CN211177308U - Double-time-interval and double-temperature-interval management system of air conditioner of ATM machine room - Google Patents

Double-time-interval and double-temperature-interval management system of air conditioner of ATM machine room Download PDF

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Publication number
CN211177308U
CN211177308U CN201922282432.7U CN201922282432U CN211177308U CN 211177308 U CN211177308 U CN 211177308U CN 201922282432 U CN201922282432 U CN 201922282432U CN 211177308 U CN211177308 U CN 211177308U
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temperature value
air conditioner
terminal controller
instruction
target temperature
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辜斌
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辜斌
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Abstract

The utility model provides a two temperature section management systems of two periods of ATM computer lab air conditioner belongs to ATM computer lab temperature control field. For solving because of the meaningless operating duration of ATM computer lab air conditioner is long, the operation is unreasonable, and the management is inconvenient, causes a large amount of electric energy extravagant problems, this application includes: the terminal controller is installed in an ATM machine room and prestores an air conditioning instruction of the machine room, wherein the air conditioning instruction comprises a shutdown instruction, a refrigeration instruction and/or a heating instruction; uploading the indoor environment temperature value detected in real time after the terminal controller is powered on and started; the cloud management center sets control time periods of manned states and unmanned states in the ATM room, and sets corresponding target temperature values respectively; the terminal controller compares the indoor environment temperature value detected in real time with a corresponding target temperature value according to data transmitted by the cloud management center; the terminal controller sends a corresponding air conditioner instruction to the air conditioner according to the comparison result; the air conditioner is shut down or performs cooling operation or heating operation according to the received air conditioner instruction.

Description

Double-time-interval and double-temperature-interval management system of air conditioner of ATM machine room
Technical Field
The utility model relates to a ATM computer lab temperature control field, in particular to two sections of temperature management system of two periods of ATM computer lab air conditioner.
Background
The environmental condition of the machine room: the ATM machine room is a totally closed space, has specific personnel entry and exit rules and regulations, and has different human-computer required temperatures according to the human health comfort requirement and the standard temperature requirement of equipment. The existing management mechanism and the technical method do not distinguish the difference of human-computer separation and human-computer coexistence state in the machine room, and the air conditioner is usually set at a single temperature meeting the human body requirement and operates all the year round, so that the meaningless operation time of the air conditioner is long, the management is inconvenient, and a large amount of electric energy is wasted. The existing machine room cannot carry out man-machine state conversion and different temperature settings in the aspect of management modes and facility configuration, and is lack of efficient and convenient intelligent management.
The air conditioner running state: when the temperature control that current air conditioner was refrigerating and heating was adjusted, the air conditioner carries out the compressor according to setting temperature and opens and stop control, under the refrigeration mode: when the room temperature is higher than the set temperature, the air conditioner starts the compressor for refrigeration, and when the room temperature is lower than the set temperature, the compressor is stopped, and only air supply is kept. In the heating mode: when the room temperature is lower than the set temperature, the air conditioner starts the compressor to heat (including electric auxiliary heating), and when the room temperature is higher than the set temperature, the compressor is shut down, and only air supply is kept. The air conditioner can only perform room temperature adjustment according to a single temperature setting and mode. And the management is inconvenient, and the switching of the refrigeration and heating modes is difficult.
The common situation of ATM rooms and the difficulties of air conditioning management are:
1. the stay time (less than 1 hour/day on average) for the staff to enter the machine room (adding money and maintaining)
2. The human-computer required temperature is different, the required temperature of the ATM equipment is 0-40 ℃, and the required temperature of a human body is 16-28 ℃.
3. The air conditioner is generally provided with refrigeration at 23-25 ℃, so that long-term low temperature is caused, the air conditioner is meaningless, long in refrigeration time and large in energy consumption waste.
4. When extreme weather comes in winter, the starting and stopping time of heating cannot be determined, and management is inconvenient.
5. ATM machine rooms are widely different. After power failure, part of the air conditioner cannot be automatically started.
SUMMERY OF THE UTILITY MODEL
The utility model aims at providing a two section management systems of temperature of two periods of ATM computer lab air conditioner solves because of the meaningless operating duration of ATM computer lab air conditioner is long, and the operation is unreasonable, and the management is inconvenient, causes the extravagant problem of a large amount of electric energy.
