CN114935203A

CN114935203A - Intelligent environment temperature control device based on air conditioner control and use method thereof

Info

Publication number: CN114935203A
Application number: CN202210647575.7A
Authority: CN
Inventors: 杨剑南
Original assignee: Chongqing Vodcat Technology Co ltd
Current assignee: Chongqing Vodcat Technology Co ltd
Priority date: 2022-06-09
Filing date: 2022-06-09
Publication date: 2022-08-23

Abstract

The invention discloses an intelligent environment temperature control device based on air conditioner control and a use method thereof, the intelligent environment temperature control device comprises an environment temperature monitoring mechanism, a control system and a temperature adjusting mechanism, wherein a lead of the environment temperature monitoring mechanism is connected with the control system, and the output end of the control system is electrically connected with the input end of the temperature adjusting mechanism, the invention can carry out timing measurement on the indoor temperature through the environment temperature monitoring mechanism and send the measured data to the control system, can carry out judgment according to the received data under the action of the control system, and controls the temperature adjusting mechanism to carry out corresponding work according to instructions through a program control module, thereby replacing the traditional manual temperature adjustment control mode, being beneficial to improving the working effect of equipment, simultaneously, a power distribution system arranged in the temperature adjusting mechanism can reasonably distribute current, thereby avoiding the conditions of overload and undervoltage of electronic elements in the equipment, the stability of equipment use can be improved.

Description

Intelligent environment temperature control device based on air conditioner control and use method thereof

Technical Field

The invention belongs to the field of environment temperature control, and particularly relates to an intelligent environment temperature control device based on air conditioner control and a use method thereof.

Background

The mode that current air conditioner carries out the control by temperature change to the environment adopts the front end to detect the mode of cooperation artifical manual regulation more, and the intelligent degree that not only leads to the use is low, but also can not carry out the timing detection, and the long-time high load operation of equipment leads to the energy consumption higher, and simultaneously, current temperature regulation apparatus's distribution system is more single, can not carry out the initiative adjustment distribution to input current, the overload and the under-voltage condition appear easily between the electronic component to the job stabilization nature that leads to equipment is relatively poor.

The invention content is as follows:

the present invention is directed to an intelligent environment temperature control device for air conditioning control and a method for using the same, which solve the above-mentioned problems.

In order to solve the above problems, the present invention provides a technical solution:

an intelligent environment temperature control device based on air conditioner control comprises an environment temperature monitoring mechanism, a control system and a temperature adjusting mechanism, wherein a lead of the environment temperature monitoring mechanism is connected with the control system, an output end of the control system is electrically connected with an input end of the temperature adjusting mechanism, the temperature adjusting mechanism is composed of a power distribution system, a temperature controlling mechanism and an air path mechanism, an output end of the power distribution system is electrically connected with an input end of the temperature controlling mechanism, and an output end of the temperature controlling mechanism is electrically connected with an input end of the air path mechanism; the environment temperature monitoring mechanism is used for detecting the indoor temperature at regular time and sending monitoring data to the control system; the control system is used for judging the received data and generating a corresponding instruction to control the temperature adjusting mechanism to work; the temperature adjusting mechanism is used for adjusting and controlling the environment temperature according to the instruction of the control system.

Preferably, the environment temperature monitoring mechanism protects the temperature detection module, the timing module and the first wireless signal transceiver module, the output end of the temperature detection module is electrically connected with the input end of the timing module, and the output end of the timing module is electrically connected with the input end of the first wireless signal transceiver module; the temperature detection module is used for detecting the temperature of the environment; the timing module is used for timing the working time of the temperature detection module; the first wireless signal transceiving module is used for sending the temperature data acquired by the temperature detection module to the control system.

Preferably, the control system comprises a second wireless signal transceiver module, a data receiving module, a judging module and a programmable control module, wherein the output end of the second wireless signal transceiver module is electrically connected with the input end of the data receiving module, the output end of the data receiving module is electrically connected with the input end of the judging module, and the output end of the judging module is electrically connected with the input end of the programmable control module; the second wireless signal transceiver module is used for being connected with the first wireless signal transceiver module and simultaneously receiving and transmitting instructions of the control system; the data receiving module is used for receiving temperature measurement data sent by the environment temperature monitoring mechanism; the judging module is used for judging the temperature condition of the environment where the environment temperature monitoring mechanism is located according to the received data; and the programmable control module is used for making a corresponding instruction according to the judgment of the judging module.

