KR20150034805A - Flake and method for reducing temperature of waste heat - Google Patents

Abstract

The present invention provides flakes and methods that can reduce the waste heat temperature by using the water produced when the air conditioner operates to increase the heat exchange efficiency. Thus, an energy saving effect can be achieved. The flakes are located between the inner bottom of the air conditioner and the condenser fan and the condenser coil. When the condenser fan is in operation, a portion of the wind generated by the condenser fan is blown toward the flake, and then along the flake is blown toward the lower water produced when the air conditioner operates, thereby causing water to flow to the condenser coil The condenser coil can be cooled. Thereby, the temperature of the discharged waste heat is reduced. When the condenser coil is cooled, the heat exchange efficiency is increased. Accordingly, the indoor cooling effect can be increased and the energy saving effect can be achieved.

Description

FIELD AND METHOD FOR REDUCING TEMPERATURE OF WASTE HEAT FIELD OF THE INVENTION [0001]

FIELD OF THE INVENTION The present invention relates to a flake for reducing waste heat, and more particularly to a flake used to reduce the temperature of a condenser coil in an air conditioner for the purpose of reducing the waste heat temperature.

Technology is gradually evolving and widely used, making life easier. Technology brings not only positive benefits but also negative losses. In recent years, global warming and climate change have continued to cause weather disasters all over the world. Therefore, interest in environmental issues is increasing gradually. Various devices for preventing pollution and saving energy are becoming mainstream in product design.

Regarding the air conditioner, when considering the performance of the air conditioner, it is emphasized to reduce the energy consumption, but the influence of the hot air discharged from the air conditioner is neglected. In overcrowded cities, many air conditioners emit polluted hot air that causes serious pollution.

In recent years, some air conditioners have a fan for raising the water generated during operation, so that water can be discharged to the outside together with the wind. However, they require a space between the fan and the floor of the air conditioner, and thus have a disadvantage that the fan can not avoid being hit by the floor. In this case, the water remains on the floor and can not be discharged. Also, dust is partially deposited on the floor and can not be discharged by the wind. After a period of time, dust adheres to the floor and indirectly affects cooling efficiency.

Therefore, with regard to air conditioning design, it is becoming important to reduce the waste heat temperature. In particular, a method of reducing heat pollution in the environment by reducing the waste heat emission in the air conditioner industry has become a major issue. However, the expected effect was not achieved by current air conditioners.

In order to solve the above-mentioned problems, the present invention provides a method of increasing the heat exchange efficiency by reducing waste heat by using water generated when an air conditioner is operated. Thus, an energy saving effect can be achieved.

In order to achieve the above object, the present invention provides a flake for reducing the temperature of waste heat discharged from an air conditioner. The flakes are located between the inner bottom of the air conditioner and the condenser fan and the condenser coil. When the condenser fan is in operation, a portion of the wind generated by the condenser fan is blown toward the flake, and then along the flake is blown against the lower water produced when the air conditioner is activated, thereby causing the water to rise to the condenser coil So that the condenser coil can be cooled.

Thereby, the temperature of the discharged waste heat is reduced. When the condenser coil is cooled, the heat exchange efficiency is increased. Therefore, the indoor cooling effect can be increased and the energy saving effect can be achieved. The present invention provides flakes that can be placed in any type of air conditioner, suitable for each air conditioner in a market with different specifications. Flakes are highly compatible and can be launched on the market soon. In addition, water and dust on the floor can be discharged by the wind.

Also, a plurality of holes are formed in the flakes to allow the air to flow relatively smoothly.

Also, the flakes can be inclined to the condenser fan so that as the wind passes over the surface of the water, the air pressure increases and thereby the dust can rise.

The flakes have a top at a lower level than the axis of the condenser fan.

The present invention also provides a method for reducing the temperature of waste heat discharged from an air conditioner. The method includes placing the flakes between the inner bottom surface of the air conditioner and the condenser fan and the condenser coil. When the condenser fan operates, a portion of the wind generated by the condenser fan travels along the flakes and continues to move the water to the inner bottom surface of the air conditioner and into the condenser coil. Thereby, the temperature of the discharged waste heat is reduced and the above-mentioned other advantages are achieved.