The utility model provides a its technical problem, the technical scheme of adoption is: the double-time-interval and double-temperature-interval management system of the air conditioner of the ATM machine room comprises a cloud management center and a terminal controller, wherein the terminal controller is arranged in the ATM machine room, the air conditioner is arranged in the ATM machine room, and the terminal controller is connected with the cloud management center;
the cloud management center is used for setting a manned state in the ATM machine room as a control time interval I, a target temperature value I and a target temperature value II corresponding to the time interval, setting an unmanned state in the ATM machine room as a control time interval II, and transmitting a target temperature value III and a target temperature value IV corresponding to the time interval to the terminal controller;
the terminal controller is used for detecting the indoor environment temperature value in real time and learning, storing and transmitting an air conditioning instruction, wherein the learned and stored air conditioning instruction comprises a shutdown instruction, a refrigeration instruction and/or a heating instruction;
the terminal controller is also used for receiving and storing a first target temperature value, a second target temperature value, a first control time interval, a third target temperature value, a fourth target temperature value and a second control time interval;
when the time is in the control time interval, the terminal controller compares the indoor environment temperature value detected in real time with a target temperature value I, if the indoor environment temperature value is higher than the target temperature value I, the terminal controller calls a refrigeration instruction and sends the refrigeration instruction to the air conditioner, when the air conditioner controls the indoor environment temperature value to reach a specified range lower than the target temperature value, the terminal controller calls a shutdown instruction and sends the shutdown instruction to the air conditioner, and the air conditioner shuts down; if the indoor environment temperature value is lower than the target temperature value II, the terminal controller calls a heating instruction and sends the heating instruction to the air conditioner, and when the air conditioner controls the indoor environment temperature value to reach a range specified by the target temperature value II, the terminal controller calls a shutdown instruction and sends the shutdown instruction to the air conditioner, and the air conditioner shuts down;
when the time is in the control time interval II, the terminal controller compares the indoor environment temperature value detected in real time with a target temperature value III, if the indoor environment temperature value is higher than the target temperature value III, the terminal controller calls a refrigeration instruction and sends the refrigeration instruction to the air conditioner, when the air conditioner controls the indoor environment temperature value to reach a range lower than the target temperature value III, the terminal controller calls a shutdown instruction and sends the shutdown instruction to the air conditioner, and the air conditioner shuts down; if the indoor environment temperature value is lower than the target temperature value four, the terminal controller calls a heating instruction and sends the heating instruction to the air conditioner, and when the air conditioner controls the indoor environment temperature value to reach the range specified by the target temperature value four, the terminal controller calls a shutdown instruction and sends the shutdown instruction to the air conditioner, and the air conditioner shuts down.
The terminal controller comprises a communication module, a temperature detection module, a remote control storage module, a control module and a power module, wherein the power module is externally connected with a power supply, the power module is respectively connected with the communication module, the temperature detection module, the control module and the remote control storage module in the terminal controller, the terminal controller is connected with the air conditioner through the remote control storage module, the cloud management center is connected with the control module through the communication module, and the temperature detection module and the remote control storage module are both connected with the control module;
the power supply module is used for providing working power supply for the communication module, the temperature detection module, the control module and the remote control storage module;
the communication module is used for receiving a first target temperature value, a second target temperature value and a first control time interval of a manned state in the ATM machine room set by the cloud management center, and a third target temperature value, a fourth target temperature value and a second control time interval of an unmanned state in the ATM machine room set by the cloud management center, transmitting the received values to the control module and uploading real-time data in the control module;
the temperature detection module is used for detecting the indoor environment temperature value in real time and feeding the indoor environment temperature value back to the control module;
the remote control storage module is used for learning, storing and transmitting air conditioner instructions, wherein the learned and stored air conditioner instructions comprise shutdown instructions, refrigeration instructions and/or heating instructions;
the control module is used for receiving and storing a first target temperature value, a second target temperature value, a first control time interval, a third target temperature value, a fourth target temperature value and a second control time interval;