Preferably, the power distribution system comprises a power conversion module, a main control module, a temperature control module, a PFC adjustment module, a voltage stabilization module and an overcurrent protection module, wherein an output end of the power conversion module is electrically connected with an input end of the main control module, an output end of the main control module is electrically connected with an input end of the temperature control module, an output end of the temperature control module is electrically connected with an input end of the PFC adjustment module, an output end of the PFC adjustment module is electrically connected with an input end of the voltage stabilization module, and an output end of the voltage stabilization module is electrically connected with an input end of the overcurrent protection module.

Preferably, the power conversion module is used for converting input alternating current into direct current; the temperature control module is used for receiving a control signal of the main control module and controlling the temperature control mechanism to heat or refrigerate according to the ambient temperature and a preset temperature control value; the PFC adjusting module is used for distributing the converted direct-current power supply into current corresponding to a standard value according to each electronic element; the voltage stabilizing module is used for stabilizing the voltage of the direct current output by each electronic element; the overcurrent protection module is used for detecting the current of the circuit to prevent overcurrent; the main control module is used for all-round collection and control of the power supply conversion module, the temperature control module, the PFC adjusting module, the voltage stabilizing module and the overcurrent protection module.

Preferably, the temperature control mechanism comprises a compressor, a condenser, an evaporator and an expansion valve, the output end of the compressor is electrically connected with the input end of the condenser, the output end of the condenser is electrically connected with the input end of the evaporator, the output end of the evaporator is electrically connected with the input end of the expansion valve, and the compressor, the condenser, the evaporator and the expansion valve are all electrically connected with the power distribution system.

Preferably, the air path mechanism comprises a centrifugal fan and an axial flow fan, the centrifugal fan and the axial flow fan are electrically connected through a conducting wire, and the centrifugal fan and the axial flow fan are both electrically connected with the power distribution system.

A use method of an intelligent environment temperature control device based on air conditioner control comprises the following steps:

s1, recording the working time of the temperature detection module through the timing module, detecting the temperature of the current environment space when the temperature detection module reaches a timing node, sending the temperature to the second wireless signal transceiver module through the first wireless signal transceiver module, sending the received temperature data to the data receiving module through the second wireless signal transceiver module, identifying the data and sending the data to the judging module through the data receiving module, judging the temperature condition of the environment where the environment temperature monitoring mechanism is located through the judging module, then making an instruction for controlling the temperature adjusting mechanism through the programmable control module according to the judgment result of the judging module and the preset programming, and sending the instruction to the power distribution system through the second wireless signal transceiver module;

s2, the temperature control module controls the temperature control mechanism to heat or refrigerate according to the environment temperature and the preset temperature control value, the power supply conversion module converts the input alternating current into direct current, the PFC adjustment module distributes the converted direct current power supply into current corresponding to the standard value according to the compressor, the condenser, the evaporator, the expansion valve, the centrifugal fan and the axial flow fan, the air exchange speed in the environment space is accelerated under the action of the centrifugal fan and the axial flow fan, when heating is needed, the gas Freon is pressurized by the compressor to become high-temperature high-pressure gas, the gas Freon enters the condenser of the indoor unit to be condensed, liquefied and released into liquid, and meanwhile, the indoor air is heated, so that the purpose of improving the indoor temperature is achieved; when refrigeration is needed, gas Freon is pressurized by the compressor to become high-temperature and high-pressure gas, the gas Freon enters the condenser of the heat exchanger of the outdoor unit to be condensed, liquefied and released to become liquid, meanwhile, heat is released to the atmosphere, the liquid Freon is decompressed by the expansion valve, enters the evaporator of the indoor unit to be evaporated, gasified and absorbed to become gas, meanwhile, the heat of indoor air is absorbed, and therefore the purpose of reducing the indoor temperature is achieved.

