CN105546713A - Wind gear control method and device - Google Patents

Abstract

The invention discloses a wind shield control method and a wind shield control device. Wherein, the method comprises the following steps: dividing the temperature into a plurality of temperature intervals from low to high, and correspondingly setting a plurality of wind gears of the inner fan; wherein, the wind speed of the fan increases from the lowest gear to the highest gear; three operation modes of the inner fan are set: an automatic wind mode, a comfort wind mode, and an energy saving wind mode. By applying the technical scheme of the invention, the inner fan wind gear control mode with various use purposes is provided for users through the control program, the functional practicability of the product is improved, the three operation modes of the inner fan are clear and understandable, the functions are clear, the problem of single operation mode of the inner fan in the prior art is solved, and various requirements of the users can be met.

Description

A kind of wind shelves control method and device

Technical field

The present invention relates to air-conditioning technical field, in particular to a kind of wind shelves control method and device.

Background technology

In the prior art, for the inner blower in the home appliances such as air-conditioning, be generally only provided with a kind of operational mode, user cannot select corresponding operational mode according to the demand of oneself, and Consumer's Experience is not good, and the practical function of home appliance is not good.

For the problem that inner blower operational mode in prior art is single, at present effective solution is not yet proposed.

Summary of the invention

A kind of wind shelves control method and device is provided, to solve the problem that in prior art, inner blower operational mode is single in the embodiment of the present invention.

For solving the problems of the technologies described above, the invention provides a kind of wind shelves control method, wherein, the method comprises: temperature is divided into multiple temperature range from low to high, and correspondence arranges multiple wind shelves of inner blower; Wherein, described in from lowest gear to most high tap position, the wind speed of inner blower increases thereupon; Three kinds of operational modes of described inner blower are set: automatic wind pattern, comfortable wind pattern and energy saving wind pattern; Wherein, under described automatic wind pattern, according to the temperature range belonging to current inner ring temperature, automatically run corresponding gear; Under described comfortable wind pattern, when current inner ring temperature reaches preset comfort temperature, automatically reduce the gear of described inner blower; Under described energy saving wind pattern, when current inner ring temperature reaches default energy efficiency temperature, automatically raise the gear of described inner blower.

Preferably, under described comfortable wind pattern, when current inner ring temperature reaches preset comfort temperature, the gear of the described inner blower of automatic reduction, comprise: when meeting following condition, the current gear of described inner blower is reduced and specifies downshift number: ︳ inner ring temperature-preset comfort temperature ︳≤the first temperature difference, and continued for the first fixed time.

Preferably, under described energy saving wind pattern, when current inner ring temperature reaches default energy efficiency temperature, the gear of the described inner blower of automatic rising, comprise: when meeting following condition, the current gear of described inner blower is raised and specifies upshift number: ︳ inner ring temperature-preset energy efficiency temperature ︳≤the second temperature difference, and continued for the second fixed time.

Preferably, described first temperature difference is 2 DEG C, and described first fixed time is 20 minutes, and described downshift number is 1 grade.

Preferably, described second temperature difference is 2 DEG C, and described second fixed time is 20 minutes, and described upshift number is 1 grade.

Preferably, under described comfortable wind pattern, then stop downshift when the gear of described inner blower is reduced to deep low gear; Under described energy saving wind pattern, then stop upshift when the gear of described inner blower is elevated to the most high-grade.

Present invention also offers a kind of wind shelves control device, wherein, this device comprises: wind shelves divide module, and for temperature is divided into multiple temperature range from low to high, correspondence arranges multiple wind shelves of inner blower; Wherein, described in from lowest gear to most high tap position, the wind speed of inner blower increases thereupon; Mode division module, for arranging three kinds of operational modes of described inner blower: automatic wind pattern, comfortable wind pattern and energy saving wind pattern; Wherein, under described automatic wind pattern, according to the temperature range belonging to current inner ring temperature, automatically run corresponding gear; Under described comfortable wind pattern, when current inner ring temperature reaches preset comfort temperature, automatically reduce the gear of described inner blower; Under described energy saving wind pattern, when current inner ring temperature reaches default energy efficiency temperature, automatically raise the gear of described inner blower.

