CN201237326Y - Apparatus used for controlling sleeping mode of air conditioner - Google Patents

Abstract

The utility model relates to a device for controlling the sleep mode of an air conditioner. The device at least includes a controller for controlling the sleep mode, an indoor temperature sensor connected to the first input end of the controller, and an indoor temperature sensor connected to the first input end of the controller. The compressor connected to the first output end and the fan system connected to the second output end of the controller are characterized in that: at least an indoor humidity sensor connected to the second input end of the controller and the controller The humidifier connected to the third output end, the controller stores the optimal indoor air humidity value range, and compares the indoor air humidity actually measured by the indoor humidity sensor with the stored indoor air optimal humidity value range to control the humidifier on and off. Compared with the prior art, the controller of the utility model can not only intelligently regulate the temperature of the sleep mode, but also intelligently control the indoor air humidity by using a humidifier.

Description

A kind of device that is used to control air-conditioner sleep mode

Technical field

The utility model relates to a kind of device that is used to control air-conditioner sleep mode.

Background technology

Environment has very big influence to sleep, especially these several big key elements of the pure and fresh degree of light, the sound, temperature and humidity, air.As the electric equipment products of regulating indoor environment temperature, humidity and air purity, air-conditioner and people's sleep environment is closely bound up.Existing air-conditioner mostly is provided with sleep operation mode, the sound that these air-conditioners with sleep operation mode generally send air-conditioner self reduces, according to the program that has configured indoor temperature is adjusted then, for example publication number is that (application number: Chinese invention patent 200610080155.6) has just been announced a kind of like this " being used to control the apparatus and method of the sleep pattern of air-conditioner " to CN101004283A, this control device comprises indoor temperature transmitter, is used to detect indoor temperature; Controller, when beginning, sleep pattern is used to control sleep pattern, make it carry out sleep and enter the stage, be used for the fast-refrigerating pattern, during described fast-refrigerating pattern, indoor temperature is reduced to fast than first temperature at the bottom of the design temperature, carry out the deep sleep stage, be used for indoor temperature little by little is increased to second temperature higher than telling design temperature, carry out awakening phase, be used for indoor temperature is increased to three temperature higher than described second temperature.

Being used to of above-mentioned patent disclosure controlled the device of the sleep pattern of air-conditioner, its main purpose is when air-conditioner is under the sleep pattern temperature to be carried out intelligent control, temperature profile under the sleep pattern is changed according to the program that has configured, to be provided at the temperature suitable in each stage under the sleep pattern human body.But above-mentioned patent is only considered variation of temperature under the sleep pattern, and do not consider of the influence of the pure and fresh degree of indoor light, the sound, temperature and humidity, air to sleep environment under the sleep pattern, and in the technical scheme of above-mentioned patent disclosure, the temperature profile that air-conditioner is under the sleep pattern configures, and can not carry out personal settings according to user's individual sleep habit.

The utility model content

Technical problem to be solved in the utility model is to provide a kind of at above-mentioned prior art not only can carry out intelligent control to the temperature under the sleep pattern, makes people's more comfortable being used to of sleeping control the device of air-conditioner sleep mode thereby can also carry out Based Intelligent Control and adjusting to the humidity of room air.

The utility model solves the problems of the technologies described above the technical scheme that is adopted: the device that is used to control air-conditioner sleep mode, it comprises the controller that is used to control sleep pattern when sleep pattern begins at least, the indoor temperature transmitter that is used to detect indoor temperature that is connected with described controller first input end, compressor that is connected with first output of described controller and the blower fan system that is connected with second output of described controller, it is characterized in that: at least also including being used to of being connected with described controller second input detects the indoor humidity sensor of indoor humidity and the humidifier that is connected with controller the 3rd output, described controller is preserved room air optimum humidity value scope, and compares to control the open and close of humidifier according to the indoor air humidity of indoor humidity sensor actual measurement and the room air optimum humidity value scope of preservation.

In order to keep the pure and fresh of room air, the device that the utility model provides also includes the anion generator that is used to discharge anion that is connected with described controller the 4th output, and controller will open or cut out anion by the 4th output and send out the signal of device and send to anion and send out device.This unlatching or close can program setting, perhaps manual intervention is set.