The invention has the beneficial effects that: can carry out the timing measurement to indoor temperature through ambient temperature monitoring mechanism, and give control system with measured data transmission, can judge according to the received data under control system's effect, and make corresponding work according to the instruction through programming control module control temperature adjustment mechanism, thereby traditional manual control mode that adjusts the temperature has been replaced, be favorable to improve equipment's working effect, and simultaneously, the distribution system who sets up inside temperature adjustment mechanism can carry out rational distribution to the electric current, thereby avoid the electronic component in the equipment the condition of overload and undervoltage to appear, can improve the stability that equipment used.

Description of the drawings:

for ease of illustration, the invention is described in detail by the following detailed description and the accompanying drawings.

FIG. 1 is an overall process topology of the present invention;

FIG. 2 is a topological diagram of the temperature control mechanism of the present invention;

FIG. 3 is a power distribution system topology of the present invention;

FIG. 4 is a schematic view of the wind path mechanism of the present invention.

In the figure: 1. an ambient temperature monitoring mechanism; 11. a temperature detection module; 12. a timing module; 13. a first wireless signal transceiver module; 2. a control system; 21. a second wireless signal transceiver module; 22. a data receiving module; 23. a judgment module; 24. a programmable control module; 3. a temperature adjustment mechanism; 31. a power distribution system; 311. a power conversion module; 312. a main control module; 313. a temperature control module; 314. a PFC adjustment module; 315. a voltage stabilization module; 316. an overcurrent protection module; 32. a temperature control mechanism; 321. a compressor; 322. a condenser; 323. an evaporator; 324. an expansion valve; 33. an air path mechanism; 331. a centrifugal fan; 332. an axial flow fan.

The specific implementation mode is as follows:

as shown in fig. 1 to 4, the following technical solutions are adopted in the present embodiment:

example (b):

an intelligent environment temperature control device based on air conditioner control comprises an environment temperature monitoring mechanism 1, a control system 2 and a temperature adjusting mechanism 3, wherein the environment temperature monitoring mechanism 1 is connected with the control system 2 through a lead, the indoor temperature can be measured at regular time through the environment temperature monitoring mechanism 1, under the action of the control system 2, the judgment can be carried out according to the received data, and the programmable control module 24 controls the temperature adjusting mechanism 3 to work correspondingly according to the instruction, therefore, the traditional manual temperature regulation control mode is replaced, the working effect of equipment is favorably improved, the output end of the control system 2 is electrically connected with the input end of the temperature regulation mechanism 3, the temperature regulation mechanism 3 consists of a power distribution system 31, a temperature control mechanism 32 and an air path mechanism 33, the output end of the power distribution system 31 is electrically connected with the input end of the temperature control mechanism 32, and the output end of the temperature control mechanism 32 is electrically connected with the input end of the air path mechanism 33; the environment temperature monitoring mechanism 1 is used for detecting indoor temperature at regular time and sending monitoring data to the control system 2; the power distribution system 31 can reasonably distribute the current, so that the conditions of overload and undervoltage of electronic elements in the equipment are avoided, the use stability of the equipment can be improved, and the control system 2 is used for judging received data and generating a corresponding instruction to control the temperature adjusting mechanism 3 to work; the temperature adjusting mechanism 3 is used for regulating and controlling the ambient temperature according to the instruction of the control system 2.

The environment temperature monitoring mechanism 1 protects the temperature detection module 11, the timing module 12 and the first wireless signal transceiving module 13, the output end of the temperature detection module 11 is electrically connected with the input end of the timing module 12, and the output end of the timing module 12 is electrically connected with the input end of the first wireless signal transceiving module 13; the temperature detection module 11 is used for detecting the temperature of the environment; the timing module 12 is used for timing the working time of the temperature detection module 11; the first wireless signal transceiver module 13 is used for sending the temperature data acquired by the temperature detection module 11 to the control system 2, and can perform timing starting detection according to a programming control device, so that the energy consumption of the device is reduced, and the energy-saving effect of the device is improved.

