CN202350252U

CN202350252U - Air conditioner and control device, system, detection device and remote controller thereof

Info

Publication number: CN202350252U
Application number: CN2011205383350U
Authority: CN
Inventors: 张辉; 李文灿; 卓森庆; 廖少欢
Original assignee: Gree Electric Appliances Inc of Zhuhai
Current assignee: Gree Electric Appliances Inc of Zhuhai
Priority date: 2011-12-19
Filing date: 2011-12-19
Publication date: 2012-07-25
Anticipated expiration: 2021-12-19

Abstract

The utility model discloses an air conditioner and controlling means, system and detection device and remote controller thereof. Wherein, the control system of air conditioner includes: the detection device is arranged on a remote controller of the air conditioner and used for detecting the ambient temperature around the remote controller to obtain a first temperature value; and the control device is arranged on the indoor unit of the air conditioner and used for receiving the first temperature value and controlling the operating parameters of the air conditioner according to the first temperature value. Through the utility model discloses, solved the problem that can't accurate detection user near field ambient temperature, and then reached the deviation that reduces the ambient temperature that detects and the temperature of user's environment to this running state who controls the air conditioner improves the effect of user comfort.

Description

Air-conditioner and control device thereof, system and checkout gear and remote controller

Technical field

The utility model relates to the air-conditioner field, in particular to a kind of air-conditioner and control device, system and checkout gear and remote controller.

Background technology

The air-conditioner that uses in the prior art, the sensor that is used to measure the user environment temperature is installed near the air conditioner indoor set wind outlet usually, and user's scope of activities does not relate to the zone of air outlet of indoor set annex usually; In this case; Cause the temperature sensor distance users far away, can cause the temperature of detected environment temperature and user's environment of living in to have deviation, at this moment; Control the running status of air-conditioner again based on detected temperatures, influence the comfort that the user uses air-conditioner.

Problem to can't accurately detecting user near field environment temperature in the correlation technique does not propose effective solution at present as yet.

The utility model content

The main purpose of the utility model is to provide a kind of air-conditioner and control device, system and checkout gear and remote controller, to solve the problem that can't accurately detect user near field environment temperature in the prior art.

To achieve these goals,, a kind of control system of air-conditioner is provided, has comprised according to an aspect of the utility model: checkout gear, be arranged on the remote controller of air-conditioner, be used to detect remote controller environment temperature on every side, obtain first temperature value; And control device, be arranged on the indoor machine of air-conditioner, be used to receive first temperature value, and control the operational factor of air-conditioner according to first temperature value.

Further, checkout gear comprises: first detecting unit, be used to detect remote controller environment temperature on every side, and obtain the analog quantity of first temperature value; And processing unit, be used for the analog quantity of first temperature value is converted into the digital quantity of first temperature value, and the digital quantity of first temperature value is sent to control device.

Further, processing unit comprises: first processing module, be connected with first detecting unit, and be used to receive the analog quantity of first temperature value, and convert the analog quantity of first temperature value digital quantity of first temperature value into; First transmitter module is connected with first processing module, is used for the digital quantity of first temperature value is sent to control device; And first receiver module; Be connected with first processing module; Be used to receive first instruction; Wherein, the instruction that first instruction is sent when invalid for the digital quantity of first temperature value confirming at control device to receive, and first instruction is used to indicate first processing module to receive the analog quantity of first temperature value again.

Further, control device comprises: second receiving element is used to receive first temperature value; Second processing unit is connected with second receiving element, is used to judge whether first temperature value is effective; And second transmitter unit, be connected with second processing unit, be used for when second processing unit judges that first temperature value is invalid, send first and instruct to checkout gear, wherein, first instruction is used to indicate checkout gear to detect the environment temperature around the remote controller again.

Further, control device also comprises: second detecting unit is connected with second processing unit; Be used to detect indoor set environment temperature on every side; Obtain second temperature value, wherein, second processing unit comprises: first comparison module; Be connected respectively with second detecting unit with second receiving element, be used for absolute value and the magnitude relationship of preset value of the difference of comparison first temperature value and second temperature value; And first judge module; Be connected with first comparison module; When the absolute value of the difference of first temperature value and second temperature value is less than or equal to preset value; Judge that first temperature value is effective, or during more than or equal to preset value, judge that first temperature value is invalid at the absolute value of the difference of first temperature value and second temperature value.