Preferably, described mode division module comprises: comfortable wind mode processing units, for when meeting the following conditions, the current gear of described inner blower being reduced and specifies downshift number: ︳ inner ring temperature-preset comfort temperature ︳≤the first temperature difference, and continuing for the first fixed time.

Preferably, described mode division module comprises: energy saving wind mode processing units, for when meeting following condition, the current gear of described inner blower being raised and specifies upshift number: ︳ inner ring temperature-preset energy efficiency temperature ︳≤the second temperature difference, and continuing for the second fixed time.

Apply technical scheme of the present invention, by control program for user provides the inner blower wind shelves control model with multiple application target, the practical function of improving product, clear understandable, the definite functions of three kinds of operational modes of inner blower, solve the problem that in prior art, inner blower operational mode is single, the multiple demand of user can be met.

Accompanying drawing explanation

Fig. 1 is the flow chart of the wind shelves control method according to the embodiment of the present invention one;

Fig. 2 is closed-loop control flow chart under the comfortable wind pattern according to the embodiment of the present invention one;

Fig. 3 is closed-loop control flow chart under the energy saving wind pattern according to the embodiment of the present invention one;

Fig. 4 is the inner blower wind shelves control flow chart according to the embodiment of the present invention one;

Fig. 5 is the structured flowchart of the wind shelves control device according to the embodiment of the present invention two.

Detailed description of the invention

Below in conjunction with the drawings and specific embodiments, the present invention is described in further detail, but not as a limitation of the invention.

Embodiment one

Fig. 1 is the flow chart of the wind shelves control method according to the embodiment of the present invention one, and as shown in Figure 1, the method comprises the following steps (step S102-step S104):

Step S102, is divided into multiple temperature range from low to high by temperature, and correspondence arranges multiple wind shelves of inner blower; Wherein, increase from lowest gear to the wind speed of most high tap position inner blower thereupon;

Step S104, arranges three kinds of operational modes of inner blower: automatic wind pattern, comfortable wind pattern and energy saving wind pattern;

Wherein, under automatic wind pattern, according to the temperature range belonging to current inner ring temperature, automatically run corresponding gear; Under comfortable wind pattern, when current inner ring temperature reaches preset comfort temperature, automatically reduce the gear of inner blower; Under energy saving wind pattern, when current inner ring temperature reaches default energy efficiency temperature, automatically raise the gear of inner blower.

The present embodiment by control program for user provides the inner blower wind shelves control model with multiple application target, the practical function of improving product, clear understandable, the definite functions of three kinds of operational modes of inner blower, solve the problem that in prior art, inner blower operational mode is single, the multiple demand of user can be met.

In the present embodiment, suppose to be divided into N number of temperature range from low to high according to temperature, the wind shelves of corresponding air-conditioning inner blower have N shelves, be respectively 1 grade (minimum wind shelves), 2 grades ... N shelves (the highest wind shelves), wind speed increases successively by the increase of gear.The present embodiment provides three kinds of operational modes for user: automatic wind pattern, comfortable wind pattern and energy saving wind pattern.

The core concept of three kinds of operational modes is:

Automatic wind pattern: wind shelves are selected to be determined by the average normal distribution of crowd, and inner blower wind shelves are determined value.

Energy saving wind pattern: the inner ring temperature of inner blower reach design temperature or close to design temperature time, the wind shelves of inner blower upshift automatically, improve the heat exchange property of heat exchanger, improve the performance of system, reach energy-conservation effect.

Comfortable wind pattern: the inner ring temperature of inner blower reach design temperature or close to design temperature time, the wind shelves of inner blower downshift automatically, reduce the leaving air temp of refrigeration mode or improve the leaving air temp of heating mode, reducing inner blower wind noise simultaneously, improve the comfort of user.

