Disclosure of Invention
The invention aims to solve the technical problem of providing an air guide door control system, which can judge that a specific area of an indoor space needs to supply air when an air guide door supplies air, and enable the air guide door to supply air towards the area needing to supply air, thereby avoiding large temperature difference of the indoor space and ensuring uniform temperature of the indoor space.
To solve the above technical problem, the air guide door control system of the present invention comprises
The temperature detection module comprises a plurality of temperature sensors arranged in the indoor space, the plurality of temperature sensors carry position information and are used for detecting the temperature of each area in the indoor space and transmitting temperature data to the signal processing and control module;
the driving component is used for receiving the control signal and driving the air guide door to close, freely swing or rotate to a specified direction;
the signal processing and control module is electrically connected with the temperature detection module and the driving part and is used for receiving and processing the temperature data of the temperature detection module, acquiring the position information of each temperature sensor and generating a control signal to be transmitted to the driving part;
and the driving part receives the control signal and then drives the air guide door to close, freely swing or rotate to a specified direction.
A plurality of temperature sensors are mounted within the air delivery area of the air guide door. The blowing area is defined as: in the indoor space, the respective extreme positions of the air conditioning damper designate the zones between the directions.
In the control method of the air guide door control system,
when the temperature sensor operates under the refrigeration condition, the temperature sensors correspondingly detect the temperature of each area in the indoor space and transmit the temperature data to the signal processing and control module, and the signal processing and control module receives and analyzes the temperature data to obtain the maximum temperature T in the temperature sensorsmaxAnd is matched with the preset value T of the air conditioner0By comparison, the process of the first and second steps,
when T ismax<T0When in use, the signal processing and control module generates a signal for closing the air guide door to the driving part,
when T ismax≥T0When the temperature of the air guide door reaches the maximum temperature T, the signal processing and control module generates a signal to drive the air guide door to rotate to the maximum temperature TmaxSignals of sensor position direction; the above process is repeated.
When the temperature sensor operates under the heating condition, the temperature sensors correspondingly detect the temperature of each area in the indoor space and transmit the temperature data to the signal processing and control module, and the signal processing and control module receives and analyzes the temperature data to obtain the minimum temperature value T in the temperature sensorsminAnd is combined with the preset value of the air conditionerT0By comparison, the process of the first and second steps,
when T ismin≥T0When in use, the signal processing and control module generates a signal for closing the air guide door to the driving part,
when T ismin<T0When the temperature of the air guide door reaches the minimum value T, the signal processing and control module generates a signal to drive the air guide door to rotate to the minimum value TminSignals of sensor position direction; the above process is repeated.
After adopting above-mentioned structure, have following advantage: because temperature sensor carries positional information, can provide temperature sensor's specific positional information to signal processing and control module, like this, when judging need to supply air to certain temperature sensor direction, can control the direction air supply that the air guide door can the pertinence rotate to orientation temperature sensor to the temperature of avoiding the interior space differs great, guarantees that the temperature of interior space is even.
The invention also provides an air conditioner, which comprises a plurality of air guide doors, a plurality of air guide door control systems and a processor, wherein the processor is used for receiving and processing data of the air guide door control systems, each air guide door is correspondingly and electrically connected with one air guide door control system, and the processor is electrically connected with the air guide door control systems.
The plurality of air guide doors are arranged on the same panel of the air conditioner. Of course, a plurality of the above-described air guide doors may be provided on a plurality of panels of the air conditioner, and the panels of the air conditioner may be oriented in different directions.
In the control method of the air conditioner, if the air conditioner is operated under the cooling condition,
a plurality of temperature sensors in each air guide door control system independently detect the temperature of each area in the indoor space,
the temperature data is transmitted to respective signal processing and control modules,
the processor obtains the maximum value T of the temperature detected in each air guide door control systemmaxData; specifically, the processor obtains the maximum temperature T detected in each air guide door control systemmaxThe data includes: respective signal processing andthe control module receives and analyzes the temperature data to obtain a maximum temperature value T among the plurality of temperature sensorsmaxThe signal processing and control module processes the maximum temperature TmaxThe data is transmitted to the processor.
