ES2359096T3 - INDIVIDUALIZED AIR SUPPLY PROCEDURE 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

FIELD OF THE INVENTION

The present invention relates to the field of the air conditioner, more particularly, to a ventilation process for an air conditioner.

BACKGROUND OF THE INVENTION

Normally in the prior art air conditioner, the air is vented at a fixed angle and direction since it is already determined when the air conditioner is designed, furthermore, the form of air ventilation for cooling needs is identical to the form for heating needs, without taking into account 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 the cold air and hot air. In fact, the practical use of the air conditioner is affected by the aforementioned factors, as a result, the efficiency of the air conditioner is reduced and it is difficult to meet personal comfort requirements, more importantly, it produces waste of resources.

US-A-5478276 discloses a custom ventilation procedure for an air conditioner, which is performed by adjusting the air blow angles on the left and on the right; wherein said left and right air blow 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, that is, when the distance respective between the air conditioner and each of the left and right walls are equal to each other, the air blow angles to the right and to the left 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, the air blow angle on the left is adjusted to be smaller than on 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, the air blow angle on the left is adjusted to be larger than on the right; wherein said air blow angles to the left and right are adjusted based on the length and width of the room, the distance between the wall on which the air conditioner is placed 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 deficiencies of prior art technology by providing a custom ventilation procedure for an air conditioner, whereby the air blowing angle can be adjusted according to the outside environment.

The objective of the present invention is achieved by the following technical scheme:

A custom ventilation procedure is performed for an air conditioner by adjusting the air blow angles to the left and right according to the installation position of the air conditioner, the size of the room and the shape of the conditioner of air itself; wherein said left and right air blow 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, that is, when the distance respective of the air conditioner and each of the left and right walls are equal to each other, the air blow angles to the left and 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 conditioner and the right wall, the air blow angle on the left is adjusted to be smaller than on the right; When the distance between the air conditioner and the left wall is larger than the distance between the conditioner and the right wall, the air blow angle on the left is adjusted to be larger than on the right.

Additionally, the air blow times to the left and right are adjusted at the same time as the air blow angles to the left and right are adjusted; wherein said blow times on the left and on the right comprise the duration of air blowing on the left and the duration of air blowing on the right, which are respectively in direct proportion to the angle of air blowing on the left and the angle of air blowing to the right.

Additionally, (1), the air blow angles to the left and right are calculated by formulas illustrated below:

 a2 ctgizda + (X - a) 2 ctgdcha = 2  X Y  N;

image 1

Aizda a

 ; dcha X  a

izda and right = izda + dcha; in which izda and right denotes the sum of the blow angles to the left and right, "X" and "Y" denote respectively the length and width of the room, in which the value of "Y" is the distance between the wall on which the air conditioner is placed and the opposite wall, "a" denotes the distance between the center of the air conditioner and the left wall, "N" denotes the ratio of the dead angle area ratio when the air conditioner is blowing air to the left and right; izda denotes the air blow angle of the air conditioner on the left, dcha denotes the air blow angle of the air conditioner on the right. Different values of height "H" and distance "L" are given for the two cooling and heating modes respectively under a global consideration of the characteristics of the flow of cold air and hot air and the thermal comfort of the human body.

Additionally, (2), a calculation formula for the air blowing angles up and down is illustrated as follows:

bb  H

up and down = arctg - arctg;

LY  p

wherein "Y" denotes the distance between the wall on which the air conditioner is placed and the opposite wall, "p" denotes the bottom of the air conditioner, "b" denotes the distance from the center of the air conditioner to the ground, "H" denotes the distance from the ground to the highest point on the opposite wall from which the air flow from the air conditioner can reach, "L" denotes the distance between the projection of the air conditioner on the ground and the closest point to which the air flow from the air conditioner can reach the ground.