In order to satisfy the demand of user's personalization, as further improvement, the device that the utility model provides also includes the user input unit that adopts wireless or wired mode to be connected with described controller the 3rd input, and described controller is preserved the running time of air-conditioner, the maximum ascending temperature of air-conditioner, maximum decline temperature, the default data value of perhaps indoor optimum humidity value scope, and the running time of these air-conditioners, whether close display screen and other indicator lamps of air-conditioner, the maximum ascending temperature of air-conditioner, perhaps the maximum decline temperature of air-conditioner is revised by described user input unit by the user and is determined.

Compared with prior art, advantage of the present utility model is: controller not only can carry out intelligent control to the temperature of sleep pattern, can also output signal to humidifier so that indoor air humidity is carried out Based Intelligent Control according to the indoor humidity measurement value sensor; And the anion that is provided with is sent out device and can the pure and fresh degree of air be adjusted, and, being provided with of user input unit can be carried out personal settings to the maximum ascending temperature of the running time of air-conditioner, the display screen of whether closing air-conditioner and other indicator lamp air-conditioners, maximum decline temperature according to user's individual sleep habit, so that the sleep environment an of the best to be provided to the user, easy to use, the air-conditioning effect is practical more perfect.

Description of drawings

Fig. 1 is the block diagram of the device that is used to control air-conditioner sleep mode among the utility model embodiment;

Fig. 2 is the workflow diagram of the device control indoor environment that is used to control air-conditioner sleep mode in the utility model preferred embodiment;

Fig. 3 is provided with the workflow in stage 11 for sleep pattern among Fig. 2;

Fig. 4 is the flow chart of the unlatching of humidifier or the operation principle 15 of closing;

Fig. 5 is the workflow in sleeping stage 12 among Fig. 2;

Fig. 6 is the workflow in deep sleep stage 13 among Fig. 2;

Fig. 7 is the workflow of awakening phase 14 among Fig. 2.

The specific embodiment

Embodiment describes in further detail the utility model below in conjunction with accompanying drawing.

The device that is used to control air-conditioner sleep mode that the utility model provides, it comprises the controller 1 that is used to control sleep pattern when sleep pattern begins, the indoor temperature transmitter 2 that is used to detect indoor temperature that is connected with described controller first input end, the indoor humidity sensor 5 that is used to detect indoor humidity that is connected with described controller second input, the user input unit 8 that is connected with described controller the 3rd input employing wireless mode such as remote control, the compressor 3 that is connected with first output of described controller, the blower fan system 4 that is connected with second output of described controller, the humidifier 6 that controller the 3rd output connects, being used to of being connected with described controller the 4th output discharges the anion of anion and sends out device 7.Controller 1 is preserved the default data value of room air optimum humidity value scope, and compare open and close with the control humidifier according to the room air optimum humidity value scope of the indoor air humidity of indoor humidity sensor actual measurement and preservation, controller 1 is also preserved the running time of air-conditioner, the maximum ascending temperature of air-conditioner, maximum decline temperature, the default data value of indoor optimum humidity value scope, the running time of described air-conditioner, whether close display screen and other indicator lamps of air-conditioner, the maximum ascending temperature of air-conditioner, the maximum decline temperature of air-conditioner is revised by described user input unit by the user and is determined, here the maximum ascending temperature of air-conditioner, maximum decline temperature generally is about 4 ℃.User input unit 8 generally can use the remote controller of air-conditioner to realize.The wind speed gear of the power output of compressor 3 and blower fan system 4 is controlled by the control signal of controller 1.

In addition, method that the utility model provides is used to control its control air-conditioner sleep mode of device of air-conditioner sleep mode starts from sleep pattern and begins, the utility model provides a preferred embodiment, as shown in Figure 2, when sleep pattern begins, controller 1 is at first given control signal of anion generator, make the anion generator release anion of starting working, controller 1 begins to receive the signalization of user input unit 8 then, and the startup sleep pattern is provided with the workflow in stage 11, sleep pattern enters the sleeping stage 12 after stages 11 end is set, after the sleeping stage finishes, enter the deep sleep stage 13, after the deep sleep stage finishes, enter awakening phase 14, awakening phase finishes the back and stops sleep pattern.And during sleeping stage 12, deep sleep stage 13,14 any one stage of awakening phase, when the indoor humidity of indoor humidity sensor measurement during less than indoor optimum humidity value stated range minimum described controller output signal open humidifier, when the indoor humidity of indoor humidity sensor measurement during greater than indoor optimum humidity value scope maximum described controller output signal close humidifier, here the principle that will open or close humidifier is defined as 15, as shown in Figure 3, and the unlatching of humidifier or shutdown signal are that the 3rd output by controller provides.