The processor controls the maximum value T of the temperature detected in each air guide door control systemmaxAnd the preset value T of the air conditioner0Comparing, wherein if a plurality of maximum temperature values T detected in the air guide door control systemmaxAre all less than the preset value T of the air conditioner0At a plurality of temperature maximum values TmaxThe air guide door control system corresponding to the maximum median value controls the corresponding air guide door to swing freely, and the rest air guide doors are closed; if the maximum temperature T detected in a plurality of air guide door control systemsmaxAre all equal and are all less than the preset value T of the air conditioner0When the air guide door is opened, the air guide door positioned at the top in the plurality of air guide doors swings freely, and the rest air guide doors are closed; if the maximum value T of the detected temperature in a plurality of air guide door control systemsmaxAt least one of the air conditioner preset values T is more than or equal to0When the air guide door control systems operate independently;
if the air conditioner is operated under the heating condition,
a plurality of temperature sensors in each air guide door control system independently detect the temperature of each area in the indoor space,
the temperature data is transmitted to respective signal processing and control modules,
the processor obtains the minimum value T of the temperature detected in each air guide door control systemminData, in particular, the processor obtains the maximum value T of the temperature detected in each air guide door control systemmaxThe data includes: the respective signal processing and control modules receive and analyze the temperature data to obtain the minimum temperature value T of the plurality of temperature sensorsminThe signal processing and control module is used for processing the minimum temperature TminThe data is transmitted to the processor.
The processor detects the minimum value T of the temperature in each air guide door control systemminAnd the preset value T of the air conditioner0Comparing, wherein if detected in a plurality of air guide door control systemsMinimum value of temperature TminAre all greater than the preset value T of the air conditioner0At a plurality of temperature minima TminThe air guide door control system corresponding to the minimum median value controls the corresponding air guide door to swing freely, and the rest air guide doors are closed; if the minimum temperature T detected in a plurality of air guide door control systemsminAre all equal and are all larger than the preset value T of the air conditioner0When the air guide door is opened, the air guide door positioned at the lowest position in the plurality of air guide doors swings freely, and the rest air guide doors are closed; if the detected temperature minimum value T in a plurality of air guide door control systemsminAt least one of the air conditioner preset values T is less than or equal to0And meanwhile, each air guide door control system operates independently.
The independent operation of each air guide door control system refers to the operation of the air guide door control system according to the operation mode of a single air guide door control system.
The air conditioner has the following advantages: owing to have a plurality of air guide door to can be simultaneously toward the direction air supply of difference, the air supply dead angle problem that exists when effectively avoiding single air guide door, and have a plurality of foretell air guide door control system, a plurality of air guide door control system work of working in unison together, reach energy-conserving effect, and effectively carry out air supply control according to indoor temperature, thereby further avoid the temperature of interior space to differ great, guarantee that the temperature of interior space is even, improve human use travelling comfort.
Detailed Description
The inventive concepts of the present disclosure will be described hereinafter using terms commonly employed by those skilled in the art to convey the substance of their work to others skilled in the art. These inventive concepts may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. These embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of their inclusion to those skilled in the art. It should also be noted that these embodiments are not mutually exclusive. A component, step, or element from one embodiment may be assumed to be present or used in another embodiment. The particular embodiments shown and described may be substituted for a wide variety of alternate and/or equivalent implementations without departing from the scope of the embodiments of the present disclosure. This application is intended to cover any adaptations or variations of the embodiments discussed herein. It will be apparent to those skilled in the art that alternative embodiments may be practiced using only some of the described aspects. Specific numbers, materials, and configurations are set forth in the examples for the purpose of illustration, however, alternative examples may be practiced by those skilled in the art without these specific details. In other instances, well-known features may be omitted or simplified in order not to obscure the illustrative embodiments.
Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.
In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "provided", "mounted", "connected" and "connected" are to be interpreted broadly, e.g., as being either fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.
Referring to fig. 1-6, in one embodiment, an air deflection door control system includes
The temperature detection module comprises 3 temperature sensors arranged in the indoor space, namely a first temperature sensor, a second temperature sensor and a third temperature sensor, wherein the 3 temperature sensors carry position information and are used for detecting the temperature of each area in the indoor space and transmitting temperature data to the signal processing and control module;
preferably, 3 temperature sensors are installed in the air supply area of the air guide door. The blowing area is defined as: in the indoor space, the respective extreme positions of the air conditioning damper designate the zones between the directions. Specifically, a first temperature sensor is installed on a wall of the air conditioner air guide door in the upward limit position designated direction, a second temperature sensor is installed on a wall of the air conditioner air guide door in the downward limit position designated direction, and a third temperature sensor is installed on a wall in a space between the upward limit position designated direction and the downward limit position designated direction of the air conditioner air guide door. Of course, the multifunctional desk can also be arranged at a desk, a bed board or a chair and the like, and the selection can be carried out according to specific conditions.