The required initial parameters, such as room dimension, air conditioner dimension itself, relative dimensions of the air conditioner installation position, can be obtained by means of intelligent air conditioner detectors or manual measurements; in which the intelligent detection is performed by installing intelligent detection devices in the air conditioner so that they automatically explore the initial parameters of the room dimension and relative dimensions of the installation position of the air conditioner; Manual measurement is carried out by measurements at the site so that the initial parameters are determined.

The air blowing angle and the duration of the air blowing are controlled by an air ventilation motor, the air ventilation motor can be controlled by means of continuous precision control. In which said form of continuous precision control comprises the following steps: after obtaining the initial parameters by means of 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 installation position of the air conditioner are calculated by means of the calculation formula that is present in the system, each initial data group corresponding to a data group of the blowing angles of air, through which the form of continuous precision control is achieved.

The air blowing angle and the duration of the air blowing are controlled by an air ventilation motor, the air ventilation motor can be controlled in the form of control by code selection; wherein said form of code selection control comprises the following steps: the consideration of the different capacities of the air conditioners corresponding to the different dimensions of rooms, based on the relative relative installation positions typical of the air conditioner, several groups of initial parameters are predetermined and adjusted in a plurality of set control modes, then the appropriate control mode is chosen from among them according to the size of the room and the actual installation position of the air conditioner. The form of control by code selection comprises a control by direct code selection and a control by remote code selection.

Compared with prior art technology, the air flow can be distributed more evenly with the present invention, the room can be cooled to the same level of cooling with 15% less time and is heated with 20% less time . In this way, the room temperature can reach the one that the user desires quickly and stably more comfortably, in addition to the fact that the air conditioner works more efficiently and saves amounts of resources.

BRIEF DESCRIPTION OF THE DRAWINGS

Figure 1 is a side view showing the installation of the air conditioner with custom ventilation according to the present invention;

Figure 2 is a top view showing the installation of the air conditioner with custom ventilation according to the present invention.

image2

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

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

A custom ventilation procedure is performed for an air conditioner by adjusting the air blow angles and the air blow times to the left and right according to the installation position of the air conditioner, the dimension of the room and the shape of the air conditioner itself. In which the blowing angles comprise the upward blow angle, the downward blow angle, the left blow angle and the right blow angle.

Where "Y" denotes the distance between the wall on which the air conditioner is placed and the opposite wall, "p" denotes the bottom of the air conditioner, "b" denotes the distance from the center of the air conditioner to the ground, "H" denotes the distance from the ground to the highest point on the opposite wall from which the air flow from the air conditioner can reach, "L" denotes the distance between the projection of the air conditioner on the ground and the closest point to which the air flow from the air conditioner can reach above the ground.

As illustrated in Figures 1 and 2, of which Figure 1 is a side view showing the installation of the air conditioner with custom ventilation according to the present invention; in which the value of "Y" is the distance between the wall on which the air conditioner is placed and the opposite wall, "p" denotes the bottom of the air conditioner, "b" denotes the distance from the center of the Air conditioner to the ground, "H" denotes the distance from the ground to the highest point on the wall opposite to which the air flow from the air conditioner can reach, "L" denotes the distance between the projection of the air conditioner above the ground and the closest point to which the air flow from the air conditioner can reach above the ground. In which 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 air and warm, thermal comfort of the human body, etc .; wherein the characteristics of cold and hot air mainly refer to the characteristics of the flow of descending cold air and ascending hot air that takes place in a normal situation; The thermal comfort of the human body refers mainly to the sensitivity of the human body to previous changes in ambient temperature. Different values of “H” and “L” are given that correspond to the different working modes of the air conditioner such as in refrigeration

or heating, so that the temperature of the room is achieved to reach the temperature set by the user quickly, with the precondition of satisfying the thermal comfort of the human body. The air blowing angles corresponding to up and down can be calculated by the formulas illustrated below:

b  Hb

up = arctg, down = arctg;

And  pL

Iba up and down =  down - up, in which  up and down denotes the difference of some air blows up and down.

In which the values of "H" and "L" are objective parameters of the present invention that are adjusted in the design stage.