Further, control device also comprises: control module is connected with second processing unit; Wherein, second processing unit also comprises: second comparison module is connected respectively with control module with first judge module; Be used to receive effective first temperature value after first judge module is judged; And the size of the preset temperature value of more effective first temperature value and air-conditioner, during greater than preset temperature value, control module control air-conditioner strengthens refrigeration work consumption and/or fan speed at effective first temperature value; During less than preset temperature value, control module control air-conditioner reduces refrigeration work consumption and/or fan speed at effective first temperature value.

Further, checkout gear is connected through wireless mode with control device.

To achieve these goals,, a kind of checkout gear of air-conditioner is provided, has comprised according to another aspect of the utility model: detecting unit, be arranged on the remote controller, be used to detect remote controller environment temperature on every side, obtain first temperature value; And transmitting element, be used to send first temperature value to indoor machine of air-conditioner so that indoor machine of air-conditioner is controlled the operational factor of air-conditioner according to first temperature value.

To achieve these goals, another aspect according to the utility model provides a kind of remote controller, comprises the checkout gear of the air-conditioner that the utility model foregoing is provided.

To achieve these goals,, a kind of control device of air-conditioner is provided, has comprised according to another aspect of the utility model: receiving element, be arranged on the air-conditioner, be used to receive first temperature value, wherein, first temperature value is the environment temperature around the remote controller; And control module, be used for operational factor according to first temperature value control air-conditioner.

To achieve these goals, another aspect according to the utility model provides a kind of air-conditioner, comprises the control device of the air-conditioner that the utility model foregoing is provided, and wherein, control device is arranged on the indoor machine of air-conditioner.

Through the utility model, adopt the control system of the air-conditioner that comprises following structure, checkout gear is arranged on the remote controller of air-conditioner, is used to detect remote controller environment temperature on every side, obtains first temperature value; And control device, be arranged on the indoor machine of air-conditioner, be used to receive first temperature value, and control the operational factor of air-conditioner according to first temperature value.Usually; In air-conditioner system; Distance between remote controller and the user is nearest relatively, and the utility model detects the environment temperature around the remote controller through the checkout gear on the remote controller that is arranged on air-conditioner, has realized the accurate detection to user's near field environment temperature; Solved the problem that can't accurately detect user near field environment temperature; And then reached the deviation of the temperature that reduces detected environment temperature and user's environment of living in, and control the running status of air-conditioner with this, improve the effect of user's comfort.

Description of drawings

The accompanying drawing that constitutes the application's a part is used to provide the further understanding to the utility model, and illustrative examples of the utility model and explanation thereof are used to explain the utility model, do not constitute the improper qualification to the utility model.In the accompanying drawings:

Fig. 1 is the sketch map according to the control system of the utility model first embodiment;

Fig. 2 is the sketch map according to the control system of the utility model second embodiment;

Fig. 3 is the sketch map according to the control system of the utility model the 3rd embodiment;

Fig. 4 is the sketch map according to the control system of the utility model the 4th embodiment;

Fig. 5 is the circuit diagram according to the sensing circuit of the utility model the 4th embodiment;

Fig. 6 is the flow chart according to the control method of the utility model first embodiment;

Fig. 7 is the flow chart according to the control method of the utility model second embodiment;

Fig. 8 is the sensor signal process chart according to the utility model second embodiment;

Fig. 9 is the air-conditioner controller process chart according to the utility model second embodiment;

Figure 10 is the sketch map according to the checkout gear of the utility model embodiment; And

Figure 11 is the sketch map according to the control device of the utility model embodiment.

The specific embodiment

Need to prove that under the situation of not conflicting, embodiment and the characteristic among the embodiment among the application can make up each other.Below with reference to accompanying drawing and combine embodiment to specify the utility model.

Fig. 1 is the sketch map according to the control system of the utility model first embodiment, and is as shown in Figure 1, and the control system of this embodiment comprises: checkout gear 20 and control device 40.

Checkout gear 20 is arranged on the remote controller of air-conditioner, is used to detect remote controller environment temperature on every side, obtains first temperature value.

Control device 40 is arranged on the indoor machine of air-conditioner, is used to receive first temperature value, and controls the operational factor of air-conditioner according to first temperature value.

