CN108870648B - Air conditioner lighting system and air conditioner lighting method - Google Patents

Abstract

The invention relates to the field of illumination appliances, and discloses an air conditioner illumination system and an air conditioner illumination method, wherein the air conditioner illumination system comprises: the temperature sensing device is used for acquiring current indoor temperature data and sending the current indoor temperature data to the control device; the temperature adjusting device is used for adjusting the indoor temperature to a target temperature; the lighting device is used for emitting light rays and can adjust the color temperature of the emitted light rays; in addition, the air-conditioning lighting system also comprises a control device which is respectively in communication connection with the temperature sensing device, the temperature adjusting device and the lighting device; the control device is used for selecting one scene mode from a plurality of preset scene modes, wherein each scene mode corresponds to a preset target color temperature; the control device controls the lighting device to adjust the color temperature to a target color temperature corresponding to the selected profile when the indoor temperature reaches the target temperature. The invention can realize color temperature adjustment more suitable for the daily life habits of people.

Description

Air conditioner lighting system and air conditioner lighting method

Technical Field

The invention relates to the field of smart homes, in particular to an air conditioner lighting system and an air conditioner lighting method.

Background

Statistical data show that the total energy consumption of Chinese buildings rises year by year, and the proportion of the total energy consumption in China rises from 10% at the end of the 70 s in the last century to 35% in recent years. The largest energy consumption point of the building is heating and air conditioning, and the energy consumption of the heating and air conditioning in China accounts for 55% of the total energy consumption of the building.

In the regulation of civil building energy saving regulations (draft) in full-text published comments by State administration legal system of 7/3.2007, the state implements an indoor temperature control system for public buildings using air-conditioning for heating and cooling. Except special purposes, the temperature of the indoor air conditioner is not set to be lower than 26 ℃ in summer, and the temperature of the indoor air conditioner is not set to be higher than 20 ℃ in winter. Relevant researches show that when the air conditioner is used for refrigerating, the energy can be saved by about 10-20% when the set temperature is increased by one degree. In the heating mode, the preset temperature is properly adjusted to be lower, so that the energy-saving effect is better.

The human life and work are carried out under different temperatures and different light source illumination, and the two factors have certain influence on the adjustment of the human body temperature. Studies have shown that the core temperature is higher when the human body is exposed to low color temperatures than when the human body is exposed to high color temperatures. The thermal effects of the low color temperature (3000K) and the high color temperature (6000K) differ by about 1 to 1.5 degrees. Therefore, if the color temperature of the light source is automatically adjusted to be low when the air conditioner heats, the user can feel warm at a lower preset temperature. Similarly, the color temperature of the light source is automatically increased when the air conditioner is used for refrigerating, so that a user can feel cool at a higher preset temperature. Therefore, the dependence of users on the heating/cooling of the air conditioner is reduced, and the energy consumption of the air conditioner is further reduced.

In order to improve user experience and save energy at the same time, in the existing smart home technology, the function of adjusting color temperature through the states of air conditioner and ambient temperature has been partially realized. For example, when the air conditioner is in a heating state and does not reach the target temperature, the lamp automatically reduces the color temperature of the light source and increases the sensible temperature, and when the air conditioner is in a cooling state and does not reach the target temperature, the opposite is true.

However, the prior art generally only expresses a linear relationship between the color temperature of the luminaire and the air conditioning temperature. In daily life, the requirement of human body for lighting color temperature varies according to the activity scene. For example, a lower color temperature (below 3000K) is suitable for sleeping and resting scenes, a higher color temperature (above 6000K) is suitable for learning and work, and a medium color temperature (4500K) is suitable for most daily life activities. Therefore, if the color temperature of the illumination is adjusted intentionally to adjust the human body's feeling of temperature, it will be annoying to the normal activities.

Disclosure of Invention

The invention aims to provide an air conditioner lighting system and an air conditioner lighting method, which can realize color temperature adjustment more suitable for the daily life habits of people.