when the time is in the control time interval, the terminal controller compares the indoor environment temperature value detected by the temperature detection module in real time with a target temperature value I through the control module, if the indoor environment temperature value is higher than the target temperature value I, the terminal controller calls a refrigeration instruction in the remote control storage module and sends the refrigeration instruction to the air conditioner, when the air conditioner controls the indoor environment temperature value to reach a specified range lower than the target temperature value, the terminal controller calls a shutdown instruction and sends the shutdown instruction to the air conditioner, and the air conditioner shuts down; if the indoor environment temperature value is lower than the target temperature value three, the terminal controller calls a heating instruction in the remote control storage module and sends the heating instruction to the air conditioner, and when the air conditioner controls the indoor environment temperature value to reach a range specified by the target temperature value three, the terminal controller calls a shutdown instruction and sends the shutdown instruction to the air conditioner, and the air conditioner shuts down;
when the time is in the second control period, the terminal controller compares the indoor environment temperature value detected by the temperature detection module in real time with the second target temperature value through the control module, if the indoor environment temperature value is higher than the second target temperature value, the terminal controller calls a refrigeration instruction in the remote control storage module and sends the refrigeration instruction to the air conditioner, when the air conditioner controls the indoor environment temperature value to reach the range lower than the second target temperature value, the terminal controller calls a shutdown instruction and sends the shutdown instruction to the air conditioner, and the air conditioner shuts down; if the indoor environment temperature value is lower than the target temperature value four, the terminal controller calls a heating instruction in the remote control storage module and sends the heating instruction to the air conditioner, and when the air conditioner controls the indoor environment temperature value to reach a range specified by the target temperature value four, the terminal controller calls a shutdown instruction and sends the shutdown instruction to the air conditioner, and the air conditioner shuts down.
Furthermore, a communication module of the terminal controller is provided with a network wireless interface antenna and a network wired interface.
Furthermore, a remote control learning input port and a remote control transmitting output port are arranged on a remote control storage module of the terminal controller, the remote control learning input port is used for learning the air conditioner remote control instruction, and the remote control transmitting output port is used for transmitting the air conditioner remote control instruction.
Further, the power supply is an alternating current 220V power supply.
Further, an indoor temperature probe is arranged on a temperature detection module of the terminal controller, and the indoor temperature probe is arranged inside the ATM machine room and used for realizing real-time detection of the temperature inside the ATM machine room and transmitting the temperature to the control module.
Further, the terminal controller is also used for detecting the outdoor environment temperature value and the voltage and the current of the air conditioner in real time and transmitting the outdoor environment temperature value and the voltage and the current to the cloud management center, and the cloud management center calculates and compares the power consumption of the air conditioner without the terminal controller under the isothermal condition according to the outdoor environment temperature value and the voltage and the current of the air conditioner which are detected in real time.
The terminal controller further comprises a detection module, the detection module is used for detecting the voltage and the current of the air conditioner and transmitting the voltage and the current to the cloud management center, an RS485 communication interface is arranged on the control module of the terminal controller, the control module is respectively connected with the intelligent electric meter and the outer platform through the RS485 communication interface, and the intelligent electric meter is used for counting the power consumption of the air conditioner when the air conditioner is not added into the terminal controller and counting the power consumption of the air conditioner when the air conditioner is added into the terminal controller and checking the power consumption through the outer platform.
The beneficial effects of the utility model are that, through two temperature management systems of time of above-mentioned ATM computer lab air conditioner, through at the indoor increase terminal control ware of ATM computer lab, it is different to utilize people/quick-witted demand temperature, and the start-stop period of man-machine state is different, carries out the temperature setting and the temperature regulation of different periods, takes two time double temperature to carry out air conditioner supervisory control, can reduce the unnecessary operation of air conditioner, improves air conditioner operating efficiency, swift management, remote management reduces the air conditioner energy consumption by a wide margin, extension air conditioner life.
And, the indoor terminal controller who adds can carry out remote control management to the air conditioner, realizes: the terminal management right is higher than the temperature control module of the air conditioner, and the air conditioner receives the instruction of a terminal controller and adjusts the room temperature according to the double-time-interval and double-temperature-interval.