Usually; In air-conditioner system; Distance between remote controller and the user is nearest relatively, and the foregoing description detects the environment temperature around the remote controller through the checkout gear on the remote controller that is arranged on air-conditioner, has realized the accurate detection to user's near field environment temperature; Solved the problem that can't accurately detect user near field environment temperature; And then reached the deviation of the temperature that reduces detected environment temperature and user's environment of living in, and control the running status of air-conditioner with this, improve the effect of user's comfort.

Fig. 2 is the sketch map according to the control system of the utility model second embodiment; As shown in Figure 2, the control system of this embodiment comprises: checkout gear 20 and control device 40, wherein; Checkout gear 20 comprises: remote controller detecting unit 21 (that is first detecting unit 21) and processing unit 22.

Remote controller detecting unit 21 is used to detect remote controller environment temperature on every side, obtains the analog quantity of first temperature value.

Processing unit 22 is connected with first detecting unit 21, is used for the analog quantity of first temperature value is converted into the digital quantity of first temperature value, and the digital quantity of first temperature value is sent to control device 40.

Wherein, processing unit 22 comprises: first processing module, first transmitter module and first receiver module.First processing module is connected with detecting unit 21, is used to receive the analog quantity of first temperature value, and converts the analog quantity of first temperature value digital quantity of first temperature value into; First transmitter module is connected with first processing module, is used for the digital quantity of first temperature value is sent to control device; And first receiver module; Be connected with first processing module; Be used to receive first instruction; Wherein, the instruction that first instruction is sent when invalid for the digital quantity of first temperature value confirming at control device to receive, and first instruction is used to indicate first processing module to receive the analog quantity of first temperature value again.

Particularly, that the communication modes of first transmitter module and first receiver module and control device 40 can comprise is infrared, bluetooth and RF transmission means, and communication can be that single file also can be two-way.

Among this embodiment,, realized user near field temperature is detected through first detecting unit 21 is arranged on the remote controller; Digital quantity through after 22 conversions of 40 pairs of processing units of control device is confirmed, has guaranteed the accuracy of detected user near field temperature.

Fig. 3 is the sketch map according to the control system of the utility model the 3rd embodiment; As shown in Figure 3; The control system of this embodiment comprises: checkout gear 20 and control device 40, wherein, control device 40 comprises: second receiving element 41, second processing unit 42 and second transmitter unit 43.

Second receiving element 41 is used to receive first temperature value.

Second processing unit 42 is connected with second receiving element 41, is used to judge whether first temperature value is effective.

Second transmitter unit 43; Be connected with second processing unit 42, be used for when second processing unit 42 judges that first temperature value is invalid, sending first and instructing to checkout gear 20; Wherein, first instruction is used to indicate checkout gear 20 to detect remote controller environment temperature on every side again.

Wherein, control device 40 also comprises: air-conditioner detecting unit (that is second detecting unit); Be connected with second processing unit 42, be used to detect indoor set environment temperature on every side, obtain second temperature value; Second processing unit 42 comprises: first comparison module and first judge module; First comparison module is connected respectively with the air-conditioner detecting unit with second receiving element 41, is used for absolute value and the magnitude relationship of preset value of the difference of comparison first temperature value and second temperature value; First judge module; Be connected with first comparison module; When the absolute value of the difference of first temperature value and second temperature value is less than or equal to preset value; Judge that first temperature value is effective, or during more than or equal to preset value, judge that first temperature value is invalid at the absolute value of the difference of first temperature value and second temperature value.

Control device 40 also comprises: control module is connected with second processing unit 42, wherein; Second processing unit 42 also comprises: second comparison module; Be connected respectively with control module with first judge module, be used to receive effective first temperature value after first judge module is judged, and the size of the preset temperature value of more effective first temperature value and air-conditioner; At effective first temperature value during greater than preset temperature value; Control module control air-conditioner strengthens refrigeration work consumption and/or fan speed, and during less than preset temperature value, control module control air-conditioner reduces refrigeration work consumption and/or fan speed at effective first temperature value.

Particularly; That the communication modes of second receiver module and second transmitter module and checkout gear 20 can comprise is infrared, bluetooth and RF transmission means; Communication can be unidirectional also can be two-way, checkout gear 20 comprises the checkout gear of the utility model first embodiment and the checkout gear of the utility model second embodiment.

