CN1831442A

CN1831442A - Individual air-blowing method of air conditioner

Info

Publication number: CN1831442A
Application number: CNA2006100334830A
Authority: CN
Inventors: 马颖江; 张桃; 潘建红; 黄美玲; 张有林; 李广湘
Original assignee: Gree Electric Appliances Inc of Zhuhai
Current assignee: Gree Electric Appliances Inc of Zhuhai; Zhuhai Gree Daikin Device Co Ltd
Priority date: 2006-02-06
Filing date: 2006-02-06
Publication date: 2006-09-13
Anticipated expiration: 2026-02-06
Also published as: CN100554800C; PT1985937E; ES2359096T3; DK1985937T3; EP1985937A1; ATE494514T1; EP1985937B1; DE602007011729D1; EP1985937A4; WO2007090337A1

Abstract

An individualized method of air- conditioner forced draft can make air current composition be distributed uniformly and reasonably in room according to erection position of air- conditioner, room structure, forced draft angle and forced draft time so air- conditioned room can realize desired condition of user quickly and stably for raising comfortableness of said room.

Description

Individual air-blowing method of air conditioner

Technical field

The present invention relates to the air-conditioner technical field, relate in particular to a kind of air supply method of air-conditioner.

Background technology

The air-supply of air-conditioner commonly used all is fixing wind direction and the air supply direction of having determined during according to Air-conditioner design, and refrigeration, to heat air supply pattern identical.And actual room size, architectural feature and air-conditioning are installed in the actual effect that air-supply reaches behind the room diverse location when not taking all factors into consideration air-conditioner and using, and objective factor such as cold and hot air movement characteristic.Cause the practical effect of air-conditioner to be subjected to above factor affecting, reduced the air-conditioner service efficiency, and the impression of client's comfortableness is very difficult satisfying personalized, the more important thing is the waste that has caused resource.

Summary of the invention

The present invention has overcome shortcoming of the prior art, the air-conditioner air supply method that provides a kind of wind direction to regulate according to external environment.

In order to solve the problems of the technologies described above, be achieved through the following technical solutions:

A kind of air-conditioner air supply method according to the planform of air-conditioner installation site, room unit and air-conditioner itself, is regulated all directions wind direction and the left and right directions air-supply time, and wind direction comprises above-below direction wind direction, left and right directions wind direction.The left and right directions wind direction according to the air-conditioner installation site relatively with the distance adjustment of side walls: when air-conditioner when left wall equates with the right length of walls of distance, air-conditioner wind direction left equates with wind direction to the right; When air-conditioner is near apart from the righter wall of left wall, air-conditioner left wind direction wind direction is little more to the right; When air-conditioner was far away apart from the righter wall of left wall, wind direction was big more to the right for air-conditioner wind direction left.The left and right directions air-supply time comprises the time of blowing left, blows the time to the right, and the air-supply time is directly proportional with wind direction.

(1) computing formula of left and right directions wind direction is as follows:

1. a ²Ctg θ _{A left side}+ (X-a) ²Ctg θ _Right=2*X*Y*N;

3. θ _About=θ _{A left side}+ θ _RightWherein, θ _AboutBy being asked the left and right directions wind direction, X, Y are respectively the length and width in room, and wherein the value of Y is an air-conditioner place wall and distance to sidewalls, and a is the distance of air-conditioner centre-to-centre spacing left side wall, and N is the dead angle scale parameter when sweeping wind about air-conditioner, θ _{A left side}Be air-conditioner wind direction left, θ _RightBe air-conditioner wind direction to the right.Height H and distance L are to take all factors into consideration different flow behavior of cold and hot air and human body comfort, should freeze, heat given different value under the two states.

(2) computing formula of above-below direction wind direction is as follows:

Wherein, Y is an air-conditioner place wall and distance to sidewalls, and p is the degree of depth of air-conditioner, and b is the distance on air-conditioner centre-to-centre spacing ground; H be the air-conditioning air-flow can reach the sidewalls peak time this point apart from the height on ground, L be the air-conditioning air-flow can reach the closest approach on ground the time this point apart from the distance of air-conditioner in the ground projection.

The relative size of the physical dimension of the physical dimension in required initial parameter---room, air-conditioner itself, air-conditioning installation site can obtain by air-conditioner intelligent-induction mode or manual measurement mode; The intelligent-induction mode is by the initial parameters such as relative position that intelligent-induction device automatic scan room unit size and air-conditioner are installed are set in air-conditioner; The manual measurement mode is to determine corresponding initial parameter by the method for in-site measurement.