Below three kinds of operational modes are described in detail respectively:

1) automatic wind pattern

The wind shelves of inner blower carry out segmentation according to inner ring temperature, meet the user demand that user is the most basic.Open loop wind shelves are run as shown in table 1 under automatic wind pattern.

Table 1

Inner ring temperature	Wind gear number
		(-∞，T 1]	1 grade
(T 1，T 2]	2 grades
		(T 2，T 3]	3 grades
……	……
		(T N-3，T N-2]	N-2 shelves
(T N-2，T N-1]	N-1 shelves
		(T N-1，+∞)	N shelves

2) comfortable wind pattern

Under comfortable wind pattern, when meeting following condition, the current gear of inner blower being reduced and specifies downshift number: ︳ inner ring temperature-preset comfort temperature ︳≤the first temperature difference, and continuing for the first fixed time.

Preferably, the first temperature difference can be set to 2 DEG C, and the first fixed time can be set to 20 minutes, and downshift number can be set to 1 grade, then stops downshift when the gear of inner blower is reduced to deep low gear.The setting of the present invention to above-mentioned parameter is not restricted, and can adjust based on user's request.

Open loop wind shelves are run as shown in table 2 under comfortable wind pattern.

Table 2

Inner ring temperature	Wind gear number
		(-∞，T 1]	(1-i) shelves
(T 1，T 2]	(2-i) shelves
		(T 2，T 3]	(3-i) shelves
……	……
		(T N-3，T N-2]	(N-2-i) shelves
(T N-2，T N-1]	(N-1-i) shelves
		(T N-1，+∞)	(N-i) shelves

If the wind gear number that in table 2, right side calculates is less than 1, then export by 1 windscreen, the i in table 2 represents the downshift number of comfortable wind pattern, can be set to i=1.

Fig. 2 is closed-loop control flow chart under the comfortable wind pattern according to the embodiment of the present invention one, as shown in Figure 2, after air-conditioning inner blower is set as " comfortable wind pattern " by user, after first running a period of time (such as 30min) according to the open loop table of table 2, enter the closed-loop control shown in Fig. 2.

Step S202, Δ T=︳ T _{inner ring}-T _setting︳≤T ₀(such as: T ₀=2 DEG C) and continue t ₁(such as: t ₁=20min) time.

Step S204, the wind shelves of inner blower reduce by 1 grade, until reduce to minimum wind shelves.

3) energy saving wind pattern

Under energy saving wind pattern, when meeting following condition, the current gear of inner blower being raised and specifies upshift number: ︳ inner ring temperature-preset energy efficiency temperature ︳≤the second temperature difference, and continuing for the second fixed time.

Preferably, the second temperature difference can be set to 2 DEG C, and the second fixed time can be set to 20 minutes, and upshift number can be set to 1 grade, then stops upshift when the gear of inner blower is elevated to the most high-grade.The setting of the present invention to above-mentioned parameter is not restricted, and can adjust based on user's request.

Open loop wind shelves are run as shown in table 3 under energy saving wind pattern.

Table 3

Inner ring temperature	Wind gear number
		(-∞，T 1]	(1+j) shelves

(T 1，T 2]	(2+j) shelves
		(T 2，T 3]	(3+j) shelves
……	……
		(T N-3，T N-2]	(N-2+j) shelves
(T N-2，T N-1]	(N-1+j) shelves
		(T N-1，+∞)	(N+j) shelves

If the wind gear number that in table 3, right side calculates is greater than N, then presses N windscreen and export.J in table 3 represents the upshift number of comfortable wind pattern, can be set to j=1.

Fig. 3 is closed-loop control flow chart under the energy saving wind pattern according to the embodiment of the present invention one, as shown in Figure 3, after air-conditioning inner blower is set as " energy saving wind pattern " by user, after first running a period of time (such as 30min) according to the open loop table of table 3, enter the closed-loop control shown in Fig. 3.

Step S302, Δ T=︳ T _{inner ring}-T _setting︳≤T ₀(such as: T ₀=2 DEG C) and continue t ₂(such as: t ₂=20min) time.

Step S304, the wind shelves of inner blower raise 1 grade, until be upgraded to the highest wind shelves.