The driving component is used for receiving the control signal and driving the air guide door to close, freely swing or rotate to a specified direction;
the signal processing and control module is electrically connected with the temperature detection module and the driving part and is used for receiving and processing the temperature data of the temperature detection module, acquiring the position information of each temperature sensor and generating a control signal to be transmitted to the driving part;
and the driving part receives the control signal and then drives the air guide door to close, freely swing or rotate to a specified direction.
In the control method of the air guide door control system,
when the temperature sensor works under the refrigeration condition, the 3 temperature sensors correspondingly detect the temperature of the area where the 3 temperature sensors are located in the indoor space and transmit the temperature data to the signal processing and control module, and the signal processing and control module receives the temperature data and analyzes the temperature data so as to obtain the maximum temperature T among the 3 temperature sensorsmaxAnd is matched with the preset value T of the air conditioner0By comparison, the process of the first and second steps,
when T ismax<T0When in use, the signal processing and control module generates a signal for closing the air guide door to the driving part,
when T ismax≥T0When the temperature of the air guide door reaches the maximum temperature T, the signal processing and control module generates a signal to drive the air guide door to rotate to the maximum temperature TmaxSignals of sensor position direction; and circulating the above processes.
When the temperature sensor operates under the heating condition, the 3 temperature sensors correspondingly detect the temperature of each area in the indoor space and transmit the temperature data to the signal processing and control module, and the signal processing and control module receives and analyzes the temperature data to obtain the minimum temperature value T in the 3 temperature sensorsminAnd is matched with the preset value T of the air conditioner0By comparison, the process of the first and second steps,
when T ismin≥T0When in use, the signal processing and control module generates a signal for closing the air guide door to the driving part,
when T ismin<T0When the temperature of the air guide door reaches the minimum value T, the signal processing and control module generates a signal to drive the air guide door to rotate to the minimum value TminSignals of sensor position direction; and circulating the above processes.
Because temperature sensor carries positional information, can provide temperature sensor's specific positional information to signal processing and control module, like this, when judging need to supply air to certain temperature sensor direction, can control the direction air supply that the air guide door can the pertinence rotate to orientation temperature sensor to the temperature of avoiding the interior space differs great, guarantees that the temperature of interior space is even.
The above embodiment describes the case of 3 sensors, and of course, the air guide door control system may include 2, 4, 5, etc. sensors, and the operation is similar to the case of 3 sensors.
The air guide door control system can be applied to temperature adjusting equipment such as an air conditioner.
In another embodiment, an air conditioner includes 3 air guide doors, which are respectively a first air guide door 1, a second air guide door 2 and a third air guide door 3, wherein the 3 air guide door control systems are respectively a first air guide door control system, a second air guide door control system and a third air guide door control system, and a processor for receiving and processing data of the air guide door control systems, each air guide door is correspondingly electrically connected with one air guide door control system, and the processor is electrically connected with all the 3 air guide door control systems;
and 3 air guide doors are arranged on the same panel 4 of the air conditioner. Of course, 3 of the above-described air guide doors may be provided on a plurality of panels of the air conditioner, and the panels of the air conditioner may be oriented in different directions.
In the control method of the air conditioner, if the air conditioner is operated under the cooling condition,
a plurality of temperature sensors in each air guide door control system independently detect the temperature of each area in the indoor space,
the temperature data is transmitted to respective signal processing and control modules,
the processor obtains the maximum value T of the temperature detected in each air guide door control systemmaxData (including the maximum value of temperature T detected by the first air guide door control system)1maxAnd the maximum temperature T detected by the second air guide door control system2maxAnd the maximum temperature T detected by the third air guide door control system3max);
The processor controls the maximum value T of the temperature detected in each air guide door control systemmaxAnd the preset value T of the air conditioner0Comparing, wherein if a plurality of maximum temperature values T detected in the air guide door control systemmaxAre all less than the preset value T of the air conditioner0At a plurality of temperature maximum values TmaxThe air guide door control system corresponding to the maximum median value controls the corresponding air guide door to swing freely, and the rest air guide doors are closed; if the maximum temperature T detected in a plurality of air guide door control systemsmaxAre all equal and are all less than the preset value T of the air conditioner0When the air guide door is closed, the air guide door positioned at the uppermost position in the plurality of air guide doors swings freely, and the rest air guide doors are closed.
