KR19990065325A - Stabilizer of the air conditioner indoor unit - Google Patents

Abstract

The present invention relates to a flow path structure of the indoor unit (I) of the air conditioner, and in particular, in order to maximize the air volume increase and noise reduction effect, the blower (1) for forced circulation of the air and heat exchanger for changing the inlet air into cold and dry air In the structure of the indoor unit (I) in which the upper and lower flow passages (3) and (4) and the stabilizer (5) are formed, each of which is provided with the apparatuses (2) and guides the generated cold air to the outside. The stabilizer 5 maintains the installation angle A in the range of 29 ° to 34 ° on the horizontal center line of the blower 1, and the installation gap between the outer periphery of the blower 1 and the closest part. It is arranged to maintain the size corresponding to 11% to 13% of the diameter of the blower (1), the installation angle (A) and the installation gap (G) of the stabilizer (5) installed on the cold air discharge port (7) side To apply ideal values through experimentation Therefore, it is possible to optimize the design for high air volume and low noise, and thus increase the cooling efficiency, as well as improve the reliability of the user due to low noise, and relates to a stabilizer of an indoor unit of an air conditioner that can maximize energy efficiency.

Description

Stabilizer of the air conditioner indoor unit

The present invention relates to a flow path structure of an indoor unit of an air conditioner, and in particular, a stabilizer of an indoor unit of an air conditioner capable of maximizing the airflow increase and noise reduction effect by ideally arranging an installation angle and an installation gap of a stabilizer installed at a cold air discharge side. It is about.

As shown in FIG. 1, a general air conditioner indoor unit (I) has a blower (1) installed on a shaft of a motor to forcibly circulate air, and the inside of the indoor unit (I) by the operation of the blower (1). Outside air inlet 6 opened to allow outside air to be sucked in, Heat exchanger 2 for converting the hot and humid air introduced through the outside air inlet 6 into cold and hot air, and the blower 1 It consists of a cold air discharge port (7) opened to discharge the cold air to the outside of the indoor unit (I) by the operation of.

In addition, an upper flow path 3 and a lower flow path 4 are formed inside the indoor unit I, with the blower 1 as the center, and a stabilizer 5 formed at the cold air discharge port 7 side to form cold air. Will guide you outside. The upper flow passage 3 is shaped to induce intake air to flow in a streamlined manner toward the blower 1, and the lower flow passage 4 controls the pressure of cold air discharged by the blower 1. The stabilizer 5 divides the suction and discharge areas and stabilizes the flow due to the vortices generated in the blower 1. will be.

In the conventional air conditioner, high temperature and high humidity indoor air is introduced into the indoor unit (I) through the outside air inlet (6) by the operation of the blower (1). After passing through the heat exchanger to change into cold and dry air, it is discharged out of the indoor unit through the cold air outlet 7 by the continuous operation of the blower (1).

At this time, the stabilizer (5) is intake of air at the upper portion, the discharge of air is made in the lower portion, it is affected by the increase and decrease of the noise by selecting the appropriate position.

The noise factor of the stabilizer 5 includes an element with respect to the installation angle A formed by the arrangement direction of the stabilizer 5 from the horizontal center line of the blower 1, the outer periphery and the stabilizer of the blower 1; It can be classified as an element for the installation gap (G) between the five (5), the installation angle (A) is represented by an angle, the installation gap (G) is expressed as a ratio to the diameter of the blower (1). .

Based on the above, conventional stabilizers 5 typically have an installation angle A of 35 ° and an installation gap G of 11%, so that the noise is increased and the air volume is decreased. It is a structure that makes.

Therefore, in the conventional stabilizer 5, when the air flow rate is to be increased in order to generate proper cooling performance, the number of rotations of the blower 1 must be increased. There was a problem of lowering satisfaction.

Accordingly, the present invention has been made to solve the above problems, by ideally arranging the installation angle and the installation gap of the stabilizer is installed on the cold air outlet side air conditioning indoor unit to maximize the air volume increase and noise reduction effect The purpose is to provide a stabilizer.

1 is a longitudinal sectional view showing a structure of a general air conditioner indoor unit;

2a to 2c are graphs showing the experimental results according to the installation angle and installation gap change of the stabilizer when the same air volume is applied;

Figure 2a is a noise level comparison value when the flow rate is 4.5 CMM,

2b is a comparison of the noise level when the flow rate is 5.0 CMM,

2C is a comparison of noise levels when the flow rate is 5.5 CMM.