Unify to introduce to above-mentioned three kinds of operational modes below.Fig. 4 is the inner blower wind shelves control flow chart according to the embodiment of the present invention one, and as shown in Figure 4, this flow process comprises:

Step S401, user selects the operational mode of inner blower;

Step S402a, selects comfortable wind pattern.

Step S402b, selects automatic wind pattern.

Step S402c, selects energy saving wind pattern.

Step S403a, according to the wind shelves of inner ring thermal creep stress inner blower.

Step S403b, according to the wind shelves of inner ring thermal creep stress inner blower.

Step S403c, according to the wind shelves of inner ring thermal creep stress inner blower.

Step S404a, Δ T=︳ T _{inner ring}-T _setting︳≤T ₀(such as: T ₀=2 DEG C) and continue t ₁(such as: t ₁=20min) time.

Step S404c, Δ T=︳ T _{inner ring}-T _setting︳≤T ₀(such as: T ₀=2 DEG C) and continue t ₂(such as: t ₂=20min) time

Step S405a, the wind shelves of inner blower reduce by 1 grade, until reduce to minimum wind shelves.

Step S405c, the wind shelves of inner blower raise 1 grade, until be upgraded to the highest wind shelves.

By above-mentioned flow process, for user provides three kinds of operational modes of inner blower, the practical function of improving product, meets the multiple demand of user.

Embodiment two

Corresponding to the wind shelves control method that embodiment one is introduced, present embodiments provide a kind of wind shelves control device, Fig. 5 is the structured flowchart of the wind shelves control device according to the embodiment of the present invention two, and as shown in Figure 5, this device comprises:

Wind shelves divide module 10, and for temperature is divided into multiple temperature range from low to high, correspondence arranges multiple wind shelves of inner blower; Wherein, increase from lowest gear to the wind speed of most high tap position inner blower thereupon;

Mode division module 20, is connected to wind shelves and divides module 10, for arranging three kinds of operational modes of inner blower: automatic wind pattern, comfortable wind pattern and energy saving wind pattern;

Wherein, under automatic wind pattern, according to the temperature range belonging to current inner ring temperature, automatically run corresponding gear; Under comfortable wind pattern, when current inner ring temperature reaches preset comfort temperature, automatically reduce the gear of inner blower; Under energy saving wind pattern, when current inner ring temperature reaches default energy efficiency temperature, automatically raise the gear of inner blower.

The present embodiment by control program for user provides the inner blower wind shelves control model with multiple application target, the practical function of improving product, clear understandable, the definite functions of three kinds of operational modes of inner blower, solve the problem that in prior art, inner blower operational mode is single, the multiple demand of user can be met.

Preferably, mode division module 20 comprises:

Comfortable wind mode processing units, for when meeting the following conditions, reducing the current gear of inner blower and specifying downshift number: ︳ inner ring temperature-preset comfort temperature ︳≤the first temperature difference, and continuing for the first fixed time.Preferably, the first temperature difference can be set to 2 DEG C, and the first fixed time can be set to 20 minutes, and downshift number can be set to 1 grade, then stops downshift when the gear of inner blower is reduced to deep low gear.The setting of the present invention to above-mentioned parameter is not restricted, and can adjust based on user's request.

Energy saving wind mode processing units, for when meeting following condition, raising the current gear of inner blower and specifying upshift number: ︳ inner ring temperature-preset energy efficiency temperature ︳≤the second temperature difference, and continuing for the second fixed time.Preferably, the second temperature difference can be set to 2 DEG C, and the second fixed time can be set to 20 minutes, and upshift number can be set to 1 grade, then stops upshift when the gear of inner blower is elevated to the most high-grade.The setting of the present invention to above-mentioned parameter is not restricted, and can adjust based on user's request.

It should be noted that, ︳ inner ring temperature-preset comfort temperature ︳ refers to the absolute value of difference between inner ring temperature and preset comfort temperature, ︳ inner ring temperature-preset the absolute value that energy efficiency temperature ︳ refers to difference between inner ring temperature and default energy efficiency temperature.