Among this embodiment, compare,, realized the effect of accurate adjusting air-conditioner operational factor correspondingly to strengthen or to reduce refrigeration work consumption and/or raising or reduce rotation speed of fan through set temperature value with effective first temperature value and air-conditioner.

Fig. 4 is the sketch map according to the control system of the utility model the 4th embodiment; As shown in Figure 4; The control system of this embodiment comprises 3 modules: human body near field temperature detecting module, sensing signal processing module and air-conditioner controller processing module; Human body near field temperature detecting module among this embodiment and sensing signal processing module are combined into the checkout gear 20 among the utility model first embodiment, second embodiment and the 3rd embodiment, and the air-conditioner controller processing module among this embodiment is equal to the control device 40 among the utility model first embodiment, second embodiment and the 3rd embodiment.

Wherein, human body near field temperature detecting module is arranged on the remote controller, and this module mainly utilizes the temperature sensing circuit that is installed on the remote controller to realize that environment temperature detects.As shown in Figure 5, Fig. 5 is the circuit diagram according to the sensing circuit of this embodiment, and sensing circuit mainly comprises the thermistor RT that resistance changes with environment temperature; Protection diode D1 and D2; Capacitor C 1 and precision resister R1, the first termination voltage VDD of this sensing circuit; The second end ground connection, the 3rd end output AD sampled voltage.

Because remote controller is nearer from the user, the actual residing environment temperature basically identical of temperature that temperature sensor detects and user, thereby the accuracy of assurance whole human body near field temperature sense system acquisition data.

Sensing signal processing module is arranged on the remote controller equally, comprising: transducing signal radiating circuit, remote control microprocessor and transducing signal receiving circuit.Remote control microprocessor is obtained the data that sensing circuit collects, and image data is handled, and the data after handling are issued air-conditioner controller.The signal emission comprises transmission means such as infrared ray, bluetooth, RF, and communication mode can be unidirectional or two-way, and system can design according to actual environment for use.

The air-conditioner controller processing module comprises the air-conditioner controller receiving circuit, air-conditioner controller radiating circuit, room temperature testing circuit, control circuit.Air-conditioner controller detects temperature data with air-conditioning internal machine and compares after receiving the human body near field temperature data of remote controller emission, if both deviations less than 5 ℃, then confirm it is valid data; If deviation range greater than 5 ℃ (this deviate can be adjusted according to actual conditions), is then thought invalid data, require remote controller to resend data.

After air-conditioner controller obtains valid data, compressor is controlled.If human body near field temperature is higher than user's design temperature, then strengthen refrigeration work consumption; If human body near field temperature is lower than design temperature, then reduce refrigeration work consumption.Make it to meet user's expectation, improve comfort.

The utility model embodiment also provides a kind of control method of air-conditioner, and the control method of this air-conditioner can provide any control system to carry out through the foregoing of the utility model embodiment.

Fig. 6 is the flow chart according to the control method of the utility model first embodiment, and is as shown in Figure 6, and this is that the control method of embodiment comprises step S602 and S604.

S602: detect remote controller environment temperature on every side, obtain first temperature value.

S604: according to the operational factor of first temperature value control air-conditioner.

Particularly; Detect remote controller environment temperature on every side; Obtaining first temperature value comprises: detect remote controller environment temperature on every side; Obtain the analog quantity of first temperature value, and convert the analog quantity of first temperature value digital quantity of first temperature value into, comprise: according to the operational factor of the digital quantity control air-conditioner of first temperature value according to the operational factor of first temperature value control air-conditioner.

Preferably, before controlling the operational factor of air-conditioner according to the digital quantity of first temperature value, above-mentioned control method also comprises: whether the digital quantity of judging first temperature value is effective; And when the digital quantity of confirming first temperature value is invalid, obtain the analog quantity of first temperature value again.

Particularly, judge in the following manner whether the digital quantity of first temperature value is effective: detect indoor set environment temperature on every side, obtain second temperature value; The absolute value of the difference of comparison first temperature value and second temperature value and the magnitude relationship of preset value; And when the absolute value of the difference of first temperature value and second temperature value is less than or equal to preset value, judge that first temperature value is effective, during more than or equal to preset value, judge that first temperature value is invalid at the absolute value of the difference of first temperature value and second temperature value.