And, realize remote management through network connection, the terminal controller receives backstage instruction management, realizes two time dual temperature systematized dispatch control, wherein, two time mean: namely, the double time periods refer to the man-machine separation time period and the man-machine simultaneous time period of the machine room, and the double temperature refers to: namely, the double temperature sections refer to constant temperature regulation of the high temperature section and the low temperature section of the air conditioner managed by the system according to different temperatures of human-computer requirements.
In addition, by implementing background management, the method can set and remotely manage the air conditioner of the individual machine room according to different environment differences, and the air conditioner automatically runs.
Drawings
Fig. 1 is a schematic view of the overall structure of the dual-time dual-temperature management system of the ATM room air conditioner of the present invention;
fig. 2 is a schematic structural diagram of the terminal controller according to the present invention.
Detailed Description
The technical solution of the present invention will be described in detail with reference to the accompanying drawings and embodiments.
Two temperature management system when ATM computer lab air conditioner is two, its overall structure constitutes the schematic diagram and refers to figure 1, wherein, this system includes high in the clouds management center and terminal control ware, terminal control ware sets up inside ATM computer lab, and ATM computer lab internally mounted has the air conditioner, terminal control ware is connected with high in the clouds management center.
In the system, the cloud management center is used for setting the manned state in the ATM machine room as a first control time interval, the target temperature value I and the target temperature value II corresponding to the time interval, setting the unmanned state in the ATM machine room as a second control time interval, and the target temperature value III and the target temperature value IV corresponding to the time interval, and transmitting the target temperature value III and the target temperature value IV to the terminal controller.
The terminal controller is used for detecting the indoor environment temperature value in real time and learning, storing and transmitting an air conditioning instruction, wherein the learned and stored air conditioning instruction comprises a shutdown instruction, a refrigeration instruction and/or a heating instruction; the terminal controller is further used for receiving and storing a first target temperature value, a second target temperature value, a first control time interval, a third target temperature value, a fourth target temperature value and a second control time interval.
When the time is in the control time interval, the terminal controller compares the indoor environment temperature value detected in real time with a target temperature value I, if the indoor environment temperature value is higher than the target temperature value I, the terminal controller calls a refrigeration instruction and sends the refrigeration instruction to the air conditioner, when the air conditioner controls the indoor environment temperature value to reach a specified range lower than the target temperature value, the terminal controller calls a shutdown instruction and sends the shutdown instruction to the air conditioner, and the air conditioner shuts down; if the indoor environment temperature value is lower than the second target temperature value, the terminal controller calls a heating instruction and sends the heating instruction to the air conditioner, and when the air conditioner controls the indoor environment temperature value to reach a range higher than the second target temperature value, the terminal controller calls a shutdown instruction and sends the shutdown instruction to the air conditioner to shut down the air conditioner.
When the time is in the control time interval II, the terminal controller compares the indoor environment temperature value detected in real time with a target temperature value III, if the indoor environment temperature value is higher than the target temperature value III, the terminal controller calls a refrigeration instruction and sends the refrigeration instruction to the air conditioner, when the air conditioner controls the indoor environment temperature value to reach a range lower than the target temperature value III, the terminal controller calls a shutdown instruction and sends the shutdown instruction to the air conditioner, and the air conditioner shuts down; if the indoor environment temperature value is lower than the target temperature value four, the terminal controller calls a heating instruction and sends the heating instruction to the air conditioner, and when the air conditioner controls the indoor environment temperature value to reach the range specified by the target temperature value four, the terminal controller calls a shutdown instruction and sends the shutdown instruction to the air conditioner, and the air conditioner shuts down.
In the system, the terminal controller preferably comprises a communication module, a temperature detection module, a remote control storage module, a control module and a power module, the schematic structural composition of the terminal controller is shown in fig. 2, wherein the power module is externally connected with a power supply, the power module is respectively connected with the communication module, the temperature detection module, the control module and the remote control storage module in the terminal controller, the terminal controller is connected with the air conditioner through the remote control storage module, the cloud management center is connected with the control module through the communication module, and the temperature detection module and the remote control storage module are both connected with the control module.
