooling air is sucked into and discharged from a machine room in a state where the refrigerator of FIG. 1 is installed;

3 is a perspective view schematically showing a state in which cooling air is sucked and discharged into a machine room of a refrigerator according to the present invention;

4 is a plan view showing a state where a refrigerator equipped with a machine room of FIG. 3 is installed;

Explanation of symbols on the main parts of the drawings

One; Machine room 2; Suction euro

3; Condenser 4; compressor

5; Discharge flow path

In order to achieve the above object, the present invention provides a suction flow path through which cooling air is sucked into the front center of the machine room, and cooling air sucked in each side of the machine room around the suction flow path cools the condenser and the compressor. There is provided a suction and discharge flow path formation structure of a machine room for a refrigerator, characterized in that a discharge flow path is formed for discharging air exiting to the rear of the air so that a backflow does not occur.

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention for achieving the above object will be described in detail.

3 is a perspective view schematically illustrating a state in which cooling air is sucked and discharged into a machine room of a refrigerator according to the present invention, and FIG. 4 is a plan view illustrating a state in which a refrigerator having a machine room of FIG. 3 is installed, which is the same as that of the related art. The same reference numerals are given to the parts to describe the present invention.

According to the present invention, a suction flow path (2) through which cooling air is sucked is formed in the front center of the machine room (1) of the refrigerator, and cooling air sucked in each side of the machine room (1) around the suction flow path (2) is a condenser ( 3) and a discharge flow passage 5 for discharging the air flowing out of the rear of the machine chamber 1 after cooling the compressor 4, so that no back flow occurs, and the suction flow passage 2 and the discharge flow passage 5 are formed. ) Is formed in a step shape on the basis of the side cross section.

3 and 4, when the cooling fan 7 is rotated by the driving of the fan motor 6 mounted to the machine room 1, the air outside the refrigerator is stored in the machine room ( 1 through the inlet 9 of the lower cover 8, the inlet flow path 2 formed in the front center of the 1) is sucked into the interior of the machine room (1) to smoothly flow around the condenser (3) condenser (3) The heat is removed from the condenser 3 to condense the gaseous refrigerant flowing in the condenser 3, and the process of exiting to the rear of the machine chamber 1 while cooling the compressor 4 is repeated.

At this time, the discharge air exiting to the rear of the machine room (1) is a discharge space (5) formed on both sides of the machine room (1) around the suction flow path (2), the shielding space is installed the machine room (1) and the refrigerator The gap G therebetween can be smoothly discharged without the occurrence of backflow.

Therefore, it is possible to effectively increase the condensation and compression efficiency of the machine room 1, to reduce the noise generated by the intake and discharge air can be flowed in a uniform state, and by the efficient heat exchange to the machine room (1) Since the rotation speed of the fan motor can be reduced, power consumption can be reduced.

As described above, in the present invention, the cooling air sucked through the suction flow path formed in the front center of the machine room of the refrigerator installed in the shielded space is smoothly discharged on both sides of the machine room around the suction flow path without the occurrence of a back flow. By discharging smoothly without the occurrence of backflow into the gap between the flow path and the shielded space where the machine room and the refrigerator are installed, the condensation and compression efficiency of the machine room can be effectively increased, and as a result, the performance of the refrigerator can be improved. The air can be flowed in a uniform state to reduce the flow noise generated, and the rotation speed of the fan motor can be reduced by efficient heat exchange into the machine room, thereby extending the service life of the fan motor, consumption consumption Can save power, reducing the efficiency and reliability of the refrigerator. Width is a very useful invention that improves.

Although the preferred embodiments of the present invention have been illustrated and described above, the present invention is not limited to the above-described embodiments, and is generally defined in the technical field to which the present invention pertains without departing from the gist of the present invention as claimed in the following claims. Anyone with knowledge of the world will be able to make various changes.

Claims (1)

A suction flow path is formed in the front center of the machine room, and suction air flows to the rear of the machine room after cooling air condensed and the compressor cools the condenser and the compressor on both sides of the machine room. A suction and discharge flow path formation structure of a machine room for a refrigerator, characterized in that a discharge flow path for discharging is formed so as not to be discharged.