In order to solve the above technical problem, the present invention provides an air conditioner lighting system, including:

the temperature sensing device is used for acquiring current indoor temperature data and sending the current indoor temperature data to the control device;

the temperature adjusting device is used for adjusting the indoor temperature to a target temperature;

the lighting device is used for emitting light rays and can adjust the color temperature of the emitted light rays;

in addition, the air-conditioning lighting system also comprises a control device which is respectively in communication connection with the temperature sensing device, the temperature adjusting device and the lighting device;

the control device is used for selecting one scene mode from a plurality of preset scene modes, wherein each scene mode corresponds to a preset target color temperature;

the control device controls the lighting device to adjust the color temperature to a target color temperature corresponding to the selected profile when the indoor temperature reaches the target temperature.

The invention also provides an air conditioner lighting method, which comprises the following steps:

the control device selects one scene mode from a plurality of preset scene modes, wherein each scene mode corresponds to a preset target color temperature;

the temperature sensing device sends the current indoor temperature data to the control device;

the temperature adjusting device adjusts the indoor temperature to a target temperature;

when the current indoor temperature reaches the target temperature, the control device controls the lighting device to adjust the color temperature to the target color temperature corresponding to the selected contextual model.

The invention relates to a preset target color temperature and several common life scenes by setting a scene mode. In the present invention, the lighting device is controlled by the control device, and when the indoor temperature reaches the target temperature, the color temperature can be adjusted to the target color temperature corresponding to the selected profile. Compared with the prior art, the color temperature adjusting device can better fit the daily life habits of people on the premise of realizing the color temperature adjustment of energy conservation and emission reduction.

Preferably, the control device is further configured to control the lighting device to adjust the color temperature of the current light according to the selected scene mode, the current indoor temperature, and the target indoor temperature.

Preferably, the method further includes, after the step of transmitting the current indoor temperature data to the control device by the temperature sensing device, and before the step of controlling the lighting device by the control device to adjust the color temperature to the target color temperature corresponding to the selected profile, the steps of:

the control device controls the lighting device to adjust the color temperature of the current light according to the selected contextual model, the current indoor temperature and the target indoor temperature.

Further, preferably, at least one of the plurality of profiles comprises a preset relationship curve between temperature and color temperature;

in the step of controlling the lighting device to adjust the color temperature of the light emitted currently by the control device according to the selected contextual model, the current indoor temperature and the target indoor temperature, the control device controls the lighting device to adjust the color temperature of the light emitted currently according to a relation curve between the temperature and the color temperature included in the selected contextual model.

The color temperature of the current light is adjusted by means of combination with the scene mode, and compared with the method only depending on a simple linear relation, the method has the advantages of being more humanized and bringing better user experience.

Preferably, at least one of the plurality of contextual models corresponds to a target temperature parameter;

the control device controls the temperature adjusting device to adjust the indoor temperature by taking the target temperature as a target according to the target temperature parameter corresponding to the selected contextual model.

Generally, the required temperature of people in a certain life scene is relatively fixed, and when the target temperature is combined with the contextual model, the step of setting the specific temperature can be omitted, so that the air-conditioning lighting system is more intelligent to use.

In addition, the air-conditioning lighting system preferably further comprises a storage device in communication connection with the control device, and the storage device is used for storing each scene mode and the target color temperature corresponding to each scene mode.

The storage device is used for storing needed data, and the data can be conveniently defined and called next time.

Preferably, the air conditioning lighting system further includes a timer device communicatively connected to the control device.

Preferably, at least one of the plurality of contextual models has a preset starting time;

and when the preset starting time is reached, the control device selects the contextual model corresponding to the preset starting time.

The use of a timing device may enable a particular profile to be initiated at a particular time. Under regular daily work and rest, the convenience of the system can be greatly improved through the timing device.

Preferably, the plurality of scene modes include at least one manual mode, and the target color temperature included in the manual mode can be customized.