Before the operational factor of air-conditioner being controlled according to the digital quantity of first temperature value, whether judge through validity the digital quantity of first temperature value, guaranteed the accuracy that the operational factor of air-conditioner is controlled.

Preferably, after judging that first temperature value effectively, above-mentioned control method also comprises: the size of the preset temperature value of more effective first temperature value and air-conditioner; And at effective first temperature value during greater than preset temperature value, the control air-conditioner strengthens refrigeration work consumption and/or improves rotation speed of fan, and during less than preset temperature value, the control air-conditioner reduces refrigeration work consumption and/or reduces rotation speed of fan at effective first temperature value.

Set temperature value through with effective first temperature value and air-conditioner compares, and correspondingly to strengthen or to reduce refrigeration work consumption and/or raising or reduce rotation speed of fan, has realized the effect of accurate adjusting air-conditioner operational factor.

Fig. 7 is the flow chart according to the control method of the utility model second embodiment; As shown in Figure 7; The control method of this embodiment comprises: human body near field temperature sensor detects user near field temperature, and detection signal is sent to the remote controller processing, to convert near field temperature simulation amount into digital quantity; Remote controller sends to the air-conditioner controller processing with the digital quantity signal of near field temperature, and air-conditioner controller detects temperature data with air-conditioning internal machine and compares after receiving the human body near field temperature data of remote controller emission; If both deviations are less than 5 ℃; Then confirm it is valid data, air-conditioner controller sends answer signal to remote controller, has received valid data with expression; And with this valid data generation control signal corresponding, to regulate indoor environment temperature; If deviation range greater than 5 ℃ (this deviate can be adjusted according to actual conditions), is then thought invalid data, require remote controller to resend data.Wherein, Remote controller receives the detection signal of sensing circuit; And it is as shown in Figure 8 that detection signal is sent to the transducing signal handling process of air-conditioner controller; Fig. 8 is the sensor signal process chart according to this embodiment, and the signal that air-conditioner controller reception remote controller sends is also as shown in Figure 9 to its concrete handling process of handling, and Fig. 9 is the air-conditioner controller process chart according to this embodiment.

The utility model embodiment also provides a kind of checkout gear of air-conditioner, and the checkout gear of this air-conditioner can be used as the part of the remote controller of air-conditioner.

Figure 10 is the sketch map according to the checkout gear of the utility model embodiment; The method that the control method of any air-conditioner that foregoing provided of the utility model embodiment of being used for the checkout gear of this embodiment carrying out detects the environment temperature around the remote controller; Shown in figure 10, the checkout gear of this embodiment comprises detecting unit 10 and transmitting element 30.

Detecting unit 10 is arranged on the remote controller, is used to detect remote controller environment temperature on every side, obtains first temperature value.

Transmitting element 30 is used to send first temperature value to indoor machine of air-conditioner so that indoor machine of air-conditioner is controlled the operational factor of air-conditioner according to first temperature value.

Through detecting unit 10 is set, realized to detect the effect of user near field temperature on remote controller; And the data that detect gained can outwards be sent through sending module 30.

The utility model embodiment also provides a kind of control device of air-conditioner, and the part that the control device of this air-conditioner can be used as air-conditioner is arranged on the indoor machine of air-conditioner.

Figure 11 is the sketch map according to the control device of the utility model embodiment; The control method that the control device of this embodiment is used for carrying out any air-conditioner that the utility model embodiment foregoing provided detects and controls the method for indoor set operation to the environment temperature around the indoor set; Shown in figure 11, the control device of this embodiment comprises receiving element 11 and control module 13.

Receiving element 11 is arranged on the air conditioner room unit, is used to receive first temperature value, and wherein, first temperature value is the environment temperature around the remote controller.

Control module 13 is used for the operational factor according to first temperature value control air-conditioner.

Through receiving element 11 is set on air conditioner room unit to receive remote controller first temperature value on every side; And, reached the effect of accurately controlling the air-conditioner operational factor based on user near field temperature through the operational factor of control module 13 according to first temperature value control air-conditioner.

The preferred embodiment that the above is merely the utility model is not limited to the utility model, and for a person skilled in the art, the utility model can have various changes and variation.All within the spirit and principle of the utility model, any modification of being done, be equal to replacement, improvement etc., all should be included within the protection domain of the utility model.

