CN213814369U - Intelligent control system of air conditioner - Google Patents
Intelligent control system of air conditioner Download PDFInfo
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- CN213814369U CN213814369U CN202023214215.3U CN202023214215U CN213814369U CN 213814369 U CN213814369 U CN 213814369U CN 202023214215 U CN202023214215 U CN 202023214215U CN 213814369 U CN213814369 U CN 213814369U
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Abstract
The utility model provides an air conditioner intelligence control system, calculate processing module, environment monitoring module, power module, TTL TCP communication module, transistor display, trigger module, control panel and fan coil including 8 bit control module, edge, calculate processing module with 8 bit control module connects, power module with edge calculation processing module's power input end connects, environment monitoring module with edge calculation processing module connects, TTL TCP communication module with 8 bit control module both way communication, be used for with the TTL signal conversion of 8 bit control module output is TCP signal, trigger module with 8 bit control module connects, fan coil passes through control panel with trigger module connects. The utility model discloses both can realize remote monitoring, can adjust in advance ambient temperature again.
Description
Technical Field
The present disclosure relates to the field of intelligent control, and in particular, to an intelligent control system for an air conditioner.
Background
The wave of digitized transformation of the industry has been raised all over the world, digitization is the foundation, networking is the support, and intellectualization is the target. The data is generated by digitalizing objects such as people, objects, environments, processes and the like, the value flow of the data is realized through networking, the data is used as a production element, and economic and social values are created for various industries through intellectualization.
The intellectualization is based on intelligent analysis of data, so that intelligent decision and intelligent operation are realized, and continuous intelligent optimization of a business process is realized through closed loop. Intelligent technologies represented by big data, machine learning, and deep learning have been applied to speech recognition, image recognition, user portrayal, and the like, and great progress has been made in algorithms, models, architectures, and the like. The intelligent technology is applied to industries such as manufacturing, electric power, transportation, medical treatment, agriculture and the like, and new requirements and challenges are provided for the intelligent technology. The age of industry intelligence has come.
At present, the intelligent degree of an air conditioner product is not high, the control on temperature change is not intelligent enough, and manual control or control panel intervention control is carried out only when the temperature is obviously changed. In view of the above, the present inventors have made extensive research and development to provide an intelligent control system for an air conditioner.
SUMMERY OF THE UTILITY MODEL
In order to solve the technical problem, the utility model provides an air conditioner intelligence control system.
The utility model discloses specifically adopt following technical scheme to realize:
an intelligent control system of an air conditioner comprises an 8-bit control module, an edge computing processing module, an environment monitoring module, a power supply module, a TTL/TCP communication module, a transistor display, a trigger module, a control panel and a fan coil, wherein the edge computing processing module is connected with the 8-bit control module, the power supply module is connected with the power supply input end of the edge computing processing module, the environment monitoring module is connected with the edge computing processing module, the environment monitoring module is used for monitoring the temperature of the environment, the output end of the 8-bit control module is connected with the transistor display, the TTL/TCP communication module is in two-way communication with the 8-bit control module and is used for converting TTL signals output by the 8-bit control module into TCP signals, the trigger module is connected with the 8-bit control module, and the fan coil is connected with the trigger module through the control panel, the edge computing processing module is used for collecting temperature basic data of the environment monitoring module in real time, the basic data are calculated through a model stored in the edge computing processing module to obtain a pre-judgment result, the triggering module is triggered in advance according to the pre-judgment result, and then the fan coil is controlled in advance through the control panel.
As a preferable mode of the embodiment, the 8-bit control module is also connected with a reset circuit.
As a preferred mode of the embodiment, the 8-bit control module is a single chip microcomputer.
In a preferred embodiment, the transistor display adopts a 74HC59 chip and a 4-bit LED display tube.