The control system 2 comprises a second wireless signal transceiver module 21, a data receiving module 22, a judging module 23 and a programmable control module 24, wherein the output end of the second wireless signal transceiver module 21 is electrically connected with the input end of the data receiving module 22, the output end of the data receiving module 22 is electrically connected with the input end of the judging module 23, and the output end of the judging module 23 is electrically connected with the input end of the programmable control module 24; the second wireless signal transceiver module 21 is used for connecting with the first wireless signal transceiver module 13 and simultaneously receiving and transmitting instructions of the control system 2; the data receiving module 22 is used for receiving temperature measurement data sent by the environment temperature monitoring mechanism 1; the judging module 23 is configured to judge the temperature condition of the environment where the environment temperature monitoring mechanism 1 is located according to the received data; the programmable control module 24 is used for making a corresponding instruction according to the judgment of the judgment module 23, and can control the temperature adjusting mechanism 3 to make a corresponding work according to the instruction according to the received data, thereby being beneficial to improving the intelligent degree of the equipment, and meanwhile, the programmable control module can also carry out centralized control, thereby replacing the original manual operation mode.

The power distribution system 31 includes a power conversion module 311, a main control module 312, a temperature control module 313, a PFC adjustment module 314, a voltage regulation module 315, and an overcurrent protection module 316, wherein an output end of the power conversion module 311 is electrically connected to an input end of the main control module 312, an output end of the main control module 312 is electrically connected to an input end of the temperature control module 313, an output end of the temperature control module 313 is electrically connected to an input end of the PFC adjustment module 314, an output end of the PFC adjustment module 314 is electrically connected to an input end of the voltage regulation module 315, and an output end of the voltage regulation module 315 is electrically connected to an input end of the overcurrent protection module 316.

The power conversion module 311 is configured to convert an input ac power into a dc power; the temperature control module 313 is configured to receive a control signal from the main control module 312, and control the temperature control mechanism 32 to heat or cool according to the ambient temperature and a preset temperature control value; the PFC adjustment module 314 is configured to distribute the converted dc power to a current corresponding to a standard value according to each electronic component; the voltage stabilizing module 315 is configured to stabilize the voltage of the dc power output by each electronic component; the over-current protection module 316 is used for detecting the current of the circuit to prevent over-current; the main control module 312 is used for collecting and controlling the power conversion module 311, the temperature control module 313, the PFC adjustment module 314, the voltage stabilization module 315, and the overcurrent protection module 316 in all aspects, and can reasonably distribute the current, thereby avoiding the situations of overload and undervoltage of electronic components in the device, and improving the stability of the device in use.

The temperature control mechanism 32 includes a compressor 321, a condenser 322, an evaporator 323, and an expansion valve 324, an output end of the compressor 321 is electrically connected to an input end of the condenser 322, an output end of the condenser 322 is electrically connected to an input end of the evaporator 323, an output end of the evaporator 323 is electrically connected to an input end of the expansion valve 324, and the compressor 321, the condenser 322, the evaporator 323, and the expansion valve 324 are electrically connected to the power distribution system 31, and can heat or cool according to an ambient temperature and a preset temperature control value, thereby ensuring accuracy of ambient temperature control.

The air path mechanism 33 includes a centrifugal fan 331 and an axial fan 332, the centrifugal fan 331 and the axial fan 332 are electrically connected by a conducting wire, and the centrifugal fan 331 and the axial fan 332 are both electrically connected to the power distribution system 31, so that the air exchange speed in the environmental space can be accelerated, and the improvement of the use effect of the equipment is facilitated.

s1, the timing module 12 records the operating time of the temperature detecting module 11, when the temperature detecting module 11 reaches a timing node, it detects the temperature of the current environment space, and sends the detected temperature to the second wireless signal transceiver module 21 through the first wireless signal transceiver module 13, at this time, the second wireless signal transceiver module 21 sends the received temperature data to the data receiving module 22, at this time, the data receiving module 22 identifies the data and sends the identified data to the determining module 23, the determining module 23 determines the temperature condition of the environment where the environment temperature monitoring mechanism 1 is located according to the received data, then the programmable control module 24 makes an instruction for controlling the temperature adjusting mechanism 3 according to the determination result of the determining module 23 and the preset programming, and sends the instruction to the power distribution system 31 through the second wireless signal transceiver module 21;