Claims

1. the control system of an air-conditioner is characterized in that, comprising:

Checkout gear is arranged on the remote controller of air-conditioner, is used to detect said remote controller environment temperature on every side, obtains first temperature value; And

Control device is arranged on the said indoor machine of air-conditioner, is used to receive said first temperature value, and controls the operational factor of said air-conditioner according to said first temperature value.

2. control according to claim 1 system is characterized in that said checkout gear comprises:

First detecting unit is used to detect said remote controller environment temperature on every side, obtains the analog quantity of said first temperature value; And

Processing unit is used for the analog quantity of said first temperature value is converted into the digital quantity of said first temperature value, and the digital quantity of said first temperature value is sent to said control device.

3. control according to claim 2 system is characterized in that said processing unit comprises:

First processing module is connected with said first detecting unit, is used to receive the analog quantity of said first temperature value, and converts the analog quantity of said first temperature value digital quantity of said first temperature value into;

First transmitter module is connected with said first processing module, is used for the digital quantity of said first temperature value is sent to said control device; And

First receiver module; Be connected with said first processing module; Be used to receive first instruction; Wherein, the instruction that said first instruction is sent when invalid for the digital quantity of said first temperature value confirming at said control device to receive, and said first instruction is used to indicate said first processing module to receive the analog quantity of said first temperature value again.

4. control according to claim 1 system is characterized in that said control device comprises:

Second receiving element is used to receive said first temperature value;

Second processing unit is connected with said second receiving element, is used to judge whether said first temperature value is effective; And

Second transmitter unit; Be connected with said second processing unit; Be used for when said second processing unit judges that said first temperature value is invalid; Send first instruction to the said checkout gear, wherein, said first instruction is used to indicate said checkout gear to detect said remote controller environment temperature on every side again.

5. control according to claim 4 system is characterized in that said control device also comprises: second detecting unit; Be connected with said second processing unit, be used to detect said indoor set environment temperature on every side, obtain second temperature value; Wherein, said second processing unit comprises:

First comparison module is connected respectively with said second detecting unit with said second receiving element, is used for absolute value and the magnitude relationship of preset value of the difference of more said first temperature value and said second temperature value; And

First judge module; Be connected with said first comparison module; At the absolute value of the difference of said first temperature value and said second temperature value during less than said preset value; Judge that said first temperature value is effective, or during more than or equal to said preset value, judge that said first temperature value is invalid at the absolute value of the difference of said first temperature value and said second temperature value.

6. control according to claim 5 system is characterized in that said control device also comprises: control module, be connected with said second processing unit, and wherein, said second processing unit also comprises:

Second comparison module; Be connected respectively with said control module with said first judge module; Be used to receive effective first temperature value after said first judge module is judged; And the size of the preset temperature value of more said effective first temperature value and said air-conditioner, during greater than said preset temperature value, said control module is controlled said air-conditioner and is strengthened refrigeration work consumption and/or improve rotation speed of fan at said effective first temperature value; During less than said preset temperature value, said control module is controlled said air-conditioner and is reduced refrigeration work consumption and/or reduce rotation speed of fan at said effective first temperature value.

7. control according to claim 1 system is characterized in that said checkout gear is connected through wireless mode with said control device.

8. the checkout gear of an air-conditioner is characterized in that, comprising:

Detecting unit is arranged on the remote controller, is used to detect said remote controller environment temperature on every side, obtains first temperature value; And

Transmitting element, be used to send said first temperature value to indoor machine of air-conditioner so that said indoor machine of air-conditioner is controlled the operational factor of said air-conditioner according to said first temperature value.

9. the control device of an air-conditioner is characterized in that, comprising:

Receiving element is arranged on the air-conditioner, is used to receive first temperature value, and wherein, said first temperature value is the environment temperature around the said remote controller; And

Control module is used for controlling according to said first temperature value operational factor of said air-conditioner.

10. the remote controller of an air-conditioner is characterized in that, comprises the checkout gear of the described air-conditioner of claim 8.

11. an air-conditioner is characterized in that, comprises the control device of the described air-conditioner of claim 9, wherein, said control device is arranged on the said indoor machine of air-conditioner.