The terminal controller and the power module are used for providing working power for the communication module, the temperature detection module, the control module and the remote control storage module; the communication module is used for receiving a first target temperature value, a second target temperature value and a first control time interval of a manned state in the ATM machine room set by the cloud management center, and a third target temperature value, a fourth target temperature value and a second control time interval of an unmanned state in the ATM machine room set by the cloud management center, transmitting the first target temperature value, the second target temperature value and the second control time interval to the control module, and uploading real-time data in the control module; the temperature detection module is used for detecting the indoor environment temperature value in real time and feeding the indoor environment temperature value back to the control module; the remote control storage module is used for learning, storing and transmitting air conditioner instructions, wherein the learned and stored air conditioner instructions comprise shutdown instructions, refrigeration instructions and/or heating instructions; and the control module is used for receiving and storing a first target temperature value, a second target temperature value, a first control time interval, a third target temperature value, a fourth target temperature value and a second control time interval.
When the time is in the control time interval, the terminal controller compares the indoor environment temperature value detected by the temperature detection module in real time with a target temperature value I through the control module, if the indoor environment temperature value is higher than the target temperature value I, the terminal controller calls a refrigeration instruction in the remote control storage module and sends the refrigeration instruction to the air conditioner, when the air conditioner controls the indoor environment temperature value to reach a specified range lower than the target temperature value, the terminal controller calls a shutdown instruction and sends the shutdown instruction to the air conditioner, and the air conditioner shuts down; if the indoor environment temperature value is lower than the target temperature value three, the terminal controller calls a heating instruction in the remote control storage module and sends the heating instruction to the air conditioner, and when the air conditioner controls the indoor environment temperature value to reach a range specified by the target temperature value three, the terminal controller calls a shutdown instruction and sends the shutdown instruction to the air conditioner, and the air conditioner shuts down.
When the time is in the second control period, the terminal controller compares the indoor environment temperature value detected by the temperature detection module in real time with the second target temperature value through the control module, if the indoor environment temperature value is higher than the second target temperature value, the terminal controller calls a refrigeration instruction in the remote control storage module and sends the refrigeration instruction to the air conditioner, when the air conditioner controls the indoor environment temperature value to reach the range lower than the second target temperature value, the terminal controller calls a shutdown instruction and sends the shutdown instruction to the air conditioner, and the air conditioner shuts down; if the indoor environment temperature value is lower than the target temperature value four, the terminal controller calls a heating instruction in the remote control storage module and sends the heating instruction to the air conditioner, and when the air conditioner controls the indoor environment temperature value to reach a range specified by the target temperature value four, the terminal controller calls a shutdown instruction and sends the shutdown instruction to the air conditioner, and the air conditioner shuts down.
Preferably, in order to implement communication networking, a network wireless interface antenna and a network wired interface are arranged on the communication module of the terminal controller.
Preferably, a remote control learning input port and a remote control transmitting output port are arranged on a remote control storage module of the terminal controller, the remote control learning input port is used for learning the air conditioner remote control instruction, and the remote control transmitting output port is used for transmitting the air conditioner remote control instruction.
Preferably, in order to meet the actual power supply requirement of the terminal controller and ensure the convenience and stability of power supply, the power supply is an alternating current 220V power supply.
Preferably, an indoor temperature probe is arranged on a temperature detection module of the terminal controller, the indoor temperature probe is arranged in the ATM machine room and used for detecting the temperature in the ATM machine room and transmitting the temperature to the control module, and the control module controls the temperature of the air conditioning system according to the detected indoor temperature so as to manage and adjust the indoor temperature.
Preferably, the terminal controller is further configured to detect the outdoor environment temperature value and the voltage and the current of the air conditioner in real time, and transmit the detected outdoor environment temperature value and the voltage and the current of the air conditioner to the cloud management center, and the cloud management center calculates and compares the power consumption of the air conditioner without the terminal controller under the isothermal condition according to the outdoor environment temperature value and the voltage and the current of the air conditioner detected in real time.