s2, at this time, the temperature control module 313 controls the temperature control mechanism 32 to heat or refrigerate according to the ambient temperature and the preset temperature control value, the power conversion module 311 converts the input ac power into dc power, and the PFC adjustment module 314 distributes the converted dc power into currents of corresponding standard values according to the compressor 321, the condenser 322, the evaporator 323, the expansion valve 324, the centrifugal fan 331 and the axial fan 332, at this time, the air exchange speed in the ambient space is accelerated under the action of the centrifugal fan 331 and the axial fan 332, when heating is required, the gas freon is pressurized by the compressor 321 to become high-temperature high-pressure gas, enters the condenser 322 of the indoor unit to be condensed and liquefied to release heat to become liquid, and heats the indoor air, thereby achieving the purpose of increasing the indoor temperature; when refrigeration is needed, gas Freon is pressurized into high-temperature and high-pressure gas by the compressor 321, the gas is condensed, liquefied and released heat to form liquid, meanwhile, the heat is released to the atmosphere, the liquid Freon is decompressed by the expansion valve 324, enters the evaporator 323 of the indoor unit, is evaporated, gasified and absorbed to form gas, meanwhile, the heat of indoor air is absorbed, thereby achieving the purpose of reducing the indoor temperature, the voltage of direct current is output to each stable electronic element by the voltage stabilizing module 315, and the current of a circuit can be detected under the action of the overcurrent protection module 316 so as to prevent overcurrent.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The intelligent environment temperature control device based on air conditioner control is characterized by comprising an environment temperature monitoring mechanism (1), a control system (2) and a temperature adjusting mechanism (3), wherein the environment temperature monitoring mechanism (1) is connected with the control system (2) through a lead, the output end of the control system (2) is electrically connected with the input end of the temperature adjusting mechanism (3), the temperature adjusting mechanism (3) consists of a power distribution system (31), a temperature control mechanism (32) and an air path mechanism (33), the output end of the power distribution system (31) is electrically connected with the input end of the temperature control mechanism (32), and the output end of the temperature control mechanism (32) is electrically connected with the input end of the air path mechanism (33); the environment temperature monitoring mechanism (1) is used for detecting indoor temperature at regular time and sending monitoring data to the control system (2); the control system (2) is used for judging the received data and generating a corresponding instruction to control the temperature adjusting mechanism (3) to work; the temperature adjusting mechanism (3) is used for adjusting and controlling the environment temperature according to the instruction of the control system (2).

2. The intelligent environment temperature control device based on air conditioning control according to claim 1, wherein the environment temperature monitoring mechanism (1) protects the temperature detection module (11), the timing module (12) and the first wireless signal transceiver module (13), an output end of the temperature detection module (11) is electrically connected with an input end of the timing module (12), and an output end of the timing module (12) is electrically connected with an input end of the first wireless signal transceiver module (13); the temperature detection module (11) is used for detecting the temperature of the environment; the timing module (12) is used for timing the working time of the temperature detection module (11); the first wireless signal transceiving module (13) is used for sending the temperature data collected by the temperature detection module (11) to the control system (2).

3. The intelligent environment temperature control device based on air conditioning control of claim 1, wherein the control system (2) comprises a second wireless signal transceiver module (21), a data receiving module (22), a judging module (23) and a programmable control module (24), an output end of the second wireless signal transceiver module (21) is electrically connected with an input end of the data receiving module (22), an output end of the data receiving module (22) is electrically connected with an input end of the judging module (23), and an output end of the judging module (23) is electrically connected with an input end of the programmable control module (24); the second wireless signal transceiving module (21) is used for being connected with the first wireless signal transceiving module (13) and receiving and sending instructions of the control system (2); the data receiving module (22) is used for receiving temperature measurement data sent by the environment temperature monitoring mechanism (1); the judging module (23) is used for judging the temperature condition of the environment where the environment temperature monitoring mechanism (1) is located according to the received data; the programmable control module (24) is used for making a corresponding instruction according to the judgment of the judgment module (23).

4. The intelligent environment temperature control device based on air conditioner control as claimed in claim 1, the power distribution system (31) comprises a power supply conversion module (311), a main control module (312), a temperature control module (313), a PFC adjustment module (314), a voltage stabilizing module (315) and an overcurrent protection module (316), the output end of the power supply conversion module (311) is electrically connected with the input end of the main control module (312), the output end of the main control module (312) is electrically connected with the input end of the temperature control module (313), the output end of the temperature control module (313) is electrically connected with the input end of the PFC adjusting module (314), the output end of the PFC adjusting module (314) is electrically connected with the input end of the voltage stabilizing module (315), the output end of the voltage stabilizing module (315) is electrically connected with the input end of the overcurrent protection module (316).

