PT1985937E - An individual air supply method of an air conditioner - Google Patents

Abstract

A personalized ventilation method for an air conditioner is realized by adjusting air blowing angles to the left and to the right; wherein said air blowing angles to the left and to the right are adjusted based on the respective distance between the installation position of air conditioner and each of the two side walls of the room, that is, when the respective distance between the air conditioner and each of the left and right walls is equal to each other, air blowing angles to the left and the right are adjusted to be equal to each other; when the distance between the air conditioner and the left wall is smaller than the distance between the air conditioner and the right wall, air blowing angle to the left is adjusted to be smaller than that to the right; when the distance between the air conditioner and the left wall is larger than the distance between the air conditioner and the right wall, air blowing angle to the left is adjusted to be larger than that to the right.

Description

1

DESCRIPTION OF THE PREFERRED EMBODIMENT OF AN AIR CONDITIONER "

FIELD OF THE INVENTION The present invention relates to the field of the air conditioner, more particularly, to a method of ventilation for an air conditioner.

BACKGROUND OF THE INVENTION

Usually in the prior art air conditioner, air is vented at a fixed angle and direction and is already determined when the air conditioner is drawn. In addition, the form of air ventilation for cooling needs is identical to the form for heating needs, without regard to factors such as the actual size of the room, the structure of the room, the actual ventilation effects when the air conditioner is installed in different positions of the room and the characteristics of cold air and hot air. In fact, the practical use of the air conditioner is affected by the factors mentioned above; as a result, the efficiency of the air conditioner is decreased and it is difficult to satisfy the personal requirements of comfort, more importantly, it produces unnecessary expense of resources. US-A-5478276 discloses a custom ventilation method for an air conditioner, which is accomplished by adjusting the air blowing angles left and right; wherein said left and right air blowing angles are adjusted based on the respective distance between the installation position of the air conditioner and each of the two side walls of the room, i.e. when the respective distance 2 between the air conditioner and each of the left and right walls are the same as each other, the air blowing angles to the right and left adjust to be equal to each other; when the distance between the air conditioner and the left wall is less than the distance between the air conditioner and the right wall, the air blow angle to the left is adjusted to be smaller than the right; when the distance between the air conditioner and the left wall is greater than the distance between the air conditioner and the right wall, the air blow angle to the left is adjusted to be larger to the right; wherein these left and right air blowing angles are adjusted based on the length and width of the partition, the distance between the wall on which the air conditioner is located and the opposite wall and the distance between the center of the air conditioner and the left wall.

SUMMARY OF THE INVENTION The present invention overcomes shortcomings of the prior art technology by providing a custom ventilation method for an air conditioner through which it is possible to adjust the blowing angle of the air in accordance with the outdoor environment. The object of the present invention is achieved through the following technical scheme:

A custom ventilation method for an air conditioner is performed by adjusting the air blowing angles left and right according to the position of the air conditioner installation, the size of the room and the shape of the conditioner of air itself; wherein said left and right air blowing angles are adjusted based on the respective distance between the installation position of the air conditioner and each of the two side walls of the room, i.e. when the respective distance from the air conditioner air conditioner and each of the left and right walls are the same with each other, the air blowing angles left and right adjust to be equal to each other; when the distance between the air conditioner and the left wall is less than the distance between the conditioner and the right wall, the air blow angle to the left is adjusted to be smaller than the right; when the distance between the air conditioner and the left wall is greater than the distance between the conditioner and the right wall, the air blow angle to the left adjusts to be greater than the right.

In addition, the air blow-out durations to the left and right adjust at the same time as the air-blowing angles to the left and to the right; wherein said blow-out durations to the left and right comprise the blow-up duration to the left and the blow-out duration to the right, which are respectively in direct proportion to the air-blowing angle to the left and the air blowing angle to the right.

In addition, (1), the air-blowing angles left and right are calculated by the following formulas: Φ a2 ctg0esq + (X-a) 2 ctg0dta = 2 * X * Y * N; @ tftsq 3 · tfdl a X-a

0esq and dta 0esq t 0dta, ΘΉΪ · that 0sq and dt denotes the SO of the blowing angles to the left and to the right, " X " and " Y " denote respectively the length and width of the division, wherein the value of " Y " is the distance between the wall on which the air conditioner is located and the opposite wall, " a " denotes the distance between the center of the air conditioner and the left wall, " N " denotes the aspect ratio of the blind spot area when the air conditioner is blowing air to the left and right; 0sq denotes the air blower angle of the air conditioner to the left, 0dta denotes the air blower angle of the air conditioner to the right. Different height values are given " H " and distance " L " for both modes of cooling and heating respectively under an overall consideration of the characteristics of cold air flow and hot air and the thermal comfort of the human body.