Preferably, the terminal controller further comprises a detection module, the detection module is used for detecting the voltage and the current of the air conditioner and transmitting the voltage and the current to the cloud management center, an RS485 communication interface is arranged on a control module of the terminal controller, the control module is respectively connected with the intelligent electric meter and the external platform through the RS485 communication interface, and the intelligent electric meter is used for counting the power consumption of the air conditioner when the air conditioner is not added into the terminal controller and counting the power consumption of the air conditioner when the air conditioner is added into the terminal controller and checking the power consumption through the external platform.
In specific application, the system can be realized according to the following steps:
step 1, a terminal controller is installed in an ATM machine room, an air conditioner instruction of the machine room is prestored, and the operation of an air conditioner is controlled and managed through the air conditioner instruction, wherein the air conditioner instruction comprises a shutdown instruction, a refrigeration instruction and/or a heating instruction.
And 2, uploading the indoor environment temperature value detected in real time after the terminal controller is powered on and started.
And 3, setting control time intervals of the manned state and the unmanned state in the ATM room by the cloud management center, and setting target temperature values of the manned state air conditioner and the unmanned state air conditioner respectively.
Step 4, the terminal controller compares the indoor environment temperature value detected in real time with a corresponding target temperature value according to the received control time intervals of the manned state and the unmanned state and the start-stop temperature values of the manned state and the unmanned state air conditioners;
and 5, the terminal controller sends a corresponding air conditioner instruction to the air conditioner according to the comparison result.
And 6, the air conditioner shuts down or performs cooling operation or heating operation according to the received air conditioner instruction.
In the step 2, after the terminal controller is powered on and started, the outdoor environment temperature value and the voltage and the current of the air conditioner are detected in real time and transmitted to the cloud management center, and the cloud management center calculates and compares the power consumption of the air conditioner without the terminal controller under the isothermal condition according to the outdoor environment temperature value and the voltage and the current of the air conditioner detected in real time.
Therefore, the air conditioner can be controlled to operate by setting different start-stop temperatures according to the start-stop time periods of the man-machine state of the manned/unmanned state in the ATM room, the requirements of human body temperature and the temperature of the ATM are met respectively, and the meaningless operation of the air conditioner is reduced.
Examples
In the embodiment of the present application, the constant temperature (super temperature zone) control of the air conditioner is substantially realized by two-stage management. The first step is as follows: the terminal controller sends an instruction. The second step is that: and after receiving the remote control command, the air conditioner compares the temperature value in the remote control command with the room temperature to perform temperature regulation starting.
In this embodiment, the air conditioner is conventionally set and operated: high-temperature refrigeration or low-temperature heating, which is a man-machine separation period; and after receiving a switching instruction of a background administrator, changing the mode into low-temperature precooling refrigeration (high-temperature preheating heating), which is the same time interval as the human-computer.
The remote control instruction of learning is: a cooling instruction conventionally set in the current situation, a heating instruction conventionally set in the current situation, and a shutdown instruction.
And (3) over-temperature refrigeration: assuming that the set temperature of the man-machine separation is 33 ℃, when the room temperature is higher than 33 ℃, the terminal controller transmits a refrigeration instruction, and since the temperature of the refrigeration instruction which is learned and stored in advance is 23 ℃, the value is obviously higher than the room temperature, the air conditioner compressor is started to operate. When the room temperature is reduced to 32 ℃, the terminal control module judges that the room temperature is lower than the set temperature by 1 ℃, then calls and transmits a shutdown instruction, so that the environment room temperature is kept at a temperature below 33 ℃ and nearby, and the maximum temperature value which can be set can reach 40 ℃.
Heating at an over-temperature: assuming that the set temperature is 10 ℃, when the room temperature is lower than 10 ℃, the terminal controller transmits a heating instruction to heat, and since the lowest temperature of the heating instruction which is learned and stored in advance is 16 ℃, the value is obviously higher than the room temperature, the air conditioner is electrically assisted to heat and the compressor is started to heat. When the room temperature rises to be higher than 12 ℃, the terminal control module judges that the temperature is higher than the set temperature by 2 ℃, then calls and transmits a shutdown instruction to realize that the ambient room temperature is kept at a constant temperature below 12 ℃ and nearby, and the set lowest temperature value can reach 0 ℃.