By adopting the manual mode which can be defined by user, the personalized scene which can not be covered in the default mode can be supplemented, and the customization effect is further improved.

Drawings

Fig. 1 is a block diagram showing the construction of an air conditioning lighting system according to a first embodiment of the present invention;

FIG. 2 is a simplified flow diagram of a first embodiment of the method for illuminating an air conditioner in accordance with the present invention;

FIG. 3 is a temperature versus color temperature curve for a rest mode of a third embodiment of the present invention;

FIG. 4 is a temperature versus color temperature curve of a learning mode of a third embodiment of the present invention;

FIG. 5 is another temperature versus color temperature curve of the learning mode of the third embodiment of the present invention.

Detailed Description

Implementation mode one

A first embodiment of the present invention provides an air conditioning lighting system, as shown in fig. 1, including:

the temperature sensing device is used for acquiring current indoor temperature data and sending the current indoor temperature data to the control device;

the temperature adjusting device is used for adjusting the indoor temperature to a target temperature;

the lighting device is used for emitting light rays and can adjust the color temperature of the emitted light rays;

in addition, the air-conditioning lighting system also comprises a control device which is respectively in communication connection with the temperature sensing device, the temperature adjusting device and the lighting device;

the control device is used for selecting one scene mode from a plurality of preset scene modes, wherein each scene mode corresponds to a preset target color temperature;

the control device controls the lighting device to adjust the color temperature to a target color temperature corresponding to the selected profile when the indoor temperature reaches the target temperature.

In addition, the air-conditioning lighting system further comprises a storage device which is in communication connection with the control device and is used for storing each scene mode and the target color temperature corresponding to each scene mode.

The storage device is used for storing needed data, and the data can be conveniently defined and called next time.

The invention also provides an air conditioner lighting method, which is shown in the figure 2 and comprises the following steps:

the control device selects one scene mode from a plurality of preset scene modes, wherein each scene mode corresponds to a preset target color temperature;

the temperature sensing device sends the current indoor temperature data to the control device;

the temperature adjusting device adjusts the indoor temperature to a target temperature;

when the current indoor temperature reaches the target temperature, the control device controls the lighting device to adjust the color temperature to the target color temperature corresponding to the selected contextual model.

Several typical examples of the present embodiment at the application level will be described in detail below with reference to several common scenarios in daily life.

For a living room scene, the following scene modes and corresponding target color temperatures are set by default:

rest mode, 2500K;

comfort mode, 2700K;

party mode, 3500K;

working mode, 5000K;

learning mode, 6200K.

For example, when the temperature is high in summer and the user needs to have a rest, the target temperature may be set to 22 degrees, and the scene mode may be set to the rest mode. The temperature adjusting device will start to adjust the indoor temperature, and when the indoor temperature reaches 22 degrees, the lighting fixture adjusts the color temperature to 2500K. At this time, the user will enjoy a satisfactory body-sensory temperature and an atmosphere of color temperature suitable for rest.

For another example, when a cool environment is required to keep a clear head, the target temperature may be set to 18 degrees, and the contextual model may be set to the learning mode. The temperature adjusting device will start to adjust the indoor temperature, and when the indoor temperature reaches 18 ℃, the lighting fixture adjusts the color temperature to 6200K. At this time, the indoor environment can improve the learning state of the user and improve the learning efficiency.

Similarly, for a scene of a bedroom, it is only necessary to simply correspond the scene mode to the usage environment of the bedroom. For example, the following scene modes may be set:

the sleeping mode is 2500K, and is suitable for quiet atmosphere before sleeping;

comfort mode, 2700K, suitable for rest and easy reading;

the daily mode is 3500K, and is suitable for scenes without special states in the daytime;

the changing mode is 5000K, and the garment is suitable for illumination when the garment is changed;

the get-up mode, 6200K, is suitable for waking up in the early morning.