In addition, (2), a calculation formula for the upward and downward air blowing angles is as follows:

"Y" and "Y", where "Y" and " denotes the distance between the wall on which the air conditioner is located and the opposite wall, " p " denotes the background of the air conditioner, " b " denotes the distance from the center of the air conditioner to the floor, " H " denotes the distance from the ground to the highest point on the opposing wall that can reach the airflow from the air conditioner, " L " denotes the distance between the projection of the air conditioner on the floor and the nearest point that the airflow from the air conditioner can reach to the floor.

The initial parameters required, such as the size of the room, size of the air conditioner itself, relative dimensions of the position of the air conditioner installation, can be obtained through intelligent air conditioner detectors or manual measurements; wherein intelligent detection is performed by the installation of intelligent detection devices in the air conditioner so that they automatically explore the initial parameters of the division dimension and relative dimensions of the air conditioner installation position; the manual measurement is performed by measurements in the installation to determine the initial parameters. The blowing angle of air and the duration of the blowing of air are controlled by an air ventilation motor, the air ventilation motor can be controlled by a continuous precision control. In which this form of continuous precision control comprises the following steps: after obtaining the initial parameters through intelligent detection or manual measurement, the data is entered into a controller chip of an air ventilation control system, the particular data of the air blowing angles for the position of installing the air conditioner through the calculation formula which is present in the system, each initial data group corresponding to a data group of the air blowing angles, through which the form of continuous precision control is achieved. The blowing angle of air and the duration of the blowing of air are controlled by an air ventilation motor, the air ventilation motor can be controlled in the form of control by code selection; wherein said code selection control comprises the following steps: consideration of the different capacities of the air conditioners corresponding to the different dimensions of the rooms, based on the typical relative positions of the air conditioner, are predetermined by various groups of initial parameters and are set in a group of established control modes, then the appropriate control mode is selected from among them according to the size of the room and the actual installation position of the air conditioner. The code selection control form comprises direct code selection control and remote code selection control.

Compared with the prior art technology, the airflow can be distributed more evenly with the present invention, the split can be cooled to the same level of refrigeration at 15% less time and heated with 20% less time. In this way the temperature of the room can reach the temperature that the user wishes to quickly and stably more comfortably, in addition to the air conditioner working more efficiently and saving amounts of resources.

BRIEF DESCRIPTION OF THE DRAWINGS Figure 1 is a side view showing the installation of the customized ventilation air conditioner according to the present invention; Figure 2 is a top view showing the installation of the customized ventilation air conditioner according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

In combination with the accompanying figures, the additional features and advantages of the present invention will become more apparent from the detailed description below.

A custom ventilation method is performed for an air conditioner by adjusting the air blowing angles and blowing air durations to the left and right according to the position of the air conditioner installation, dimension of the room and the shape of the air conditioner itself. Where the blowing angles comprise the blowing angle upwards, the blowing angle downwards, the blowing angle to the left and the blowing angle to the right.

Where " Y " denotes the distance between the wall on which the air conditioner is located and the opposite wall, 7 " p " denotes the bottom of the air conditioner, " b " denotes the distance from the center of the air conditioner to the floor, " H " denotes the distance from the ground to the highest point on the opposing wall that can reach the airflow from the air conditioner, " L " denotes the distance between the projection of the air conditioner on the floor and the nearest point that the air flow since the air conditioner can reach on the floor.

As shown in Figures 1 and 2, of which Figure 1 is a side view showing the installation of the customized ventilation air conditioner according to the present invention; where the value of " Y " is the distance between the wall on which the air conditioner is located and the opposite wall, " p " denotes the background of the air conditioner, " b " denotes the distance from the center of the air conditioner to the floor, " H " denotes the distance from the ground to the highest point on the opposing wall that can reach the airflow from the air conditioner, " L " denotes the distance between the projection of the air conditioner on the floor and the nearest point that the air flow since the air conditioner can reach on the floor. Where the values of " H " and " L " are objective parameters of the present invention, which are determined according to the capacity of the air conditioner (in correspondence with the size of the installation space), characteristics of cold and hot air, thermal comfort of the human body, etc .; wherein the characteristics of cold and hot air refer mainly to the flow characteristics of descending cold air and rising hot air occurring in a normal situation; the thermal comfort of the human body mainly refers to the sensitivity of the human body to previous changes in ambient temperature. Different values of " H " and " L " which correspond to the different working modes of the air conditioner as in cooling or heating, in order to achieve that the temperature of the room reaches the set temperature quickly by the user, with the previous condition of satisfying the thermal comfort of the human body. The air blowing angles corresponding upwards and downwards can be calculated by the following formulas:

Y-p L

The bottom and bottom of the window are low and there is no difference between the air blowing angles up and down.