The utility model provides an air conditioner intelligence control system, its beneficial effect lies in: the utility model discloses an aspect can realize the remote monitoring to the air conditioning system through TTL/TCP communication module; on the other hand, the temperature basic data is collected through the environment monitoring module and stored in the edge computing processing module, the model is built in the edge computing processing module, the collected basic data are arranged and then retested in the model to obtain a prediction result, the triggering module is triggered in advance according to the pre-judgment result, the fan coil is controlled in advance through the control panel, and the control in advance is realized before the temperature rises rapidly or the temperature drops rapidly, so that the rapid change of the environment temperature can be effectively prevented.
Drawings
The accompanying drawings, which are included to provide a further understanding of the disclosure and are incorporated in and constitute a part of this specification, illustrate exemplary embodiments of the disclosure and together with the description serve to explain the principles of the disclosure.
FIG. 1 is a schematic block diagram of an intelligent control system of an air conditioner according to the present invention;
fig. 2 is a schematic pin diagram of the 8-bit control module according to the present invention;
FIG. 3 is a circuit diagram of the SY8100 voltage-reducing chip of the present invention;
fig. 4 is a circuit diagram of a transistor display of the present invention;
fig. 5 is a circuit diagram of the trigger module of the present invention;
fig. 6 is a circuit connection diagram of the reset circuit of the present invention.
Detailed Description
The present disclosure will be described in further detail with reference to the drawings and embodiments. It is to be understood that the specific embodiments described herein are for purposes of illustration only and are not to be construed as limitations of the present disclosure. It should be further noted that, for the convenience of description, only the portions relevant to the present disclosure are shown in the drawings.
It should be noted that the embodiments and features of the embodiments in the present disclosure may be combined with each other without conflict. The present disclosure will be described in detail below with reference to the accompanying drawings in conjunction with embodiments.
As shown in fig. 1, the present embodiment provides a system including an 8-bit control module 1, an edge computing processing module 2, an environment monitoring module 3, a power module 4, a TTL/TCP communication module 5, a transistor display 6, a trigger module 7, a control panel 8, and a fan coil 9, where the edge computing processing module 2 is connected to the 8-bit control module 1, the power module 4 is connected to a power input end of the edge computing processing module 2, the environment monitoring module 3 is connected to the edge computing processing module 2, and the environment monitoring module 3 is configured to monitor an environment temperature, for example, the environment monitoring module 3 is a temperature sensor; the output end of the 8-bit control module 1 is connected with the transistor display 6, the TTL/TCP communication module 5 is in two-way communication with the 8-bit control module 1 and is used for converting TTL signals output by the 8-bit control module into TCP signals, the trigger module 7 is connected with the 8-bit control module 1, the fan coil 9 is connected with the trigger module 7 through the control panel 8, the edge calculation processing module 2 is used for collecting temperature basic data of the environment monitoring module 3 in real time, the basic data are calculated through a model stored in the edge calculation processing module 2 to obtain a pre-judgment result, the trigger module 7 is triggered in advance according to the pre-judgment result, and the fan coil 9 is controlled in advance through the control panel 8.
For example, the environment monitoring module continuously collects temperature parameters, a model between the temperature parameters and the time parameters is established in the edge calculation processing module, before the environment temperature changes rapidly, the real-time temperature monitored by the environment monitoring module is measured back in the model, a judgment result is obtained through calculation, and a judgment result of whether the temperature changes rapidly is given, so that the trigger module is triggered in advance to realize the advance regulation of the temperature. The judgment result given by the intelligent control system is based on the temperature big data, and the accuracy of the judgment result is improved.
The 8-bit control module 1 of this embodiment adopts a single chip, a pin diagram of the 8-bit control module is shown in fig. 2, and each branch module is received and controlled by a pin voltage, pins 1 to 9 are P1.0 to P1.10, where P1.0 to P1.7 is used for an output control end of UM2803, pin 10 is a RST reset pin, pin 11 is a P3.0 pin 12 is a P4.3 pin, pins 13 to 19 are P3.1 to P3.7, where P3.0, P3.1, and P3.4 are used for transmitting data with a max1487 communication module, P3.2 is used for controlling a buzzer, pins 20 to 21 are chip external crystal oscillator pins, pin 22 is a power supply GND pin, pin 22 is a P4.0 pin, pin 23 is P4.0, pins 24 to 31 are P2.1 to P2.7, pins 36 to 43 are P0.7 to P0.0, where P0.0, P0.1, P0.74, and P0.2 are used for controlling an HC595 chip communication control nixie.
