CN113719985A - Power supply method of air conditioner wire controller - Google Patents

Abstract

The invention discloses a power supply method of an air conditioner wire controller, which belongs to the technical field of air conditioner wire controllers and solves the problems that the power supply control mode can not achieve an intelligent effect, and people walk back and forth to start the air conditioner, the existing wire controller power supply method can not intelligently start the air conditioner, so that the user experience can not be improved, and a better use effect can be achieved, various data are collected through a data collection module, corresponding numerical values are collected and then are processed by a data processing module, the processed values are compared with the internal interval of a threshold terminal, the operation mode of an intelligent system is confirmed through comparison results, the intelligent system is divided into three operation modes, namely zero energy consumption, low energy consumption and high energy consumption, different modes are started aiming at different room numerical values, the electric power energy can be effectively saved, and the intelligent system can better adapt to indoor people, the indoor personnel can obtain a better use experience.

Description

Power supply method of air conditioner wire controller

Technical Field

The invention belongs to the technical field of air conditioner wire controllers, and particularly relates to a power supply method of an air conditioner wire controller.

Background

When the existing air conditioner wire controller supplies power, the specified wire controller is generally only arranged in a certain indoor area, and the control of the partitioned air conditioner is completed by controlling the partitioned air conditioner in a power supply mode between the wire controller and the partitioned air conditioner;

this kind of power supply control mode can't reach the effect of an intelligence, and personnel make a round trip to walk and open the air conditioner also very troublesome, and current drive-by-wire ware power supply method can not carry out intelligent start to the air conditioner, just can't improve user experience, reaches better result of use.

Disclosure of Invention

In order to solve the problems existing in the scheme, the invention provides a power supply method of an air conditioner wire controller.

The purpose of the invention can be realized by the following technical scheme: the power supply method of the air conditioner wire controller comprises the following steps:

step S1, the intelligent system starts automatically by sensing personnel, the wire controller is connected with the air conditioner for power supply, and the equipment is started automatically;

step S2, the room temperature can be automatically changed by manually regulating and controlling the line controller, the intelligent system controls the data acquisition module, acquires various data and transmits the acquired data to the inside of the data processing module for processing;

step S3, comparing the processed numerical value with the internal interval value of the threshold terminal, directly transmitting the comparison information to the inside of the intelligent system, and adjusting the running state by the intelligent system according to the comparison information so as to change the energy loss of the whole air conditioning system;

and S4, supplying power to the wire controller according to the adjusted running state of the intelligent system, connecting corresponding equipment, and controlling the running of the equipment according to a power supply instruction.

Preferably, in the step S1, the sensing of the person is performed by an external sensing device, the sensing device is disposed at the door lock, and the sensing device is wirelessly connected to the intelligent system; when the intelligent system starts by itself, power needs to be supplied to the wire controller, and whether the wire controller is in a power receiving state or not is checked.

Preferably, the various data in step S2 include an indoor time, an outdoor time, and an air conditioner on time.

Preferably, in step S2, the data processing module includes a numerical comparison unit therein, and the step of processing the acquired data by the data processing module is as follows:

step SS1, marking the room entering time as Tr, the room exiting time as Tc, and the air conditioner starting time as Ts, wherein the time unit is minutes, and the hour time is converted into the clock time;

step SS2, adopting calculation formula

Calculating to obtain an opening value Cq, wherein C1, C2 and C3 are all preset fixed coefficient factors, and Cq is less than or equal to 1;

the comparison method in step S3 is as follows:

step SS3, comparing the calculated opening value Cq with a threshold value interval in a threshold value terminal by a numerical value comparison unit, and setting the threshold value terminal internal interval value as [0, 1 ];

step SS31, when Cq =0, the data processing module transmits a zero energy consumption instruction to the inside of the intelligent system, and the intelligent system starts a zero energy consumption mode;

step SS32, when Cq is more than 0 and less than 0.4, the data processing module transmits a low-energy-consumption instruction to the intelligent system, and the intelligent system starts a low-energy-consumption mode;

and SS33, when Cq is more than or equal to 0.4 and less than or equal to 1, the data processing module transmits a high energy consumption instruction to the inside of the intelligent system, and the intelligent system receives the instruction and starts a high energy consumption mode.