The invention relates to a preset target color temperature and several common life scenes by setting a scene mode. In the present invention, the lighting device is controlled by the control device, and when the indoor temperature reaches the target temperature, the color temperature can be adjusted to the target color temperature corresponding to the selected profile. Compared with the prior art, the color temperature adjusting device can better fit the daily life habits of people on the premise of realizing the color temperature adjustment of energy conservation and emission reduction.

It should be noted that, in the present invention, the target temperature is not a specific temperature point, and the technical solution of adjusting the color temperature to the target color temperature in a certain temperature interval in which the current temperature is near the target temperature should also be equivalent to the technical solution of the present invention.

Second embodiment

A second embodiment of the present invention is a further improvement of the first embodiment, and provides an air-conditioning lighting system and an air-conditioning lighting method; in the second embodiment of the present invention, the control device is further configured to control the lighting device to adjust the color temperature of the current light according to the selected scene mode, the current indoor temperature, and the target indoor temperature.

Specifically, after the step of transmitting the current indoor temperature data to the control device by the temperature sensing device, and before the step of adjusting the color temperature to the target color temperature corresponding to the selected profile by the control device controlling the lighting device, the method further includes the steps of:

the control device controls the lighting device to adjust the color temperature of the current light according to the selected contextual model, the current indoor temperature and the target indoor temperature.

In the present embodiment, a comparative description will be given based on the example of the first embodiment.

Similarly, when the temperature is high in summer and the user needs to have a rest, the target temperature is set to 22 degrees, and the scene mode is set to the rest mode. At the moment, the temperature adjusting device starts to adjust the indoor temperature, meanwhile, the control device acquires the current indoor temperature in real time, gradually adjusts the color temperature of the current light to the target color temperature along with the reduction of the indoor temperature, and when the indoor temperature reaches 22 ℃, the lighting lamp just adjusts the color temperature to 2500K.

Since in this example the color temperature is gradually adjusted, a smooth transition of the color temperature during use may give a more comfortable feeling to the human body. The actual way of adjusting the color temperature may be derived from an algorithm built into the control device and depending on several parameters selected as profile, current room temperature and target room temperature.

Third embodiment

A third embodiment of the present invention is a further improvement of the second embodiment, and provides an air conditioner lighting method; in the third embodiment of the present invention, at least one of the plurality of profiles comprises a predetermined relationship curve between temperature and color temperature;

in the step of controlling the lighting device to adjust the color temperature of the light emitted currently by the control device according to the selected contextual model, the current indoor temperature and the target indoor temperature, the control device controls the lighting device to adjust the color temperature of the light emitted currently according to a relation curve between the temperature and the color temperature included in the selected contextual model.

For different scene modes, customized experiences can be provided according to different color temperature variation trends.

For example, according to the examples of the first and second embodiments, the relationship curve of the temperature and the color temperature of the rest mode set by default for the living room scene is shown in fig. 3;

as can be derived from fig. 3. When the temperature is high in summer and the user needs to have a rest, the target temperature is set to 22 degrees, and the contextual model is set to the rest mode. At this time, the thermostat will start to regulate the indoor temperature such that the indoor temperature gradually changes from the initial temperature toward the target temperature.

Meanwhile, the control device acquires the current indoor temperature in real time, gradually adjusts the color temperature of the current light to the target color temperature according to the curve in fig. 3 along with the decrease of the indoor temperature, and when the indoor temperature reaches 22 ℃, the lighting lamp just adjusts the color temperature to 2500K.

Obviously, the change in color temperature and the change in temperature are not necessarily completely proportional. As can be seen from the graph of fig. 3, the change of the color temperature is relatively severe at the beginning and relatively gentle at the end of the temperature change. This fully takes into account that such a change in color temperature enables the mental state of the user to be relatively gentle and less disturbing when in the rest mode.