The power module 4 of this embodiment steps down 12V dc to 5V dc, and the power module of this embodiment uses SY8100 step-down chip as the core, realizes the step-down work of 12V to 5V, and wherein pin 5 is 12V input, through SY8100 transform circuit, can realize exporting 5V, 3V, and its circuit connection diagram is shown in fig. 3.
The transistor display 6 of the present embodiment is composed of a 74HC59 chip and a 4-bit LED display tube, and the display of the 4-bit LED display tube is realized by controlling the 74HC59 chip through a single chip microcomputer, and a specific circuit connection diagram is shown in fig. 4.
The triggering module 7 of this embodiment adopts the UM2803 unit chip to process 5V input and 12V output, and controls the corresponding relay to be turned on and off, and a connection diagram of the UM2803 unit chip is shown in fig. 5.
The TTL/TCP communication module 5 in this embodiment solves the problem of data communication, converts the data packet of the TCP protocol into a 485 communication protocol, and communicates with the single chip.
The 8-bit control module 1 of this embodiment is further connected to a reset circuit 10, the reset circuit 10 of this embodiment is used to solve the problem that the single chip microcomputer operates for a long time and automatically resets and restarts in downtime, and a schematic circuit diagram of the reset circuit is shown in fig. 6 and connected to the RST end of the single chip microcomputer.
According to the intelligent control system for the air conditioner, on one hand, the remote monitoring of the air conditioner system can be realized through the TTL/TCP communication module; on the other hand, the temperature basic data is collected through the environment monitoring module and stored in the edge computing processing module, the model is built in the edge computing processing module, the collected basic data are arranged and then retested in the model to obtain a prediction result, the triggering module is triggered in advance according to the pre-judgment result, the fan coil is controlled in advance through the control panel, and the control in advance is realized before the temperature rises rapidly or the temperature drops rapidly, so that the rapid change of the environment temperature can be effectively prevented.
It will be understood by those skilled in the art that the foregoing embodiments are merely for clarity of illustration of the disclosure and are not intended to limit the scope of the disclosure. Other variations or modifications may occur to those skilled in the art, based on the foregoing disclosure, and are still within the scope of the present disclosure.
Claims (4)
1. An intelligent control system of an air conditioner is characterized by comprising an 8-bit control module, an edge computing processing module, an environment monitoring module, a power supply module, a TTL/TCP communication module, a transistor display, a trigger module, a control panel and a fan coil, wherein the edge computing processing module is connected with the 8-bit control module, the power supply module is connected with the power supply input end of the edge computing processing module, the environment monitoring module is connected with the edge computing processing module, the environment monitoring module is used for monitoring the temperature of the environment, the output end of the 8-bit control module is connected with the transistor display, the TTL/TCP communication module is in two-way communication with the 8-bit control module and is used for converting TTL signals output by the 8-bit control module into TCP signals, and the trigger module is connected with the 8-bit control module, the fan coil is connected with the trigger module through the control panel, the edge computing processing module is used for collecting temperature basic data of the environment monitoring module in real time, the basic data are calculated through a model stored in the edge computing processing module to obtain a pre-judgment result, the trigger module is triggered in advance according to the pre-judgment result, and then the fan coil is controlled in advance through the control panel.
2. The intelligent control system according to claim 1, wherein: the 8-bit control module is a singlechip.
3. The intelligent control system according to claim 1, wherein: the 8-bit control module is also connected with a reset circuit.
4. The intelligent control system according to any one of claims 1-3, characterized in that: the transistor display adopts a 74HC59 chip and a 4-bit LED display tube.
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CN202023214215.3U CN213814369U (en) | 2020-12-28 | 2020-12-28 | Intelligent control system of air conditioner |
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CN202023214215.3U CN213814369U (en) | 2020-12-28 | 2020-12-28 | Intelligent control system of air conditioner |
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