Certainly, in sleeping stage 12, deep sleep stage 13, awakening phase 14 during any one, also can start the workflow that ion generator or sleep pattern are provided with the stage 11 at any time.

As Fig. 4, the workflow that sleep pattern is provided with the stage 11 is as follows: at first user input unit 4 is sent the operational factor signalization, if controller 1 receives the signal of the display screen of cutting out air-conditioner and other indicator lamps, then controller all extinguishes display screen or other luminous lamp that is used to indicate of air-conditioner automatically, at this moment air-conditioner does not send any light, builds the environment of a dark; If controller 1 is received the air-conditioner signal of running time is set, then controller is preserved the air-conditioner of receiving running time; If controller 1 is received the signal that the maximum ascending temperature of air-conditioner is set, then controller 1 is preserved the maximum ascending temperature of the air-conditioner of receiving; If controller 1 is received the signal that the minimum decline temperature of air-conditioner is set, then the minimum decline temperature that will receive of controller is preserved, to reach the purpose of revising the default data value.

As Fig. 5, the workflow in sleeping stage 12 is as follows: in the time in sleeping stage, be 1 hour in the present embodiment, the fast-refrigerating pattern, during the fast-refrigerating pattern, indoor temperature is reduced to first temperature than the little maximum decline temperature of setting of temperature value fast, controller output control signal drops to the power output of compressor minimum then, the wind speed of blower fan system is reduced to deep low gear, temperature is remained within 1 ℃ of scope up and down of first temperature in the sleeping stage then; If the 3rd output of controller has control signal output in the time in sleeping stage, wherein the indoor humidity that measures when indoor humidity sensor 3 is less than the minimum of a value of indoor optimum humidity value scope, controller is then opened humidifier, if the indoor humidity that indoor humidity sensor 3 measures is greater than the maximum of indoor optimum humidity value scope, controller then cuts out humidifier.

As Fig. 6, the workflow in deep sleep stage 13 is as follows: it comprises first running time and second running time, in first running time of operation, be generally for first running time 1～3 hour, temperature is run to design temperature gradually also to be kept within 1 ℃ of scope up and down, after finishing for first running time, entered for second running time, and be generally for second running time 3～5 hours, at this moment temperature is run to gradually second temperature higher than the temperature value of setting and also keep within 1 ℃ of scope up and down, general second temperature exceeds about 2 ℃ than the temperature value of setting; If the 3rd output of controller has control signal output in the time in deep sleep stage 13 equally, if wherein the indoor humidity that measures of indoor humidity sensor 3 is less than the minimum of a value of indoor optimum humidity value scope, controller is then opened humidifier, if the indoor humidity that indoor humidity sensor 3 measures is greater than the maximum of indoor optimum humidity value scope, controller then cuts out humidifier.

As Fig. 7, the workflow of awakening phase 14 is as follows: indoor temperature is increased to gradually higher and than the 3rd temperature of the high maximum ascending temperature of the temperature value of setting and remain on the 3rd temperature up and down within 1 ℃ of scope than second temperature; If the 3rd output of controller has control signal output in the time of awakening phase 14 equally, if wherein the indoor humidity that measures of indoor humidity sensor 3 is less than the minimum of a value of indoor optimum humidity value scope, controller is then opened humidifier, if the indoor humidity that indoor humidity sensor 3 measures is greater than the maximum of indoor optimum humidity value scope, controller then cuts out humidifier.When air-conditioner running time to after date, controller cuts out air-conditioner.

The utility model is taken all factors into consideration the influence of the pure and fresh degree of indoor light, the sound, temperature, humidity and air to sleep environment under the sleep pattern, and can regulate each parameter automatically to build the device that is used to control air-conditioner sleep mode of an environment that conduces to sleep, this device can also carry out personal settings to above-mentioned parameter according to user's individual sleep habit.Pure and fresh degree from indoor light, the sound, temperature and humidity and air is described further the course of work of the present utility model and working environment below:

Room light: common people have been accustomed to sleeping in night, turn off the room lamp, cover the outdoor light of coming in of shining upon with the door curtain made of cloth.After the user selects sleep pattern, the user can operate user input unit, send the signal of the display screen of closing air-conditioner and other indicator lamps, after controller receives this signal, display screen or other luminous lamp that is used to indicate of air-conditioning are all extinguished automatically, air-conditioning does not send any light, builds the environment of a dark.Certainly, if the user needs display screen or other luminous lamp light yellow that is used to indicate of air-conditioning, again user input unit is just operated and can be achieved the goal.