Preferably, in step SS1, the intelligent system performs a difference confirmation process on the room entering time stamp Tr and the room exiting time Tc in advance, compares the difference with a preset value for 60min, confirms that the difference exceeds the preset value, performs subsequent calculation, and stops operating the intelligent system if the difference does not exceed the preset value.

Preferably, the power supply method is operated by a power supply system, and the power supply system comprises a data acquisition module, a data processing module, a threshold terminal, an intelligent system, an induction device, a manual regulation and control module, a power supply module and an intelligent control module.

Preferably, the intelligent system comprises a temperature sensing module and a WIFI module, the temperature sensing module can sense indoor temperature, and the WIFI module is in wireless connection with an external mobile terminal.

Preferably, the manual regulation and control module is electrically connected with the wire controller, and the running state of the air conditioner equipment can be controlled by supplying power through the wire controller.

Preferably, after receiving the instruction signal, the power supply module may schedule the power data, and directly transmit the power data to the matched air conditioner, so that the air conditioner starts to operate, and the power supply module schedules the power in the following manner:

step W1, matching the corresponding air conditioning equipment with the corresponding door lock sensing equipment, directly transmitting the matching information to an intelligent system, and recording the corresponding matching information by the intelligent system;

and step W2, after receiving the induction signal, the corresponding door lock induction equipment confirms the operation mode of the intelligent system, directly transmits the instruction to the power supply module, and the power supply module supplies power through the wire controller according to the power supply signal, opens the specified split air conditioning equipment and performs indoor refrigeration.

Preferably, the high energy consumption mode is divided into a high energy consumption output node and a stable output node, the high energy consumption output node is output in advance, and the stable output node operates in the later period.

Compared with the prior art, the invention has the beneficial effects that: the intelligent system is divided into three operation modes, namely, zero energy consumption, low energy consumption and high energy consumption, and different modes are started according to different room values, so that the electric power energy can be effectively saved, and meanwhile, the intelligent system can better adapt to indoor personnel, and the indoor personnel can obtain better use experience;

through setting up induction equipment in all kinds of subregion departments to match induction equipment and subregion end air conditioning equipment who corresponds, with the mating structure record in intelligent system, after the operating mode was confirmed to intelligent system, send the power supply instruction to appointed subregion end, finally open subregion end equipment through intelligent control module, through adopting the mode that corresponds in proper order and take notes, can effectively avoid the system when supplying power, the data confusion appears, leads to the system to break down.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic flow chart of the method of the present invention.

Fig. 2 is a schematic block diagram of the power supply system of the present invention.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the following embodiments, and it should be understood that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 1, the power supply method of the air conditioner wire controller includes the following steps:

step S1, the intelligent system starts automatically by sensing personnel, the wire controller is connected with the air conditioner for power supply, and the equipment is started automatically;

step S2, the room temperature can be automatically changed by manually regulating and controlling the line controller, the intelligent system controls the data acquisition module, acquires various data and transmits the acquired data to the inside of the data processing module for processing;

step S3, comparing the processed numerical value with the internal interval value of the threshold terminal, directly transmitting the comparison information to the inside of the intelligent system, and adjusting the running state by the intelligent system according to the comparison information so as to change the energy loss of the whole air conditioning system;

and S4, supplying power to the wire controller according to the adjusted running state of the intelligent system, connecting corresponding equipment, and controlling the running of the equipment according to a power supply instruction.

In the step S1, sensing the person is operated by external sensing equipment, the sensing equipment is arranged at the door lock and is wirelessly connected with the intelligent system, the sensing equipment is an infrared sensor, when the person enters a room, the sensing equipment can directly transmit a signal into the intelligent system, and the intelligent system receives the signal and automatically opens the intelligent system;

before the intelligent system is started by itself, power needs to be supplied to the wire controller to check whether the wire controller is in a power-on state, if the wire controller is not in the power-on state, an error signal is directly displayed through a display end of the wire controller, and external personnel check and maintain the wire controller;