For example: a 1P air conditioner is installed in a room of 4 mx 4 mx 3 m, in which the installation height of the air conditioner is 2.5 m and the width of the air conditioner is 0.2 m .

In the cooling mode, because the cold air has a characteristic of decrease and the air ventilation area is mainly focused on a higher space such as 3 m - 1.5 m above the ground, to ensure that it The cold air becomes well in most of the areas above 1.2 m of the room, it is estimated that H = 3 m and L = 3.4-0.2 = 3.2 m based on the data above mentioned.

In the heating mode, because the hot air has an ascent characteristic and the air ventilation area is mainly focused on a lower space such as 2 m - 1 m above the ground, to ensure that it feels good Hot air in most of the areas below 2 m from the room, it is estimated that H = 1.8 m and L = 1.2-0.2 = 1 m based on the data mentioned above.

Figure 2 is a top view showing the installation of the air conditioner with custom ventilation according to the present invention, in which "X" and "Y" denote respectively the length and width of the room, in which the "Y" value is the distance between the wall on which the air conditioner is placed and the opposite wall, "a" denotes the distance between the center of the air conditioner and the left wall,

image3

5

10

fifteen

twenty

25

30

35

40

"Sizda" and "Sdcha" denote, respectively, the areas of dead angle to which the air flow cannot reach when the air conditioner is blowing air to the left and right, izda denotes the air blowing angle from the air conditioner on the left, dcha denotes the air blow angle of the air conditioner on the right. "Stotal" denotes the total area of the room (= X * Y), "N" denotes the proportion ratio of the blind spot areas when the air conditioner is blowing air to the left and to the right, particularly, it is the relationship between the area of blind angle and the total area of the room, N = (Sizda + Sdcha) / Stotal gives the value of "N". The blowing angles izda and dcha to the left and to the right can be calculations using the equations illustrated below:

a2ctg (X  a) 2 ctg 2  X Y  N; 



left right















aX left right   ;

izda and right = izda + dcha, in which izda and right denotes the sum of the blow angles to the left and right

The required initial parameters, such as room dimension, air conditioner dimension itself, relative dimensions of the air conditioner installation position, can be obtained by means of intelligent air conditioner detectors or manual measurements; in which the intelligent detection is performed by installing intelligent detection devices (such as infrared scanning devices, etc.) in the air conditioner so that they automatically scan the initial parameters such as the room dimension and relative dimensions of the installation position of the air conditioner, etc .; manual measurement is carried out by measurements at the site so that the initial parameters are determined.

The air blowing angle is controlled by an air ventilation motor, the air ventilation motor can be controlled by means of continuous precision control, control by direct code selection or control by remote code selection.

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

Compared to code selection control, continuous precision control refers to a completely intelligent form of control. In which the control program calculates the air blow angles in different directions with the calculation formulas mentioned above based on the initial conditions that are detected or entered manually, so that an air ventilation mode is performed which fully satisfy the current installation of the air conditioner.

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

An air conditioner with KF-26G capacity is installed in a room of 16 square meters with 4 m length and 4 m width, in which the 4 position intervals are adjusted during installation so that “a”  1, 1 <"a" 2, 2 <"a" 3, 3 <"a" 4 (where "a" denotes the distance between the center of the air conditioner and the left wall) and the 4 Position intervals are set respectively in four jumps, that is, "a" 1 is the first jump, 1 <"a" 2 is the second jump, 2 <"a" 3 is the third jump, 3 <" a ”4 is the fourth jump. When the user installs an air conditioner on the wall that is 1.5 m away from the left wall, 1 <”to” 2 should be chosen from the second jump. The different jumps are chosen in correspondence to the different positions in which the air conditioner is installed by the user, so that by controlling the airflow angles, comfortable airflows can be obtained by means of which it is improved The efficiency of the air conditioner.

image4

Claims (10)

