KR200258640Y1 - Air conditioner discharge outlet structure to prevent dew condensation - Google Patents

Abstract

It is an object of the present invention to achieve an air conditioner that air-conditions a space inside an air conditioner, by providing a discharge port of an air conditioner for supplying heat-exchanged air conditioners into an air conditioner. The inner edge of the rim is composed of a curved surface having an arc shape with a predetermined radius to prevent heat from occurring in the airflow edge of the air-conditioning air that is supplied into the air-conditioning place, that is, from the front of the rim of the discharge port. It won't happen.

In particular, the present invention is characterized in that when attaching a decorative member, such as a decoration line to the inner periphery of the edge of the discharge port, to form a curved surface attached to the front end surface of the decorative member corresponding to the edge of the discharge port.

Description

Air conditioner outlet structure to prevent dew condensation

The present invention relates to a discharge port of an air conditioner that circulates indoor air in an air conditioning place by a forced convection method by a blowing means and air-conditions the air conditioner, and in particular, dew condensation to prevent dew condensation around the discharge port during operation. It relates to an air conditioner discharge port structure for prevention.

In general, an air conditioner for the purpose of air conditioning, that is, an air conditioner for air conditioning the room in a cooling state, has a heat exchanger 20 and a blowing means 30 built in the air conditioner main body 10 as shown in FIG. In addition, the discharge port 11 and the suction port 12 are provided on the upper and lower sides of the main body 10 configured as described above to forcibly convection the indoor air in the air conditioning place to achieve the desired air conditioning.

By the way, the dew condensation phenomenon occurs around the discharge port 11 around the discharge port 11 through which air conditioning air is discharged during operation of the air conditioner due to a temperature difference from the room.

More specifically, as shown in FIG. 2, when the edge 12 forming the periphery of the discharge port 11 is viewed, the panel and the decoration line are attached to the front surface formed on the substantially vertical plane for aesthetic treatment, and the discharge port 11 configured as described above. The inner periphery of the edge 12 is formed of a right-angled corner and its front surface is formed in a vertical plane with respect to the direction in which the air-conditioning air discharged is made of a vertical plane as described above.

The front surface of the frame 12 is structured, that is, the front surface is a vertical plane and the inward side is composed of a corner, the eddy phenomenon occurs inevitably occurs at the edge of the air conditioning air discharged into the air conditioning place by the shape of the border Airflow congestion is taking place.

This phenomenon of circulating air generated in the front of the edge 12 of the discharge port 11 raises the surface temperature of the edge 12 (19 ° C. based on the room temperature of 24 ° C.) and is contained in the air in the air conditioning place. Moisture condensation has occurred, and dew condensation has occurred on the edge surface.

Dew condensation on the front and back of the edge 12 of the discharge port 11 is deteriorating the productability, leading to consumer dissatisfaction and reliability.

In addition, the phenomenon of stagnation of air-conditioning air discharge airflow in front of the edge of the discharge port is a cause of noise during operation.

The present invention has been made in consideration of the above circumstances, and an object of the present invention is to configure the inner periphery of the edge of the discharge port as a curved surface to prevent eddy phenomenon occurring at the edge of the air stream of the discharged air-conditioning air and to form dewy edges. In order to prevent the occurrence of the dew point structure of the air conditioner for preventing dew condensation by configuring the inner edge of the edge surrounding the discharge port of the arc-shaped curved surface having a predetermined radius.

1 is a side view of a general air conditioner

2 is a partially enlarged cross-sectional view showing a discharge port structure of a conventional air conditioner

Figure 3 is an enlarged cross-sectional view of the main portion of the discharge port showing the present invention dew formation prevention structure

Figure 4 is a cross-sectional view showing another embodiment of the present invention dew condensation prevention structure

* Description of the symbols for the main parts of the drawings *

110: discharge port 120: the edge

121, 131: curved surface 130: decorative member

The present invention for achieving the above object is to discharge the air flow of the air conditioning air discharged by processing the inner peripheral edge of the discharge port of the air conditioner to the curved surface having a predetermined arc so that the discharge port is smoothly without stagnation In the discharge opening structure of the air conditioner for preventing dew condensation and preventing dew condensation, by attaching a decorative member such as a decoration line to the inner circumference of the discharge opening, Forming a curved surface on the front end surface of the decorative member is characterized in that attached.

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

Figure 2 is shown in detail for the discharge port structure of the air conditioner according to the present invention.

The characteristic technique of the present invention is that the airflow of the air-conditioning air supplied to the air-conditioning place through heat exchange is a sudden expansion, that is, a point just outside the edge of the discharge port at the end of the discharge path, and the airflow edge of the air-conditioning air The edging structure of the discharge port is improved so that the eddy phenomenon naturally occurs due to the airflow action.

According to the present invention, the edge 120 forming the periphery of the discharge opening 110, that is, the curved portion formed by processing the inner edge side edge of the edge 120 formed of a substantially rectangular parallelepiped for a decorative effect around the discharge opening 110 has a predetermined arc. The surface 121 is comprised.

The curved surface 121 provided on the inner circumference of the rim 120 is formed from the end of the discharge port 110 to provide the discharge path of the air conditioning air, which is formed at the end of the discharge passage, that is, inside the discharge passage. have.

At this time, the circular arc radius of the curved surface 121 will preferably have as large as the edge 120 allows.

The curved surface 121 of the edge 120 will allow the edge airflow of the air conditioning air supplied through the discharge port 110 to ride to the point where the main surface of the edge 120 ends, and be discharged into the air conditioning place.

In this way, the air flow of air-conditioning air is discharged in contact with the main surface of the rim 120, that is, the curved surface 121 of the rim 120 so that the surface temperature of the rim 120 is maintained at about 14 ° C to 16 ° C. As a result, dew condensation does not occur.

4 shows a preferred embodiment of the present invention.

What is different from the above embodiment in this embodiment is an example of using a decorative member 130, such as a decoration line, to enhance the decorative effect of the edge 120 of the discharge port 110.

In the present embodiment, the edge 120 of the discharge port 110 is reduced to about half the size of the above embodiment, and the decorative member 130 is installed inside the edge 120 reduced in size by half.

Then, the inner circumference of the decorative member 130 installed in the edge 120 is configured as a curved surface 131 having a predetermined arc as in the embodiment.

By configuring the decorative member 130 as described above, the same effect as in the above embodiment is obtained, and the appearance of the product is improved.

As a result, the present invention allows the discharge airflow of the air conditioning air to be smoothly discharged from the front of the discharge port edge of the air conditioner, thereby preventing dew condensation completely, reducing noise, and improving productivity and reliability.

Claims (1)

The inner periphery of the edge of the discharge port of the air conditioner is processed into a curved surface with a predetermined arc so that the discharge air stream of the air-conditioning air discharged is smoothly discharged from the end of the discharge port without any congestion, thereby preventing eddy phenomenon and preventing dew formation. In the discharge port structure of the air conditioner for preventing dew condensation, When attaching a decorative member such as a decoration line to the inner circumference of the discharge opening, an air conditioner for preventing dew condensation, wherein a curved surface is formed on the front end surface of the decorative member corresponding to the edge of the discharge opening. Ejection opening structure.