step S2 is manually regulated by regulating the keys on the surface of the wire controller to regulate the output temperature of the air conditioner, wherein the data collected by the data collection module comprises the room entering time, the room leaving time and the air conditioner starting time;

the data processing module internally comprises a numerical comparison unit, and the data processing module processes the acquired data according to the following steps:

step SS1, marking the indoor time as Tr, the outdoor time as Tc, and marking the air conditioner starting time as Ts, wherein the time unit is minute, converting the hour time into the clock time, for example, the entering time is ten o 'clock and half am, one hour is 60 minutes, the ten o' clock and half am is 630 minutes from zero, performing one round calculation in a 120-hour mode, performing the next round calculation again after the time exceeds 120 hours, stopping calculation of the middle open time, for example, the indoor time is 110 hours and 50 minutes, the outdoor time is 120 hours and 5 minutes, and entering the next calculation round after 120 hours and 5 minutes, and performing no acquisition calculation at the time;

step SS2, adopting calculation formula

Calculating to obtain an opening value Cq, wherein C1, C2 and C3 are all preset fixed coefficient factors;

step SS3, the numerical comparison unit compares the calculated opening value Cq with a threshold interval inside the threshold terminal, where the threshold terminal internal interval value is set to [0, 1], and the comparison method is as follows:

step SS31, when Cq =0, the data processing module transmits a zero energy consumption instruction to the inside of the intelligent system, the intelligent system starts a zero energy consumption mode to enable the air conditioning system to be in a standby state, the air conditioning system is usually used in spring or autumn aiming at the standby state, and the air conditioner cannot be automatically started when the weather is suitable for living, so that energy waste is avoided;

step SS32, when Cq is greater than 0 and less than 0.4, the data processing module transmits a low-energy-consumption instruction to the intelligent system, and the intelligent system starts a low-energy-consumption mode to regulate and control the air-conditioning system;

and SS33, when Cq is more than or equal to 0.4 and less than or equal to 1, the data processing module transmits a high energy consumption instruction to the inside of the intelligent system, and the intelligent system receives the instruction and starts a high energy consumption mode to enable the air conditioning system to start running.

The intelligent system in the step SS1 confirms the difference value between the room entering time mark Tr and the room exiting time Tc in advance, compares the difference value with a preset value of 60min, confirms that the difference value exceeds the preset value, carries out subsequent calculation work, does not exceed the preset value, and stops running, the data acquired in the step SS1 aims at the value with the range value exceeding 60min, if the interval between the room entering time Tr and the room exiting time Tc does not exceed 60min, the data are automatically omitted, the data are not acquired, the short time period is avoided, the accuracy of data processing is low, and meanwhile, the energy loss is easily caused.

As shown in fig. 2, the power supply method of the air conditioner wire controller includes operating a power supply system, where the power supply system includes a data acquisition module, a data processing module, a threshold terminal, an intelligent system, an induction device, a manual regulation and control module, a power supply module, and an intelligent control module;

the output end of the data acquisition module is electrically connected with the input end of the data processing module, the output end of the data processing module is electrically connected with the input end of the threshold terminal, the output end of the data processing module is electrically connected with the input end of the intelligent system, the intelligent system is bidirectionally connected with the induction equipment, the output end of the intelligent system is respectively electrically connected with the power supply module and the input end of the data acquisition module, the output end of the power supply module is electrically connected with the input end of the intelligent control module, the input end of the power supply module is electrically connected with the manual regulation and control module, and the output end of the manual regulation and control module is electrically connected with the input end of the intelligent system;

the intelligent system comprises three operation modes, namely a zero energy consumption mode, a low energy consumption mode and a high energy consumption mode, and comprises a temperature sensing module, wherein the temperature sensing module can sense indoor temperature and transmit the sensed temperature to the intelligent system, and the intelligent system adjusts output temperature according to the indoor temperature;

the zero energy consumption mode is in a standby mode, so that the whole air conditioning system is in a standby state and does not work;

the low energy consumption mode is set by an operator, the output air volume, the duration time and the interruption time in the air conditioner operation process are set, the duration time is set to be 30min, the interruption time is set to be 15min, and the low energy consumption mode can save a large amount of energy and avoid waste of the energy;

the high energy consumption mode is divided into a high energy consumption output node and a stable output node, the high energy consumption mode is used for opening the high energy consumption output node in advance to cool the indoor space, and when the collected indoor temperature reaches a pre-cooling value, the stable output node is opened to keep the indoor constant temperature and achieve a constant temperature environment.