The present invention also provides an air conditioner including a housing, a condenser fan, a condenser coil, an evaporator fan, an evaporator coil, a compressor, an expansion valve, and a controller. The condenser fan, the condenser coil, the evaporator fan, the evaporator coil, the compressor and the expansion valve are arranged in the housing. The controller, condenser fan and evaporator fan are electrically connected to the compressor. The condenser coil has an end communicating with the compressor and the other end communicating with the expansion valve. The evaporator coil has an end communicating with the compressor and the other end communicating with the expansion valve. The condenser fan faces the condenser coil. The evaporator fan faces the evaporator coil. The flakes are located between the bottom surface of the housing and the condenser fan and the condenser coil. When the condenser fan operates, a portion of the wind generated by the condenser fan travels along the flakes and continues to move the water to the inner bottom surface of the air conditioner and into the condenser coil. Thereby, the air conditioner can have an improved efficiency and the temperature of the waste heat discharged can be reduced.

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification. BRIEF DESCRIPTION OF THE DRAWINGS The drawings illustrate embodiments of the invention and together with the description serve to explain the principles of the invention.

The Figures disclose exemplary implementations of the invention. They do not present all implementations. Other implementations may be used additionally or alternatively. Obvious or unnecessary details may be omitted for space savings or more efficient explanations. Conversely, any embodiment may be practiced without all of the details disclosed. Reference will now be made, by way of example, to the accompanying drawings, in which: FIG.
BRIEF DESCRIPTION OF THE DRAWINGS Aspects of the present disclosure will be more fully understood from the following description with reference to the accompanying drawings, which are, in effect, illustrative and not restrictive. The scale shown in the drawings is not necessarily limited to the scale shown in the drawings, and the scale shown in the drawings is somewhat exaggerated or emphasized to explain the principle of the present invention.
1 is a three-dimensional view of an air conditioner according to an embodiment of the present invention.
2 is a partial perspective view of an air conditioner according to an embodiment of the present invention.
3 is a partial side view of an air conditioner according to an embodiment of the present invention.
4 is a perspective view of a flake according to an embodiment of the present invention.
5 is a perspective view of an air conditioner having flakes having longitudinal holes according to an embodiment of the present invention.
Fig. 6 is a perspective view showing a flake having a longitudinal hole according to an embodiment of the present invention. Fig.
7 is a perspective view of a flake having a longitudinal hole according to an embodiment of the present invention.
While specific embodiments have been illustrated in the drawings, it is to be understood that those of ordinary skill in the art to which the invention pertains are illustrative only and modifications thereof as well as other implementations described herein may be envisioned and envisioned within the scope of the disclosure It will be understood.

The illustrated implementations are described. In addition, other implementations may be used or substituted. Obvious or unnecessary details may be omitted for space savings or more efficient explanations. Conversely, any embodiment may be practiced without all of the details disclosed.

To facilitate understanding of the embodiments, the present invention "flake and method for reducing waste heat temperature" is shown in combination with an air conditioner. However, the scope of the present invention is limited only by the claims.

An embodiment provides a method for reducing the temperature of waste heat discharged from an air conditioner. The method includes positioning the flake 2 on the inner bottom surface of the air conditioner 1 and between the condenser fan 20 and the condenser coil 30. When the condenser fan 20 is operated, the wind generated by the condenser fan 20 moves along the flakes 20 and continues to move the water to the inner bottom surface of the air conditioner 1 and to the condenser coil 30 And a portion thereof.

The arrangement of the flakes 2, coupled to the air conditioner 1, as described below, describes the effects and functions of the flakes 2 and the method described above.

1 is a three-dimensional view of an air conditioner according to an embodiment of the present invention. The air conditioner 1 includes a housing 10, a condenser fan 20, a condenser coil 30, an evaporator fan 40, an evaporator coil 50, a compressor 60, an expansion valve 70 and a controller 80 .

The condenser fan 20, the condenser coil 30, the evaporator fan 40, the evaporator coil 50, the compressor 60 and the expansion valve 70 are arranged in the housing 10. The controller 80, the condenser fan 20 and the evaporator fan 40 are electrically connected to the compressor 60. The condenser coil 30 has an end communicating with the compressor 60 and the other end communicating with the expansion valve 70. The evaporator coil 50 has an end communicating with the compressor 60 and the other end communicating with the expansion valve 70. The condenser fan (20) faces the condenser coil (30). The evaporator fan (40) faces the evaporator coil (50).