When the terminal controller detects the indoor temperature in real time, the indoor temperature is compared with the set temperature: and in the cooling mode, if the ambient temperature is higher than the set temperature, sending a cooling instruction. The environment temperature is lower than the set temperature by 1 ℃, and the machine is shut down; in the heating mode: and if the ambient temperature is lower than the set temperature, sending a heating instruction. The ambient temperature is 2 ℃ higher than the set temperature, and the machine is shut down.
The remote command itself contains two parts, mode (cooling/heating) + temperature value. The remote temperature value is a target temperature value.
In addition, in the present embodiment: the remote control refrigeration is 26 ℃, namely the air conditioner refrigeration is required to be cooled to 26 ℃, and the remote control refrigeration is 16 ℃, namely the air conditioner refrigeration is required to be cooled to 16 ℃.
When the temperature value of the remote control refrigeration instruction is lower than the room temperature, the air conditioner starts the compressor to refrigerate, and the temperature is reduced until the target value of the remote control instruction.
If the temperature value of the remote control refrigeration instruction is higher than the room temperature, the instruction cannot start refrigeration, and the air conditioner only supplies air to operate.
When the temperature value of the remote control heating instruction is higher than the room temperature, the air conditioner starts the compressor to heat, and the temperature is raised until the target value of the remote control instruction.
If the temperature value of the remote control heating instruction is lower than the room temperature, the instruction cannot start heating, and the air conditioner only supplies air to operate.
And the terminal controller sends a low-temperature refrigeration instruction at high temperature. The air conditioner can realize refrigeration and cooling, and after the temperature is reduced, the controller sends a shutdown instruction to stop refrigeration, so that the constant temperature control of a set value is realized. According to the same principle, the terminal controller sends a high-temperature heating instruction at a low temperature. The air conditioner can realize heating and temperature rise of the air conditioner, and after the temperature rises, the controller sends a shutdown instruction to stop heating, so that constant temperature control of a set value is realized.
The terminal controller sends a remote control command according to the change of the environmental temperature value and the set value, the remote control command is higher than the set value and commands the air conditioner to refrigerate, and the remote control command is lower than the set value and commands the air conditioner to heat, so that different temperature control in different time periods is realized. Therefore, the problem that the prior art and air conditioner products cannot meet specific operation rules and habits of the ATM room is solved.

Claims (8)

  1. The double-time-interval and double-temperature-interval management system of the air conditioner of the ATM machine room is characterized by comprising a cloud management center and a terminal controller, wherein the terminal controller is arranged in the ATM machine room, the air conditioner is arranged in the ATM machine room, and the terminal controller is connected with the cloud management center;
    the cloud management center is used for setting a manned state in the ATM machine room as a control time interval I, a target temperature value I and a target temperature value II corresponding to the time interval, setting an unmanned state in the ATM machine room as a control time interval II, and transmitting a target temperature value III and a target temperature value IV corresponding to the time interval to the terminal controller;
    the terminal controller is used for detecting the indoor environment temperature value in real time and learning, storing and transmitting an air conditioning instruction, wherein the learned and stored air conditioning instruction comprises a shutdown instruction, a refrigeration instruction and/or a heating instruction;
    the terminal controller is also used for receiving and storing a first target temperature value, a second target temperature value, a first control time interval, a third target temperature value, a fourth target temperature value and a second control time interval;
    when the time is in the control time interval, the terminal controller compares the indoor environment temperature value detected in real time with a target temperature value I, if the indoor environment temperature value is higher than the target temperature value I, the terminal controller calls a refrigeration instruction and sends the refrigeration instruction to the air conditioner, when the air conditioner controls the indoor environment temperature value to reach a specified range lower than the target temperature value, the terminal controller calls a shutdown instruction and sends the shutdown instruction to the air conditioner, and the air conditioner shuts down; if the indoor environment temperature value is lower than the target temperature value II, the terminal controller calls a heating instruction and sends the heating instruction to the air conditioner, and when the air conditioner controls the indoor environment temperature value to reach a range specified by the target temperature value II, the terminal controller calls a shutdown instruction and sends the shutdown instruction to the air conditioner, and the air conditioner shuts down;
    when the time is in the control time interval II, the terminal controller compares the indoor environment temperature value detected in real time with a target temperature value III, if the indoor environment temperature value is higher than the target temperature value III, the terminal controller calls a refrigeration instruction and sends the refrigeration instruction to the air conditioner, when the air conditioner controls the indoor environment temperature value to reach a range lower than the target temperature value III, the terminal controller calls a shutdown instruction and sends the shutdown instruction to the air conditioner, and the air conditioner shuts down; if the indoor environment temperature value is lower than the target temperature value four, the terminal controller calls a heating instruction and sends the heating instruction to the air conditioner, and when the air conditioner controls the indoor environment temperature value to reach the range specified by the target temperature value four, the terminal controller calls a shutdown instruction and sends the shutdown instruction to the air conditioner, and the air conditioner shuts down.