After the intelligent system starts to operate, the intelligent system can not be automatically closed, external personnel are required to operate the line controller through a mobile phone terminal, the whole intelligent system is closed, a WIFI module is arranged inside the intelligent system, the WIFI module can be in wireless connection with the external mobile phone terminal, and the whole intelligent system is closed in an operating mode.

The manual regulation and control module is electrically connected with a control button of the wire controller, and can transmit an instruction signal into the manual regulation and control module by pressing the control button of the wire controller, and the manual regulation and control module receives the instruction signal and then transmits the signal into the power supply module;

after the power supply module receives the instruction signal, the power supply module can schedule the power data, directly transmits the power data to the matched air conditioner, and enables the air conditioner to start running, and the power supply module schedules the power in the following mode:

step W1, matching the corresponding air conditioning equipment with the corresponding door lock sensing equipment, directly transmitting the matching information to an intelligent system, and recording the corresponding matching information by the intelligent system;

and step W2, after receiving the induction signal, the corresponding door lock induction equipment confirms the operation mode of the intelligent system, directly transmits the instruction to the power supply module, and the power supply module supplies power through the wire controller according to the power supply signal, opens the specified split air conditioning equipment and performs indoor refrigeration.

The intelligent control module confirms the internal mode of the intelligent system and controls the running state of the air conditioner through the internal intelligent control terminal.

The above formulas are all calculated by removing dimensions and taking numerical values thereof, the formula is a formula which is obtained by acquiring a large amount of data and performing software simulation to obtain the closest real situation, and the preset parameters and the preset threshold value in the formula are set by the technical personnel in the field according to the actual situation or obtained by simulating a large amount of data.

The working principle of the invention is as follows: the intelligent system is divided into three operation modes, namely, zero energy consumption, low energy consumption and high energy consumption, and different modes are started according to different room values, so that the electric power energy can be effectively saved, and meanwhile, the intelligent system can better adapt to indoor personnel, and the indoor personnel can obtain better use experience;

through setting up induction equipment in all kinds of subregion departments to match induction equipment and subregion end air conditioning equipment who corresponds, with the mating structure record in intelligent system, after the operating mode was confirmed to intelligent system, send the power supply instruction to appointed subregion end, finally open subregion end equipment through intelligent control module, through adopting the mode that corresponds in proper order and take notes, can effectively avoid the system when supplying power, the data confusion appears, leads to the system to break down.

In the embodiments provided in the present invention, it should be understood that the disclosed apparatus, device and method may be implemented in other ways. For example, the above-described apparatus embodiments are merely illustrative, and for example, the division of the modules is only one logical functional division, and there may be other divisions when the actual implementation is performed; the modules described as separate parts may or may not be physically separate, and parts displayed as modules may or may not be physical units, may be located in one place, or may be distributed on a plurality of network units. Some or all of the modules may be selected according to actual needs to achieve the purpose of the method of the embodiment.

It will also be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof.

The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference signs in the claims shall not be construed as limiting the claim concerned.

Furthermore, it is obvious that the word "comprising" does not exclude other elements or steps, and the singular does not exclude the plural. A plurality of units or means recited in the system claims may also be implemented by one unit or means in software or hardware. The terms second, etc. are used to denote names, but not any particular order.

Finally, it should be noted that the above examples are only intended to illustrate the technical process of the present invention and not to limit the same, and although the present invention has been described in detail with reference to the preferred embodiments, it will be understood by those skilled in the art that modifications or equivalent substitutions may be made to the technical process of the present invention without departing from the spirit and scope of the technical process of the present invention.