For example,
when T is1max<T2maxAnd T1max<T3maxThe first air guide door is closed (then T is judged)2maxAnd T3max(ii) a If T2max<T3maxWhen the second air guide door is closed, the third air guide door swings freely; otherwise, the third air guide door is closed, and the second air guide door swings freely; ) (ii) a
When T is2max<T1maxAnd T2max<T3maxClosing the second air guide door (then judging T)1maxAnd T3max(ii) a If T1max<T3maxWhen the first air guide door is closed, the third air guide door swings freely; otherwise, the third air guide door is closed, and the first air guide door swings freely);
when T is3max<T2maxAnd T3max<T1maxThe third air guide door is closed (then T is judged)1maxAnd T2max(ii) a If T2max<T1maxWhen the first air guide door is closed, the second air guide door swings freely; otherwise, the second air guide door is closed, and the first air guide door swings freely);
if the maximum value T of the detected temperature in a plurality of air guide door control systemsmaxAt least one of the air conditioner preset values T is more than or equal to0When the air guide door control systems operate independently; the air guide door control system operates independently, namely operates according to the operating state of a single air guide door control system.
If the air conditioner is operated under the heating condition,
a plurality of temperature sensors in each air guide door control system independently detect the temperature of each area in the indoor space,
the temperature data is transmitted to respective signal processing and control modules,
the processor obtains the minimum value T of the temperature detected in each air guide door control systemminData (including the minimum value of temperature T detected by the first air guide door control system)1minAnd the minimum temperature T detected by the second air guide door control system2minAnd the minimum temperature T detected by the third air guide door control system3min),
The processor detects the minimum value T of the temperature in each air guide door control systemminAnd the preset value T of the air conditioner0Comparing, wherein if a plurality of the air guide door control systems detect the minimum value T of the temperatureminAre all greater than the preset value T of the air conditioner0At a plurality of temperature minima TminThe air guide door control system corresponding to the minimum median value controls the corresponding air guide door to swing freely, and the rest air guide doors are closed; if the minimum temperature T detected in a plurality of air guide door control systemsminAre all equal and are all larger than the preset value T of the air conditioner0And when the air guide door is closed, the air guide door positioned at the lowest position in the plurality of air guide doors freely swings, and the rest air guide doors are closed.
For example
When T is1min≥T2minAnd T1min≥T3minThe first air guide door is closed (then T is judged)2minAnd T3min(ii) a If T2min≥T3minWhen the second air guide door is closed, the third air guide door swings freely; otherwise, the third air guide door is closed, and the second air guide door swings freely; ) (ii) a
When T is2min≥T1minAnd T2min≥T3minClosing the second air guide door (then judging T)1minAnd T3min(ii) a If T1min≥T3minWhen the first air guide door is closed, the third air guide door swings freely; otherwise, the third air guide door is closed, and the first air guide door swings freely);
when T is3min≥T1minAnd T3min≥T2minThe third air guide door is closed (then T is judged)1minAnd T2min(ii) a If T1min≥T2minWhen the first air guide door is closed, the second air guide door swings freely; otherwise, the second air guide door is closed, and the first air guide door swings freely);
if the detected temperature minimum value T in a plurality of air guide door control systemsminAt least one of the air conditioner preset values T is less than or equal to0And meanwhile, each air guide door control system operates independently. The air guide door control system operates independently, namely operates according to the operating state of a single air guide door control system.
The above embodiment describes the case when the air conditioner has 3 air guiding door control systems, and of course, the air conditioner may include 2, 4, 5, etc. air guiding door control systems, and the operation is similar to the case when there are 3 air guiding door control systems.
The above description is only a preferred embodiment of the present invention, and it should not be understood that the scope of the present invention is limited thereby, and it should be understood by those skilled in the art that various other modifications and equivalent arrangements can be made by applying the technical solutions and concepts of the present invention within the scope of the present invention as defined in the appended claims.