The room sound: quiet muting environment can make people's calmness, and is sleeping easily, on the contrary, if the bedroom is subjected to noise jamming, or noisy noisy sound audible, then seldom sleep peacefully.After the user selected sleep pattern, sleeping stage controller was controlled at temperature ± 1 that the user sets ℃ with room temperature, and interior machine wind speed is reduced to deep low gear, and the sound that air-conditioning self is sent is reduced to minimum, builds quiet environment.

Room temperature: the bedroom temperature is too not hot, and is too not cold yet, too hotly is difficult to enter sleep, too cold easy to catch cold.Experiment showed, that room temperature more lower slightly the helping when sleeping fall asleep, can high slightly one after sleeping twice.After the user selects sleep pattern, sleeping stage air-conditioner is reduced to first temperature with indoor temperature, in promptly 1 hour of the sleeping stage indoor temperature is adjusted to than low about 2 ℃ of design temperature, enter the stage of sleeping soundly then, sleep soundly the stage for the previous period in, controller slowly is increased to design temperature with temperature, and the back segment time in the stage of sleeping soundly, air-conditioner slowly is elevated to second temperature with indoor temperature and keeps.Wherein maximum rising and maximum decline temperature can be regulated according to user's sleep habit, satisfy user's personalized requirement.Such setting can make the sleep of human body feel more comfortable.

Room humidity: the unsuitable too dry in bedroom, should keep suitable humidity, the scope of optimum humidity is generally 50%-60%, has both helped sleep, also can avoid throat respiratory tract dry sensation.When the relative humidity that detects the bedroom when the humidity sensor of air-conditioning was lower than 50%, the automatic humidifier of opening an account immediately increased the humidity in room, when the relative humidity that detects the bedroom when the humidity sensor of air-conditioning is higher than 60%, closed automatic humidifier immediately.

The pure and fresh degree of space air: when the user selected sleep pattern, controller moved anion automatically and sends out device, produced a large amount of anions, anion with swim in smog dust positively charged in the air and carry out electrode neutralization, eliminate the flue dust and the sterilization in room; Negative oxygen ion can effectively activate airborne oxygen molecule, makes it more active, helps to bring high blood pressure down, and improves PFT, and corticocerebral excitement and inhibition are had regulating action, thus the dark ripe delicate fragrance that people are slept.

The length of one's sleep: when the user selects sleep pattern, air-conditioning acquiescence operation shutdown automatically after 7 hours; Equally, can be set the running time of air-conditioning by user oneself, forgets the pass air-conditioning after avoiding the user to sleep like this, wastes energy.

Claims (3)

1. A device for controlling the sleep mode of an air conditioner, which at least includes a controller (1) for controlling the sleep mode when the sleep mode starts, and a device for detecting indoor temperature connected to the first input end of the controller An indoor temperature sensor (2), a compressor (3) connected to the first output end of the controller and a fan system (4) connected to the second output end of the controller, characterized in that: at least it also includes There is an indoor humidity sensor (5) connected to the second input end of the controller for detecting indoor humidity and a humidifier (6) connected to the third output end of the controller. Humidity value range, and compare the indoor air humidity actually measured by the indoor humidity sensor with the stored indoor air optimal humidity value range to control the opening and closing of the humidifier. 2. The device for controlling the sleep mode of an air conditioner according to claim 1, further comprising a negative ion generator (7) connected to the fourth output terminal of the controller for releasing negative ions. 3. The device for controlling the sleep mode of an air conditioner according to claim 1, further comprising a user input unit (8) connected to the third input terminal of the controller, and the controller saves There are the running time of the air conditioner, the maximum rising temperature of the air conditioner, the maximum falling temperature, the optimal indoor humidity value range, the running time of the air conditioner, whether to turn off the display screen and other indicators of the air conditioner, the maximum rising temperature of the air conditioner, The maximum drop temperature of the air conditioner is determined by the user through the user input unit.

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