Claims (8)

1. The power supply method of the air conditioner wire controller is characterized by comprising the following steps of:

step S1, the intelligent system starts automatically by sensing personnel, the wire controller is connected with the air conditioner for power supply, and the equipment is started automatically;

s2, manually regulating and controlling the line controller to automatically change the room temperature, controlling the data acquisition module by the intelligent system, acquiring various data, and transmitting the acquired data to the inside of the data processing module for processing, wherein the various data comprise the room entering time, the room exiting time and the air conditioner starting time;

the data processing module internally comprises a numerical comparison unit, and the data processing module processes the acquired data according to the following steps:

step SS1, marking the indoor time as Tr, the outdoor time as Tc, and the air conditioner starting time as Ts, wherein the time unit is minutes;

step SS2, adopting calculation formula

Calculating to obtain an opening value Cq, wherein C1, C2 and C3 are all preset fixed coefficient factors;

the comparison method in step S3 is as follows:

step SS3, comparing the calculated opening value Cq with a threshold value interval in a threshold value terminal by a numerical value comparison unit, and setting the threshold value terminal internal interval value as [0, 1 ];

step SS31, when Cq =0, the data processing module transmits a zero energy consumption instruction to the inside of the intelligent system, and the intelligent system starts a zero energy consumption mode;

step SS32, when Cq is more than 0 and less than 0.4, the data processing module transmits a low-energy-consumption instruction to the intelligent system, and the intelligent system starts a low-energy-consumption mode;

step SS33, when Cq is more than or equal to 0.4 and less than or equal to 1, the data processing module transmits a high energy consumption instruction to the interior of the intelligent system, and the intelligent system receives the instruction and starts a high energy consumption mode;

step S3, comparing the processed numerical value with the internal interval value of the threshold terminal, directly transmitting the comparison information to the inside of the intelligent system, and adjusting the running state by the intelligent system according to the comparison information so as to change the energy loss of the whole air conditioning system;

and S4, supplying power to the wire controller according to the adjusted running state of the intelligent system, connecting corresponding equipment, and controlling the running of the equipment according to a power supply instruction.

2. The power supply method of the air conditioner wire controller according to claim 1, wherein the sensing of the person in step S1 is performed by an external sensing device, the sensing device is disposed at the door lock, and the sensing device is wirelessly connected to the intelligent system; when the intelligent system starts by itself, power needs to be supplied to the wire controller, and whether the wire controller is in a power receiving state or not is checked.

3. The power supply method of the air-conditioning wire controller according to claim 2, wherein in the step SS1, the intelligent system performs difference value confirmation processing on the room entering time mark Tr and the room exiting time Tc in advance, compares the difference value with a preset value for 60min, confirms that the preset value is exceeded, performs subsequent calculation work, and stops operating the intelligent system when the preset value is not exceeded.

4. The power supply method of the air conditioner wire controller according to claim 3, wherein the power supply method is operated by a power supply system, and the power supply system comprises a data acquisition module, a data processing module, a threshold terminal, an intelligent system, an induction device, a manual regulation and control module, a power supply module and an intelligent control module.

5. The power supply method of the air conditioner wire controller according to claim 4, wherein the intelligent system comprises a temperature sensing module and a WIFI module, the temperature sensing module can sense indoor temperature, and the WIFI module is wirelessly connected with an external mobile terminal.

6. The power supply method of the air conditioner wire controller according to claim 5, wherein the manual control module is electrically connected with the wire controller, and the power supply is carried out through the wire controller to control the running state of the air conditioner equipment.

7. The power supply method of the air conditioner wire controller according to claim 6, wherein the power supply module schedules the power data after receiving the command signal, and directly transmits the power data to the matched air conditioner to start the operation of the air conditioner, and the power supply module schedules the power in the following manner:

w1, matching the corresponding air conditioning equipment with the corresponding door lock sensing equipment, directly transmitting the matching information to an intelligent system, and recording the corresponding matching information by the intelligent system;

w2, corresponding lock response equipment receive the induction signal after, confirm intelligent system's operational mode, directly carry the instruction to power module in, power module supplies power according to the power supply signal through the drive-by-wire ware, opens appointed branch formula air conditioning equipment, to indoor work of refrigerating.

8. The power supply method of the air conditioner wire controller according to claim 7, wherein the high energy consumption mode is divided into a high energy consumption output node and a stable output node, the high energy consumption output node is output in advance, and the stable output node is operated in a later period.

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