Where the values of " H " and " L " are objective parameters of the present invention that fit into the design step.

For example: an IP air conditioner is installed in a 4 m x 4 m x 3 m division where the height of the air conditioner installation is 2.5 m and the width of the air conditioner is 0.2 m.

In the cooling mode, because cold air has a downward characteristic and the air ventilation area is mainly focused on a space as high as 3 m - 1.5 m above the floor, to ensure that the cold air if it distributes correctly in most areas over 1.2 m from the division, it is calculated that H = 3 and L = 3.4 - 0.2 = 3.2 m based on the above-mentioned data.

In heating mode, because hot air has a rising characteristic and the air ventilation area is mainly focused on a space as low as 2 m - 1 m above the floor, to ensure that the warm air is distributed correctly in most areas below the 2 m of the division, it is calculated that H = 1.8 and L = 1.2 - 0.2 = 1 m based on the above data. Figure 2 is a top view showing the installation of the custom-ventilated air conditioner according to the present invention, wherein " X " and " Y " denote respectively the length and width of the division, wherein the value of " Y " is the distance between the wall on which the air conditioner is located and the opposite wall, " a " denotes the distance between the center of the air conditioner and the left wall, " Sesq " and " Sdta " denote respectively the blinded areas that can not reach the airflow when the air conditioner is blowing air to the left and right, 0esq denotes the air blower angle of the air conditioner to the left, 0dta denotes the air blower angle of the air conditioner to the right. " Stotai " denotes the total area of the division (= X * Y), " N " denotes the ratio ratio of the blind spot areas when the air conditioner is blowing air to the left and to the right, particularly, is the relationship between the blind spot area and the total area of the partition, N = (Sesq + Sdta) / Stotai gives the value of " N ". The blowing angles 0sq and 0dta to the left and to the right can be calculated from the equations shown below:

. [X-afdgem = 2 * X * Y ___. 'X-a'

0sq and 0sq 0dct 6s that 0esq and dta denOt at the left and right blowing angles.

The initial parameters required, such as size of the room, dimension of the air conditioner itself, relative dimensions of the position of the air conditioner installation, can be obtained through intelligent air conditioner detectors or manual measurements; where intelligent detection is performed by the installation of intelligent detection devices (such as infrared devices, etc.) in the air conditioner to automatically explore the initial parameters such as the size of the room and relative dimensions of the installation position air conditioner, etc .; the manual measurement is carried out through measurements in the installation to determine the initial parameters. The air blowing angle is controlled by an air ventilation motor, the air ventilation motor can be controlled by continuous precision control, direct code selection control or remote code selection control.

Based on the position of the typical relative installation of the air conditioner, wherein the control by code selection is the design of several groups of different combinations of ventilation angles, corresponding to different codes, so that different combinations of air ventilation angles by selecting the codes in the control system. The control by code selection can be performed by a direct code selection control on the main command panel or control by remote code selection, etc.

Compared to the code selection control, continuous precision control refers to a completely intelligent form of control. In that the control program calculates the air blowing angles in different directions with the aforementioned calculation formulas based on the initial conditions that are detected or introduced manually, so that an air ventilation mode is performed which completely satisfies the installation of the air conditioner. 11

An example of control in the form of direct code selection is shown below.

An air conditioner with KF-26G capacity is installed in a 16-square-meter room 4 m long and 4 m wide, in which the 4 position ranges adjust during installation so that " a " '" a " a " a " a " a " a " denotes the distance between the center of the air conditioner and the left wall) and the 4 position ranges are set respectively in four jumps, that is, " a " < 1 is the first jump, < " a " 2 is the second jump, 2 " a " < 3 is the third hop, < " a " < 4 is the fourth hop. When the user installs an air conditioner on the wall that is 1.5 m away from the left wall, you should choose l < " " 2 " of the second hop. The different jumps are chosen in correspondence of the different positions in which the air conditioner is installed by the user, so that by controlling the airflow angles, comfortable air flows could be obtained through which the efficiency of the air conditioner is improved. air conditioner. 12

DOCUMENTS REFERRED TO IN THE DESCRIPTION

This list of documents referred to by the applicant is for the reader's convenience. It is not an integral part of the European patent document. While much care has been taken in compiling the documents, errors or omissions can not be excluded and the IEP assumes no liability in respect thereof.