5. The intelligent environment temperature control device based on air conditioner control as claimed in claim 4, wherein the power conversion module (311) is used for converting the input alternating current into direct current; the temperature control module (313) is used for receiving a control signal of the main control module (312) and controlling the temperature control mechanism (32) to heat or refrigerate according to the ambient temperature and a preset temperature control value; the PFC adjusting module (314) is used for distributing the converted direct-current power supply into current corresponding to a standard value according to each electronic element; the voltage stabilizing module (315) is used for stabilizing the voltage of the direct current output by each electronic element; the overcurrent protection module (316) is used for detecting the current of the circuit to prevent overcurrent; the main control module (312) is used for the power conversion module (311), the temperature control module (313), the PFC adjustment module (314), the voltage stabilization module (315) and the overcurrent protection module (316) to collect and control in all aspects.

6. The intelligent environment temperature control device for air conditioning control according to claim 5, wherein the temperature control mechanism (32) comprises a compressor (321), a condenser (322), an evaporator (323) and an expansion valve (324), an output end of the compressor (321) is electrically connected to an input end of the condenser (322), an output end of the condenser (322) is electrically connected to an input end of the evaporator (323), an output end of the evaporator (323) is electrically connected to an input end of the expansion valve (324), and the compressor (321), the condenser (322), the evaporator (323) and the expansion valve (324) are electrically connected to the power distribution system (31).

7. The intelligent environment temperature control device for air conditioning control according to claim 5, wherein the air path mechanism (33) includes a centrifugal fan (331) and an axial fan (332), the centrifugal fan (331) and the axial fan (332) are electrically connected by a wire, and both the centrifugal fan (331) and the axial fan (332) are electrically connected to the power distribution system (31).

8. A use method of an intelligent environment temperature control device based on air conditioner control is characterized by comprising the following steps:

s1, recording the working time of the temperature detection module (11) through the timing module (12), when the temperature detection module (11) reaches the timing node, the temperature of the current environment space is detected and sent to a second wireless signal transceiver module (21) through a first wireless signal transceiver module (13), at the moment, the second wireless signal transceiver module (21) sends the received temperature data to a data receiving module (22), at the moment, the data receiving module (22) identifies the data and sends the data to a judging module (23), the judgment module (23) judges the temperature condition of the environment where the environment temperature monitoring mechanism (1) is located according to the received data, then the programmable control module (24) makes an instruction for controlling the temperature adjusting mechanism (3) according to the judgment result of the judgment module (23) and the preset programming, the instruction is sent to the power distribution system (31) through the second wireless signal transceiving module (21);

s2, the temperature control module (313) controls the temperature control mechanism (32) to heat or refrigerate according to the environment temperature and the preset temperature control value, the input alternating current is converted into direct current through the power supply conversion module (311), the converted direct current power supply is distributed into current corresponding to a standard value through the PFC adjustment module (314) according to the compressor (321), the condenser (322), the evaporator (323), the expansion valve (324), the centrifugal fan (331) and the axial flow fan (332), the air exchange speed in the environment space is accelerated under the action of the centrifugal fan (331) and the axial flow fan (332), when heating is needed, the gas Freon is pressurized by the compressor (321) to become high-temperature and high-pressure gas, the gas enters the condenser (322) of the indoor unit to be condensed and liquefied to release heat into liquid, and simultaneously, the indoor air is heated, so that the purpose of improving the indoor temperature is achieved; when refrigeration is needed, gas Freon is pressurized by a compressor (321) to become high-temperature high-pressure gas, the gas enters a heat exchanger condenser (322) of an outdoor unit to be condensed, liquefied and released to become liquid, meanwhile, heat is released to the atmosphere, the liquid Freon is decompressed by an expansion valve (324), the liquid Freon enters an evaporator (323) of an indoor unit to be evaporated, gasified and absorbed to become gas, meanwhile, the heat of indoor air is absorbed, and therefore the purpose of reducing indoor temperature is achieved, the voltage of direct current is output to each electronic element through a voltage stabilizing module (315), and the current of a circuit can be detected under the action of an overcurrent protection module (316) so as to prevent overcurrent.