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

A; Mounting angle G; Mounting clearance

I; Indoor unit 1; air blower

2 ; Heat exchanger 3; Upper Euro

4 ; Bottom channel 5; Stabilizer

6; Fresh air intake 7; Cold air outlet

Stabilizer of the indoor unit of the air conditioner according to the present invention for achieving the above object maintains the installation angle in the range of 29 ° to 34 ° on the horizontal center line of the blower, and the installation gap between the adjacent portion and the outer periphery of the blower It characterized in that the arrangement to maintain the size corresponding to 11% to 13% with respect to the diameter of the blower.

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

The air conditioner indoor unit (I) of the present invention has a blower (1) installed on the shaft of the motor for forcibly circulating air, as in the conventional general structure shown in Fig. 1, and the indoor unit by the operation of the blower (1). (I) an outside air inlet 6 opened to allow outside air to be sucked into the inside, a heat exchanger 2 for changing hot and humid air introduced through the outside air intake 6 into cold and dry air; And, by the operation of the blower (1) consists of a cold air discharge port (7) opened to discharge the cold air to the outside of the indoor unit (I), the inside of the indoor unit (I), the upper part around the blower (1) A flow path 3 and a lower flow path 4 are formed, and a stabilizer 5 is formed at the cold air discharge outlet 7 to guide the cold air to the outside.

In the indoor unit I configured as described above, the stabilizer 5 according to the present invention is disposed while maintaining the installation angle A in the range of 29 ° to 34 ° on the horizontal center line of the blower 1.

In addition, the stabilizer (5) maintains the size of the installation gap (G) between the outer periphery of the blower (1) closest to 11% to 13% of the diameter of the blower (1) It is deployed.

Since the flow analysis for the optimal installation structure of the stabilizer 5 according to the present invention configured as described above is impossible to theoretically identify, the value is selected through extensive experiments.

In order to support these figures, graphs such as FIGS. 2A to 2C were obtained through countless experiments in which the installation angle A and the installation gap G of the stabilizer 5 were changed under the same air flow conditions. . Here, FIG. 2A shows the noise level comparison value when the flow rate is 4.5 CMM, FIG. 2B shows the noise level comparison value when the flow rate is 5.0 CMM, and FIG. 2C shows the noise level comparison value when the flow rate is 5.5 CMM. It is shown.

In addition to the above graph, a variety of installation gaps (G) are given to one installation angle (A), and the number of revolutions of the various blowers (1) is given and tested. Since one physical quantity must be fixed in order to compare the two physical quantities of noise and air volume, in the experiment of the present invention, the same air volume condition was selected to represent the noise value as a contour line.

According to the experimental results of the present invention, it can be seen that the optimum position for the installation angle (A) and the installation gap (G) is a position where the noise is minimum, and the optimum values are A = 30 ° and G = 12%. .

This is a physical quantity used for all indoor unit structures using the blower 1, which is an optimal value for emitting the lowest noise at the same amount of air.

Therefore, when using the installation angle (A) and the installation gap (G) of the stabilizer 5 according to the present invention, it is possible to significantly reduce the noise.

The effects of the present invention that can be expected by the configuration and action as described above are as follows.

The stabilizer 5 of the indoor unit (I) of the air conditioner according to the present invention has an ideal value through experiments on the installation angle (A) and the installation gap (G) of the stabilizer (5) installed at the cold air outlet (7). By applying and arranging, the optimum design for high air volume and low noise is possible, and thus the cooling efficiency is increased, as well as the reliability of the user due to the low noise is improved, and the energy efficiency is maximized.

Claims (4)

An air blower for forced circulation of air and a heat exchanger for converting inlet air into cold and dry air, respectively, and an indoor unit having upper and lower flow paths and a stabilizer for guiding the generated cold air to the outside. In the structure of the stabilizer of the air conditioner indoor unit, characterized in that the stabilizer is disposed on the horizontal center line of the blower maintaining the installation angle of the range of 29 ° to 34 ° range. The stabilizer of claim 1, wherein the installation angle is 30 degrees. An air blower for forced circulation of air and a heat exchanger for converting inlet air into cold and dry air, respectively, and an indoor unit having upper and lower flow paths and a stabilizer for guiding the generated cold air to the outside. In the structure, the stay of the air conditioner indoor unit is characterized in that the installation gap between the outer periphery and the nearest portion of the blower is arranged while maintaining a size corresponding to 11% to 13% of the diameter of the blower Villarizer. 4. The stabilizer of claim 3, wherein the installation clearance is 12%.