Known from above description, the present invention by control program for user provides the inner blower wind shelves control model with multiple application target, the practical function of improving product, clear understandable, the definite functions of three kinds of operational modes of inner blower, solve the problem that in prior art, inner blower operational mode is single, the multiple demand of user can be met.

Certainly, be more than the preferred embodiment of the present invention.It should be pointed out that for those skilled in the art, under the prerequisite not departing from its general principles, can also make some improvements and modifications, these improvements and modifications are also considered as protection scope of the present invention.

Claims (9)

1. a wind shelves control method, is characterized in that, described method comprises:

Temperature is divided into multiple temperature range from low to high, and correspondence arranges multiple wind shelves of inner blower; Wherein, described in from lowest gear to most high tap position, the wind speed of inner blower increases thereupon;

Three kinds of operational modes of described inner blower are set: automatic wind pattern, comfortable wind pattern and energy saving wind pattern;

Under described automatic wind pattern, according to the temperature range belonging to current inner ring temperature, automatically run corresponding gear;

Under described comfortable wind pattern, when current inner ring temperature reaches preset comfort temperature, automatically reduce the gear of described inner blower;

Under described energy saving wind pattern, when current inner ring temperature reaches default energy efficiency temperature, automatically raise the gear of described inner blower.

2. method according to claim 1, is characterized in that, under described comfortable wind pattern, when current inner ring temperature reaches preset comfort temperature, automatically reduces the gear of described inner blower, comprising:

When meeting following condition, the current gear of described inner blower being reduced and specifies downshift number:

︳ inner ring temperature-preset comfort temperature ︳≤the first temperature difference, and continued for the first fixed time.

3. method according to claim 1, is characterized in that, under described energy saving wind pattern, when current inner ring temperature reaches default energy efficiency temperature, automatically raises the gear of described inner blower, comprising:

When meeting following condition, the current gear of described inner blower being raised and specifies upshift number:

︳ inner ring temperature-preset energy efficiency temperature ︳≤the second temperature difference, and continued for the second fixed time.

4. method according to claim 2, is characterized in that, described first temperature difference is 2 DEG C, and described first fixed time is 20 minutes, and described downshift number is 1 grade.

5. method according to claim 3, is characterized in that, described second temperature difference is 2 DEG C, and described second fixed time is 20 minutes, and described upshift number is 1 grade.

6. method according to claim 1, is characterized in that,

Under described comfortable wind pattern, then stop downshift when the gear of described inner blower is reduced to deep low gear;

Under described energy saving wind pattern, then stop upshift when the gear of described inner blower is elevated to the most high-grade.

7. a wind shelves control device, is characterized in that, described device comprises:

Wind shelves divide module, and for temperature is divided into multiple temperature range from low to high, correspondence arranges multiple wind shelves of inner blower; Wherein, described in from lowest gear to most high tap position, the wind speed of inner blower increases thereupon;

Mode division module, for arranging three kinds of operational modes of described inner blower: automatic wind pattern, comfortable wind pattern and energy saving wind pattern; Wherein, under described automatic wind pattern, according to the temperature range belonging to current inner ring temperature, automatically run corresponding gear; Under described comfortable wind pattern, when current inner ring temperature reaches preset comfort temperature, automatically reduce the gear of described inner blower; Under described energy saving wind pattern, when current inner ring temperature reaches default energy efficiency temperature, automatically raise the gear of described inner blower.

8. device according to claim 7, is characterized in that, described mode division module comprises:

Comfortable wind mode processing units, for when meeting the following conditions, reducing the current gear of described inner blower and specifying downshift number:

︳ inner ring temperature-preset comfort temperature ︳≤the first temperature difference, and continued for the first fixed time.

9. device according to claim 7, is characterized in that, described mode division module comprises:

Energy saving wind mode processing units, for when meeting following condition, raising the current gear of described inner blower and specifying upshift number:

︳ inner ring temperature-preset energy efficiency temperature ︳≤the second temperature difference, and continued for the second fixed time.