2 and 3, the flakes 2 are located between the bottom surface of the housing 10 and the condenser fan 20 and the condenser coil 30. When the condenser fan 20 is operated, a part of the wind generated by the condenser fan 20 moves along the flakes 2 as shown by the arrow A, and the water W is supplied to the inner bottom of the air conditioner 1 And is moved to the condenser coil 30. Thereby, the condenser coil 30 can be further cooled, so that the exhaust air is not too hot. Further, the flakes 2 are not affected by the size of the condenser fan 20. Water and dust at the bottom of the housing 10 can be raised by the wind force generated by the condenser fan 20. Thereby, water can be efficiently used for cooling and dust discharge. This is convenient for subsequent cleaning processes.

Referring to FIG. 4, a plurality of holes 21 are formed in the flakes 20 to allow air to flow relatively smoothly. 1-3, the flakes 20 may be inclined to the condenser fan 20 to induce wind forces to press against the surface of the water so that the water may be splashed by the wind.

Further, the upper portion of the flakes 2 is at a lower level than the axis of the condenser fan 20.

In addition, the flakes 2 may be close to the bottom of the housing 10, which is in connection with the two sides of the housing 10 and is within the scope of the "inner bottom surface of the air conditioner "

5-7, longitudinal apertures 22 are provided at the bottom of the flakes 2 and allow air to flow therethrough. Thereby, the increased water is raised by the air flow and the condenser coil 30 can be further cooled.

Unless otherwise stated, all measurements, values, classes, positions, sizes, sizes, and other descriptions contained in the claims set forth below and in the claims below are approximate and not accurate. They are intended to have a reasonable scope consistent with the associated functions and the practices of the relevant field. Also, unless otherwise stated, ranges of values are intended to include the lower and upper limits described. Also, unless otherwise stated, all material choices and numerical values represent preferred embodiments and other ranges and / or materials may be used.

The scope of protection is to be limited only by the claims and such scope is to be accorded the ordinary meaning of the language used in the claims when interpreted in light of the present specification and the appended claims and is intended to include all structures and their functional equivalents, And interpreted.

Claims (10)

A flake for reducing the waste heat temperature that is configured to be provided between the inner bottom surface of the air conditioner and the condenser fan and the condenser coil.
The flake according to claim 1, wherein multiple holes are formed in the flakes.
3. The flake according to claim 2, wherein the flakes lean towards the condenser pan and have a top at a lower level than the axis of the condenser pan.
The flake according to claim 3, wherein a longitudinal hole is formed in the bottom of the flake.
A method for reducing the waste heat temperature, comprising providing an inner bottom surface of the air conditioner and a flake between the condenser fan and the condenser coil, wherein when the condenser fan is operated, Moving along the flakes and continuously moving water to the inner bottom surface of the air conditioner and moving it to the condenser coil.
6. The method of claim 5, wherein a plurality of holes are formed in the flakes.
7. The method of claim 6 wherein the flakes lean towards the condenser fan and have an upper portion at a level lower than the axis of the condenser fan.
The method of claim 7, wherein a longitudinal hole is formed in the bottom of the flake.
A refrigerator comprising a housing, a condenser fan, a condenser coil, an evaporator fan, an evaporator coil, a compressor, an expansion valve and a controller, wherein the condenser fan, the condenser coil, the evaporator fan, , The compressor and the expansion valve being in the housing, the controller, the condenser fan and the evaporator fan being electrically connected to the compressor, the condenser coil having an end communicating with the compressor and the other end communicating with an expansion valve, The evaporator fan having an end communicating with the compressor and the other end communicating with the expansion valve, the condenser fan facing the condenser coil, the evaporator fan facing the evaporator coil, Wherein the condenser fan is located between the condenser fan and the condenser coil, and when the condenser fan is operated, Part of the generated wind is moving along the said flakes, and while continuously moving the water to the inner bottom surface of the air conditioning air conditioner, comprising a step of moving to the condenser coil.
 10. The method of claim 9, wherein a plurality of holes are formed in the flakes, the flakes are inclined to the condenser pan and have an upper portion at a lower level than the axis of the condenser fan, and a longitudinal hole is formed in the bottom of the flake air conditioner.

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