KR0140250B1 - Wind direction dispersion structure of window air conditioner - Google Patents

Abstract

The present invention relates to a wind direction dispersion structure of a window-type air conditioner to improve the cooling efficiency by reducing and discharging the cold air discharged to the top evenly, the evaporator 20 by the suction force of the blower (10) Scroll 30 for guiding the air sucked through the interior to circulate, and the evaporator assembled in the scroll 30 to collect the circulated air in a predetermined pressure and direction to exhaust the air circulated under the guidance of the scroll 30 to the interior In the window type air conditioner composed of the cover 40 and a cabinet 50 which is assembled to cover each component and discharge cold air forward, the cold air discharged to the guide surface 31 of the scroll 30 naturally. The plurality of dispersion pieces 32 are projected in the vertical direction between the start point and the end point of the guide surface 31 so as to disperse the amount of air forward.

Description

Wind direction dispersion structure of window air conditioner

Figure 1 is a perspective view of a schematic air conditioner showing a conventional cold air discharge structure.

2 is a front view of an air conditioner showing a conventional air flow.

Figure 3 is a plan view of excerpts showing the conventional cold air discharge structure.

4 is a front view of the air conditioner showing the air flow according to the present invention.

Figure 5 is a plan view of the excerpts showing the cold air discharge structure of the present invention.

* Explanation of symbols for main parts of the drawings

10: blower 20: evaporator

30: Scroll 31: Guide surface

32: Dispersion Stone 40: Evaporator Cover

50: cabinet

The present invention relates to a window-type air conditioner, and more particularly to a wind direction dispersion structure of the window-type air conditioner to improve the cooling efficiency and to reduce fluid noise by distributing the cold air discharged to the top evenly.

Conventional window air conditioners include a compressor for compressing a refrigerant gas at a high temperature and a high pressure, a condenser for dissipating the high temperature and high pressure refrigerant gas transferred from the compressor to a liquid phase gradually, and a phase change from the condenser to a liquid state. Evaporated refrigerant gas is evaporated while passing the low temperature liquid and gaseous refrigerant and the low temperature liquid and gaseous refrigerant transferred from the expansion valve to take away the ambient heat and keep the external temperature at a low temperature. The refrigerant cycle is configured by an evaporator to transfer the feed back to the compressor.

However, in order to discharge the cold air into the room, the structure of the air conditioner as shown in FIGS. 1 to 3, the scroll 30 for guiding the air sucked through the evaporator 20 by the suction force of the blower 10 to circulate to the room. And an evaporator cover 40 which is assembled to the scroll 30 and collects the air circulated under the guidance of the scroll 30 at a predetermined pressure and direction to exhaust the air into the room, and conceals each component and simultaneously discharges cold air. It consists of the cabinet 50 assembled so that it may be made.

In the upper discharge method, the indoor air is sucked into the evaporator 20 by the suction force of the blower 10 and heat exchanged, and then the cold air is discharged vertically using the rotation direction of the blower 10 and the shape of the scroll 30. In this case, the cabinet 50 and the scroll 30 are used to change the air discharge direction toward the front (indoor side) of the cold air discharged vertically upward.

That is, the cabinet 50 is discharged to the front side by hitting the upper wall cold air discharged vertically upward, and the scroll 30 is distributed to the front to serve to guide the discharge.

By the way, the scroll 30 is formed by the curved guide surface 31 on the left side in consideration of the rotational direction of the blower 10 to guide the flow of air naturally forward, but by the rotational direction of the blower 10 As shown in FIG. 3, the a 'part is discharged the most, the c part is discharged secondly, and the b part is discharged the least, so that the amount of cold air discharged forward is different.

That is, the portion a is most discharged in the rotational direction of the blower 10, and the portion c is blown directly in the circumferential direction (centrifugal force) by the blower 10, and the portion b is directly discharged, and the portion b is the blower 10 side. Since it is located on the same axis, the amount of air discharged in the axial direction of the blower 10 is inevitably small.

Therefore, the discharge amount of air is different, so the wind direction concentration phenomenon occurs, and it is not possible to cool the room evenly, which leads to a decrease in the cooling efficiency. Furthermore, the noise is increased by the wind direction concentration phenomenon, and thus the product quality is deteriorated. There was a problem becoming.

The present invention has been made to solve such a conventional problem, and the object of the present invention is to provide a wind direction dispersion structure of the window air conditioner so that the cold air discharged to the top is distributed and discharged evenly to improve cooling efficiency and reduce fluid noise. .

In order to achieve the above object, the present invention provides a scroll for circulating the air sucked through the evaporator by the suction force of the blower into the room, and the air circulated by the scroll guided by the scroll to exhaust the air into the room. A window type air conditioner comprising an evaporator cover that collects pressure and direction and a cabinet that is assembled to cover each component and discharge cold air to the front, wherein the cold air discharged to the guide surface of the scroll naturally flows forward. It is a feature of the present invention that the wind direction dispersion structure of the window air conditioner is formed by protruding a plurality of dispersed stone pieces in a vertical direction between the start point and the end point of the guide surface so as to disperse.

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

1, 4 and 5 are embodiments of the present invention, the scroll 30 and the scroll for guiding the air sucked through the evaporator 20 by the suction force of the blower 10 to the room, and the scroll An evaporator cover 40 which is assembled to the 30 and collects the air circulated under the guide of the scroll 30 at a predetermined pressure and direction to exhaust the air circulated to the room, and conceals each component and simultaneously discharges cold air to the front. In the window-type air conditioner composed of the cabinet 50 to be assembled, a plurality of cold air discharged to the guide surface 21 of the scroll 30 between the start point and the end point of the guide surface 31 so as to naturally distribute the amount of air forward. The protrusions 32 are formed in the vertical direction to form a wind direction dispersion structure of the window air conditioner.

The present invention configured as described above, the cold air passing through the evaporator 20 is discharged to the vertical direction in the direction of rotation of the blower 10 by the rotational force of the blower 10 and the shape of the scroll 30, the evaporator cover ( Through the horizontal plane of 40, the cabinet 50 hits the upper wall as in the prior art, and is guided by the guide surface 31 of the lower scroll 30 and discharged forward.

Therefore, the cold air guided to the guide surface 31 of the scroll 30 hits the plurality of dispersion stone pieces 32 protruding from the guide surface 31, and the cold air hit each dispersion stone piece 32 from the point of impact Each discharge is forward, so that it is naturally dispersed, the cooling air is evenly distributed by the distributed cold air to improve the cooling efficiency, and due to the wind direction dispersion fluid noise is significantly reduced to improve the quality of the product.

As described above, the present invention is a very useful invention that can evenly distribute and discharge cold air discharged to the top to improve cooling efficiency and reduce fluid noise.

Claims (1)

A scroll for circulating the air sucked through the evaporator by the suction force of the blower to the room, and an evaporator cover assembled in the scroll to collect the circulated air in a predetermined pressure and direction to exhaust the circulated air to the room; In a window air conditioner composed of a cabinet that is assembled to cover each component and discharge cold air forward, wherein the cold air discharged to the guide surface of the scroll naturally spreads the amount of air forward between the start and end points of the guide surface. A wind direction dispersion structure of a window air conditioner, characterized in that a plurality of dispersed stone pieces protruding in the vertical direction.