Wind direction is by sweeping the control of wind-powered electricity generation machine, and the control of sweeping the wind-powered electricity generation machine can be by accurately control mode realization continuously.Accurately the step of control mode is as follows continuously: after obtaining initial parameter by intelligent-induction or manual measurement, in the air supply control system with the data input controller chip, concrete wind direction data when calculating air-conditioner and be installed in this position through the formula algorithm that pre-sets in the system, sweep the wind angle-data to what every a different set of initial parameter had one group of correspondence, thereby realize accurately control.

Wind direction is by sweeping the control of wind-powered electricity generation machine, and the control of sweeping the wind-powered electricity generation machine realizes by the dial-up control mode.The step of dial-up control mode is as follows: at the corresponding room unit size of air-conditioning of different sizes, according to air-conditioning the typical relative installation in back is installed, determines several groups of initial parameters, will be changed to several fixing control models in it.The dial-up control mode comprises direct dial-up control mode and remote controller control mode.

Compared with prior art, the present invention can make the air current composition in the room distribute more evenly rationally, and the low-hanging fruit during the room refrigeration can save for 15% time, and can save for 20% time when heating.Thereby make the indoor air temperature in air conditioned building fast and stable reach user's expectation, improve comfort, improved the air-conditioner service efficiency simultaneously, saved a large amount of energy.

Description of drawings

Fig. 1 is the vertical view that air-conditioning of the present invention is installed;

Fig. 2 is the side view that air-conditioning of the present invention is installed.

The specific embodiment

The present invention is described in detail below in conjunction with drawings and the specific embodiments.

A kind of air-conditioner air supply method according to the profile of air-conditioner installation site, room unit, air-conditioner itself, is regulated wind direction and the left and right directions air-supply time.Wind direction comprises air-conditioning above-below direction wind direction and left and right directions wind direction.

See also Fig. 1 and Fig. 2.Fig. 1 is the vertical view that air-conditioning is installed among the present invention, and Y is an air-conditioner place wall and distance to sidewalls among the figure, and p is the degree of depth of air-conditioner, and b is the distance on air-conditioner centre-to-centre spacing ground; H be the air-conditioning air-flow can reach the sidewalls peak time this point apart from the height on ground, L be the air-conditioning air-flow can reach the closest approach on ground the time this point apart from the distance of air-conditioner in the ground projection.The value of H and L is given according to the ability size of air-conditioning; But when definite H and L, can take all factors into consideration factors such as different flow behavior of cold and hot air and human body comfort again, corresponding given different H and L under the air-conditioner difference operational modes such as freeze, heat, to satisfy under the prerequisite of human body comfort, make room temperature reach user's design temperature faster.Calculate corresponding wind direction up and down according to following formula:

Above-below direction wind direction θ _{Up and down}=θ _Down-θ _On

Fig. 2 is the side view that air-conditioning is installed among the present invention, and X, Y are respectively the length and width in room among the figure, and wherein the value of Y is an air-conditioner place wall and distance to sidewalls, and a is the distance of air-conditioner centre-to-centre spacing left side wall, S _{A left side}, S _RightThe dead angle area that air-flow need not to arrive when representing respectively that air-conditioner is left and right and sweeping wind, θ _{A left side}, θ _RightThe wind direction of representing left and right direction respectively.The room gross area is S _Always(=X*Y), N is the dead angle scale parameter when sweeping wind about air-conditioner, the air-flow dead angle area that can't arrive accounts for the area ratio in whole room, i.e. N=(S specifically _{A left side}+ S _Right)/S _Always, the value of N is given.The batch total of solving an equation is calculated left and right wind direction θ _{A left side}, θ _Right:

Left and right directions wind direction θ _About=θ _{A left side}+ θ _Right

Wind direction and air-supply time, the control of sweeping the wind-powered electricity generation machine can be by accurately control mode, direct dial-up control mode, remote control dial-up control mode realize continuously by sweeping the control of wind-powered electricity generation machine.

Be the example explanation with direct dial-up control mode below.