1. A custom ventilation procedure for an air conditioner, in which it is performed by adjusting the air blow angles on the left and on the right; wherein said left and right air blow 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, that is, when the distance respective of the air conditioner and each of the left and right walls are equal to each other, the air blow angles to the left and 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 conditioner and the right wall, the air blow angle on the left is adjusted to be smaller than on the right; when the distance between the air conditioner and the left wall is larger than the distance between the conditioner and the right wall, the air blow angle on the left is adjusted to be larger than on the right; wherein said air blow angles to the left and right are adjusted based on the length and width of the room, the distance between the wall on which the air conditioner is located and the opposite wall, the distance between the center of the air conditioner and the left wall and the relationship between the blind spot areas when the air conditioner is blowing air to the left and right and the total area of the room; Y in which the air blow angles on the left and on the right are calculated using formulas illustrated below:  a2 ctgizda + (X - a) 2 ctgdcha = 2  X Y  N; Aizda a ; dcha X  a izda and right = izda + dcha; in which izda and right is the range of blow angles to the left and right, "X" and "Y" denote respectively the length and width of the room, in which the value of "Y" is the distance between the wall on which the air conditioner is placed and the opposite wall, "a" denotes the distance between the center of the air conditioner and the left wall, "N" denotes the relationship between the blind spot areas when the air conditioner is blowing air to the left and right and the total area of the room; izda denotes the air blow angle of the air conditioner on the left, dcha denotes the air blow angle of the air conditioner on the right.

2.

The ventilation method according to claim 1, characterized in that the air blow times to the left and right are adjusted while adjusting the air blow angles to the left and right; wherein said air blow durations to the left and right comprise the air blow duration to the left and the air blow duration to the right, which are respectively in direct proportion to the air blow angle to the left and the air blow angle to the right.

3.

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 air blowing angles up and down is illustrated as follows :

bb  H up and down = arctg - arctg; LY  p wherein "Y" denotes the distance between the wall on which the air conditioner is placed and the opposite wall, "p" denotes the bottom of the air conditioner, "b" denotes the distance from the center of the air conditioner to the ground, "H" denotes the distance from the ground to the highest point on the opposite wall from which the air flow from the air conditioner can reach, "L" denotes the distance between the projection of the air conditioner on the ground and the closest point to which the air flow from the air conditioner can reach the ground; Up and down is the range of air blowing angles of the air conditioner in section Y-Z.

Four.

The ventilation method according to claim 3, characterized in that different values of height "H" and distance "L" are given for the two cooling and heating modes respectively under a global consideration of the characteristics of the flow of cold air and air Warm and thermal comfort of the human body.

5.

The ventilation method according to claim 1, claim 2 or claim 3, characterized in that the required initial parameters, such as the size of the room, the dimension

image 1 of the air conditioner itself, the relative dimensions of the installation position of the air conditioner, can be obtained by means of intelligent detectors of the air conditioner or manual measurements; in which intelligent detection is performed by installing intelligent detection devices in the air conditioner so that it automatically scans the initial parameters of the room dimension and relative dimensions of the installation position of the air conditioner; manual measurement is carried out by measurements at the site so that the initial parameters are determined.

6.

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.

7.

The ventilation method according to claim 6, characterized in that the continuous precision control form comprises the following steps: after obtaining the initial parameters by means of intelligent detection or manual measurement, the data is entered into a chip controller of an air ventilation control system, the particular data of the air blowing angles for the installation position of the air conditioner are calculated by means of the calculation formula that is present in the system, so that the air blowing angle using the air ventilation motor.

8.

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 control by code selection.

9.

The ventilation method according to claim 8, characterized in that, the code selection control method comprises the following steps: the consideration of the different capacities of the air conditioners corresponding to the different dimensions of rooms, based on the typical relative installation positions of the air conditioner, several groups of initial parameters are predetermined and adjusted in a plurality of set control modes, then the appropriate control mode is chosen from among them according to the size of the room and the actual installation position of the air conditioner.

10.

The ventilation method according to claim 9, characterized in that, the code selection control form comprises a direct code selection control and a remote code selection control.