Patent documents referred to in the specification • US 5478276 A [0003]

Claims (10)

1 1. A custom ventilation method for an air conditioner, which is accomplished by adjusting the air blowing angles left and right; wherein said left and right air blowing angles are adjusted based on the respective distance between the installation position of the air conditioner and each of the two side walls of the room, i.e. when the respective distance between the air conditioner and each of the left and right walls are the same with each other, the air blowing angles left and right are adjusted to be equal to each other; when the distance between the air conditioner and the left wall is less than the distance between the conditioner and the right wall, the air blow angle to the left is adjusted to be smaller than the right; when the distance between the air conditioner and the left wall is greater than the distance between the conditioner and the right wall, the air blow angle to the left is adjusted to be greater than to the right; wherein said left and right air blowing angles are adjusted based on the length and width of the room, the distance between the wall in which the air conditioner is located and the opposite wall, the distance between the center of the room air conditioner and the left wall and the relationship between the blind spots when the air conditioner is blowing air to the left and right and the total area of the room; and wherein the air-blowing angles to the left and right are calculated by following formulas: (a) ctgSqq + (X-a) 2 ctg6dta = 2 * X * Y * N; __. Î ± at AT-9β and β- in which 0e3q and dt is the range of the blowing angles to the left and to the right, " X " and " Y " denote respectively the length and width of the division, wherein the value of " Y " is the distance between the wall in which the air conditioner is located and the opposite wall, " a " denotes the distance between the center of the air conditioner and the left wall, " N " denotes the ratio between the blind spot areas when the air conditioner is blowing air to the left and right and the total area of the room; Qesq denotes the air blower angle of the air conditioner to the left, Qdta denotes the air blower angle of the air conditioner to the right. The ventilation method according to claim 1, characterized in that the air blow-out durations to the left and right are adjusted at the same time as the air-blowing angles are adjusted to the left and right; wherein said air blow-out durations to the left and right comprise the air blow-up duration to the left and the air blow-out duration to the right, which are respectively in direct proportion to the blow-up angle of air to the left and the air blow angle to the right. The ventilation method according to claim 1, characterized in that the air blowing angles are adjusted up and down, wherein the calculation formula for the upward and downward air blowing angles is represented as follows: â € ƒâ € ƒâ € ƒâ € ƒâ € ƒâ € ƒâ € ƒâ € ƒwherein " Y " denotes the distance between the wall in which the air conditioner is located and the opposite wall, " p " denotes the depth of the air conditioner, " b " denotes the distance from the center of the air conditioner to the floor, " H " denotes the distance from the floor to the highest point on the wall opposite the airflow of the air conditioner, " L " denotes the distance between the projection of the air conditioner on the floor and the point closest to the airflow of the air conditioner on the floor; and low is the range of the air blowing angles of the air conditioner in the Y-Z section. The ventilation method according to claim 3, characterized in that different height values are assigned " H " and distance " L " for the two modes of cooling and heating respectively under an overall consideration of the characteristics of the flow of cold air and hot air and the thermal comfort of the human body. The ventilation method according to claim 1, claim 2 or claim 3, characterized in that the initial parameters required, such as the size of the room, the size of the air conditioner itself, the relative dimensions of the installation position of the air conditioner, can be obtained through intelligent air conditioner detectors or manual measurements; wherein intelligent detection is performed by installing intelligent detection devices in the air conditioner to automatically determine the initial parameters of the size of the room and relative dimensions of the air conditioner installation position; the manual measurement is carried out through measurements in the installation so that the initial parameters are determined. The ventilation method according to claim 1, characterized in that the air blowing angle is controlled by an air ventilation motor, the air ventilation motor can be controlled in the form of a continuous precision control. The ventilation method according to claim 6, characterized in that the continuous precision control form comprises the following steps: after obtaining the initial parameters through intelligent detection or manual measurement, the data is entered into a controller chip of an air ventilation control system, the particular data of the air blowing angles are calculated to the installation position of the air conditioner by means of the calculation formula which is preconfigured in the system, so that it is controlled the angle of blowing air through the air ventilation motor. The ventilation method according to claim 1, characterized in that the air blowing angle is controlled by an air ventilation motor, the air ventilation motor can be controlled in the form of code dialing control. The ventilation method according to claim 8, characterized in that the code marking control form comprises the following steps: considering the different capacities of the air conditioners which correspond to the different dimensions of the rooms, based on the typical set-up positions of the air conditioner, various groups of initial parameters are predetermined which are configured in a plurality of established control modes, then the appropriate control mode is selected from among them, according to the size of the room and the actual installation position of the air conditioner. The ventilation method according to claim 9, characterized in that the code-marking control form comprises a direct code marking control and a remote code marking control. 1/2 Figure 1 2/2 Figure 2