In the present embodiment, the shape and the trend of the relationship curve between the temperature and the color temperature can be freely customized according to the scene mode. Taking the curve in fig. 4 as an example, fig. 4 shows a temperature-color temperature relationship curve when the living room is in the learning mode. When the learning state needs to be entered, according to the curve of fig. 4, once the learning mode is set, the color temperature is directly changed to 6200K in the learning mode and is not changed any more, so that the interference to the learning of the user can be avoided, and the user can be helped to enter the learning state quickly.

Fig. 5 shows another temperature versus color temperature curve when the living room is in the learning mode. According to fig. 5, when the temperature is not suitable for learning, the color temperature does not change when the learning mode is set. At this time, the temperature is gradually adjusted toward the target temperature. The user can feel more comfortable body feeling temperature gradually, and when the temperature reaches the target temperature, the color temperature directly becomes 6200K in the learning mode, and the effect of reminding the user that the current temperature reaches the target temperature is achieved.

It will be appreciated by those skilled in the art that the temperature versus color temperature curve is not limited to the two cases illustrated, and that other transformations are possible. For example, the color temperature is adjusted step by step in a zigzag line situation. Other transformations in particular are limited to space and are not expanded.

In addition, it is worth mentioning that the application scenes are different in summer and winter, the temperature is gradually reduced when cooling in summer, and the temperature is gradually increased when heating in winter. Different curves can also be customized according to the season.

The color temperature of the current light is adjusted by means of combination with the scene mode, and compared with the method only depending on a simple linear relation, the method has the advantages of being more humanized and bringing better user experience.

Embodiment IV

A fourth embodiment of the present invention provides an air conditioner lighting method, which is a further improvement of any one of the first to third embodiments, and is mainly characterized in that, in the fourth embodiment of the present invention, at least one of the plurality of contextual models corresponds to one target temperature parameter;

the control device controls the temperature adjusting device to adjust the indoor temperature by taking the target temperature as a target according to the target temperature parameter corresponding to the selected contextual model.

Generally, the required temperature of people in a certain life scene, especially the required temperature of a certain life scene in the same season, is relatively fixed, and when the target temperature is combined with the contextual model, the step of setting the specific temperature can be omitted, so that the air-conditioning lighting system is more intelligent to use.

For example, in summer, for a living room, the following profiles are usually used, and the following preset target temperature parameters can be approximated:

rest mode, 2500K, 25 degrees;

comfort mode, 2700K, 23 degrees;

party mode, 3500K, 28 degrees;

working mode, 5000K, 20 degrees;

learning mode, 6200K, 18 degrees.

In winter, it may be different:

rest mode, 2500K, 22 degrees;

comfort mode, 2700K, 24 degrees;

party mode, 3500K, 30 degrees;

working mode, 5000K, 21 degrees;

learning mode, 6200K, 20 degrees;

at this moment, after the corresponding mode is adjusted, the temperature adjusting device can directly adjust the indoor temperature by taking the preset target temperature as a target, and the operation of manually adjusting the indoor temperature is omitted, so that the system is more intelligent.

Fifth embodiment

A fifth embodiment of the present invention provides an air conditioner lighting method, which is a further improvement of any one of the first to fourth embodiments, and is mainly improved in that in the fifth embodiment of the present invention, the plurality of contextual models includes at least one manual model, and a target color temperature included in the manual model can be customized.

By adopting the manual mode which can be defined by user, the personalized scene which can not be covered in the default mode can be supplemented, and the customization effect is further improved.

Sixth embodiment

A sixth embodiment of the present invention provides an air conditioning lighting system and an air conditioning lighting method, and the sixth embodiment is a further improvement of the first or second embodiment, and the main improvement is that, in the sixth embodiment of the present invention, the air conditioning lighting system further includes a timing device communicatively connected to the control device.

Specifically, in a plurality of contextual models of the air conditioner lighting method of the embodiment, at least one contextual model corresponds to a preset starting time;

and when the preset starting time is reached, the control device selects the contextual model corresponding to the preset starting time.