Air-conditioner for the KF-26G ability, suppose that the room usable floor area is 16 square metres, the wide 4m*4m that is of a size of of long *, air-conditioning is provided with four position ranges when installing, as a≤1,1＜a≤2,2＜a≤3,3＜a≤4 (a represents the distance of air-conditioning centre-to-centre spacing left side wall) are set to four gears respectively with four scopes.A≤1 is 1 grade, and 1＜a≤2 are 2 grades, and 2＜a≤3 are 3 grades, and 3＜a≤4 are 4 grades.When the client was contained in From Left wall 1.5m distance to air-conditioner, at this moment 1＜a≤2 should be selected 2 grades.When different clients' air-conditioning was installed in corresponding four diverse locations in room, air-conditioner was selected different gear operations respectively, controls the appropriate parties parallactic angle of air-flow with this, thereby can realize the comfort current tissue, has improved the air-conditioner service efficiency simultaneously.

Above embodiment is the unrestricted technical scheme of the present invention in order to explanation only.Any modification or partial replacement that does not break away from spirit and scope of the invention all should be encompassed in the middle of the claim scope of the present invention.

Claims

1, a kind of air-conditioner air supply method, it is characterized in that, according to the planform of air-conditioner installation site, room unit and air-conditioner itself, regulate all directions wind direction and the left and right directions air-supply time, described wind direction comprises above-below direction wind direction, left and right directions wind direction;

Described left and right directions wind direction according to the air-conditioner installation site relatively with the distance adjustment of side walls: when air-conditioner when left wall equates with the right length of walls of distance, air-conditioner wind direction left equates with wind direction to the right; When air-conditioner is near apart from the righter wall of left wall, air-conditioner left wind direction wind direction is little more to the right; When air-conditioner was far away apart from the righter wall of left wall, wind direction was big more to the right for air-conditioner wind direction left;

The described left and right directions air-supply time comprises the time of blowing left, blows the time to the right, and the air-supply time is directly proportional with wind direction.

2, air-conditioner air supply method according to claim 1 is characterized in that, the computing formula of described left and right directions wind direction is as follows:

1. a ²Ctg θ _{A left side}+ (X-a) ²Ctg θ _Right=2*X*Y*N;

3. θ _About=θ _{A left side}+ θ _Right

Wherein, θ _AboutBy being asked the left and right directions wind direction, X, Y are respectively the length and width in room, and wherein the value of Y is an air-conditioner place wall and distance to sidewalls, and a is the distance of air-conditioner centre-to-centre spacing left side wall, and N is the dead angle scale parameter when sweeping wind about air-conditioner, θ _{A left side}Be air-conditioner wind direction left, θ _RightBe air-conditioner wind direction to the right.

3, air-conditioner air supply method according to claim 2 is characterized in that, described height H and distance L are to take all factors into consideration different flow behavior of cold and hot air and human body comfort, given different value under corresponding refrigeration, the various operational modes of heating air conditioner.

4, air-conditioner air supply method according to claim 1 is characterized in that, the computing formula of described above-below direction wind direction is as follows:

5, according to claim 1 or 2 or 4 described air-conditioner air supply methods, it is characterized in that, the relative size of the physical dimension of the physical dimension in required initial parameter---room, air-conditioner itself, air-conditioning installation site can obtain by air-conditioner intelligent-induction mode or manual measurement mode; Described intelligent-induction mode is by the initial parameters such as relative position that intelligent-induction device automatic scan room unit size and air-conditioner are installed are set in air-conditioner; Described manual measurement mode is to determine corresponding initial parameter by the method for in-site measurement.

6, air-conditioner air supply method according to claim 1 is characterized in that, described wind direction is by sweeping the control of wind-powered electricity generation machine, and described control of sweeping the wind-powered electricity generation machine realizes by continuously accurate control mode.

7, air-conditioner air supply method according to claim 6, it is characterized in that, described accurately the step of control mode is as follows continuously: after obtaining initial parameter by intelligent-induction or manual measurement, in the air supply control system with the data input controller chip, concrete wind direction data when calculating air-conditioner and be installed in this position through the formula algorithm that pre-sets in the system, every a different set of initial parameter there is the air-supply wind angle-data of one group of correspondence, thereby realizes accurately control.

8, air-conditioner air supply method according to claim 1 is characterized in that, described wind direction is by sweeping the control of wind-powered electricity generation machine, and described control of sweeping the wind-powered electricity generation machine realizes by the dial-up control mode.

9, air-conditioner air supply method according to claim 8, it is characterized in that, the step of described dial-up control mode is as follows: at the corresponding room unit size of air-conditioning of different sizes, according to air-conditioning the typical relative installation in back is installed, determine several groups of initial parameters, will be changed to several fixing control models in it.

10, air-conditioner air supply method according to claim 9 is characterized in that, described dial-up control mode comprises direct dial-up control mode and remote controller control mode.