For example, for a bedroom scenario, the two scene modes mentioned in the first embodiment are as follows:

in a sleeping mode, 2500K, and the preset starting time is 21:30 pm;

get up mode, 6200K, preset start time is 08:00 am.

When the corresponding time is reached, the air-conditioning lighting system automatically enters the corresponding mode, so that the adjustment of the target color temperature is more automatic and intelligent.

In addition, the timing device can also be used to determine the season in which the current system is located, and can be used in conjunction with the technical solution of the fourth embodiment of the present invention.

The use of a timing device may enable a particular profile to be initiated at a particular time. Under regular daily work and rest, the convenience of the system can be greatly improved through the timing device.

It will be appreciated by those of ordinary skill in the art that in the embodiments described above, numerous technical details are set forth in order to provide a better understanding of the present application. However, the technical solutions claimed in the claims of the present application can be basically implemented without these technical details and various changes and modifications based on the above-described embodiments. Accordingly, in actual practice, various changes in form and detail may be made to the above-described embodiments without departing from the spirit and scope of the invention.

Claims (8)

1. An air conditioning lighting system comprises

The temperature sensing device is used for acquiring current indoor temperature data and sending the current indoor temperature data to the control device;

the temperature adjusting device is used for adjusting the indoor temperature to a target temperature;

the lighting device is used for emitting light rays and can adjust the color temperature of the emitted light rays;

the air-conditioning lighting system is characterized by further comprising a control device, wherein the control device is in communication connection with the temperature sensing device, the temperature adjusting device and the lighting device respectively;

the control device is used for selecting one scene mode from a plurality of preset scene modes, wherein each scene mode corresponds to a preset target color temperature; the control device is also used for controlling the lighting device to adjust the color temperature of the current light according to the selected scene mode, the current indoor temperature and the target indoor temperature;

and when the current indoor temperature reaches the target temperature, the control device controls the lighting device to adjust the color temperature to the target color temperature corresponding to the selected contextual model.

2. The air conditioning lighting system of claim 1, wherein: the air-conditioning lighting system further comprises a storage device in communication connection with the control device, and the storage device is used for storing the scene modes and the target color temperatures corresponding to the scene modes.

3. The air conditioning lighting system according to claim 1, wherein: the air conditioner lighting system also comprises a timing device in communication connection with the control device.

4. An air conditioner lighting method is characterized in that: comprises the following steps:

the control device selects one scene mode from a plurality of preset scene modes, wherein each scene mode corresponds to a preset target color temperature;

the temperature sensing device sends the current indoor temperature data to the control device;

the control device controls the lighting device to adjust the color temperature of the current light according to the selected contextual model, the current indoor temperature and the target indoor temperature;

the temperature adjusting device adjusts the indoor temperature to a target temperature;

when the current indoor temperature reaches the target temperature, the control device controls the lighting device to adjust the color temperature to the target color temperature corresponding to the selected contextual model.

5. The air conditioner lighting method according to claim 4, wherein: at least one of the plurality of contextual models comprises a preset relation curve of temperature and color temperature;

in the step of controlling the lighting device to adjust the color temperature of the light emitted currently according to the selected scene mode, the current indoor temperature and the target indoor temperature by the control device,

the control device controls the lighting device to adjust the color temperature of the light rays emitted currently according to the relation curve between the temperature and the color temperature contained in the selected contextual model.

6. The air conditioner lighting method according to claim 4, wherein: at least one of the plurality of profiles corresponds to a target temperature parameter:

the control device controls the temperature adjusting device to adjust the indoor temperature by taking the target temperature as a target according to the target temperature parameter corresponding to the selected contextual model.

7. The air conditioner lighting method according to claim 4, wherein: at least one of the plurality of contextual models corresponds to a preset starting time;

and when the preset starting time is reached, the control device selects the contextual model corresponding to the preset starting time.

8. The air conditioner lighting method according to claim 4, wherein: the plurality of scene modes includes at least one manual mode,

the target color temperature contained in the manual mode can be customized.

Images