  2. 2. The dual-period dual-temperature-section management system for the air conditioners in the ATM rooms according to claim 1, wherein the terminal controller comprises a communication module, a temperature detection module, a remote control storage module, a control module and a power module, the power module is externally connected with a power supply, the power module is respectively connected with the communication module, the temperature detection module, the control module and the remote control storage module inside the terminal controller, the terminal controller is connected with the air conditioner through the remote control storage module, the cloud management center is connected with the control module through the communication module, and the temperature detection module and the remote control storage module are both connected with the control module;
    the power supply module is used for providing working power supply for the communication module, the temperature detection module, the control module and the remote control storage module;
    the communication module is used for receiving a first target temperature value, a second target temperature value and a first control time interval of a manned state in the ATM machine room set by the cloud management center, and a third target temperature value, a fourth target temperature value and a second control time interval of an unmanned state in the ATM machine room set by the cloud management center, transmitting the received values to the control module and uploading real-time data in the control module;
    the temperature detection module is used for detecting the indoor environment temperature value in real time and feeding the indoor environment temperature value back to the control module;
    the remote control storage module is used for learning, storing and transmitting air conditioner instructions, wherein the learned and stored air conditioner instructions comprise shutdown instructions, refrigeration instructions and/or heating instructions;
    the control module is used for receiving and storing a first target temperature value, a second target temperature value, a first control time interval, a third target temperature value, a fourth target temperature value and a second control time interval;
    when the time is in the control time interval, the terminal controller compares the indoor environment temperature value detected by the temperature detection module in real time with a target temperature value I through the control module, if the indoor environment temperature value is higher than the target temperature value I, the terminal controller calls a refrigeration instruction in the remote control storage module and sends the refrigeration instruction to the air conditioner, when the air conditioner controls the indoor environment temperature value to reach a specified range lower than the target temperature value, the terminal controller calls a shutdown instruction and sends the shutdown instruction to the air conditioner, and the air conditioner shuts down; if the indoor environment temperature value is lower than the target temperature value three, the terminal controller calls a heating instruction in the remote control storage module and sends the heating instruction to the air conditioner, and when the air conditioner controls the indoor environment temperature value to reach a range specified by the target temperature value three, the terminal controller calls a shutdown instruction and sends the shutdown instruction to the air conditioner, and the air conditioner shuts down;
    when the time is in the second control period, the terminal controller compares the indoor environment temperature value detected by the temperature detection module in real time with the second target temperature value through the control module, if the indoor environment temperature value is higher than the second target temperature value, the terminal controller calls a refrigeration instruction in the remote control storage module and sends the refrigeration instruction to the air conditioner, when the air conditioner controls the indoor environment temperature value to reach the range lower than the second target temperature value, the terminal controller calls a shutdown instruction and sends the shutdown instruction to the air conditioner, and the air conditioner shuts down; if the indoor environment temperature value is lower than the target temperature value four, the terminal controller calls a heating instruction in the remote control storage module and sends the heating instruction to the air conditioner, and when the air conditioner controls the indoor environment temperature value to reach a range specified by the target temperature value four, the terminal controller calls a shutdown instruction and sends the shutdown instruction to the air conditioner, and the air conditioner shuts down.
  3. 3. The dual-period dual-temperature-zone management system for the air conditioners of the ATM room as claimed in claim 2, wherein a network wireless interface antenna and a network wired interface are arranged on the communication module of the terminal controller.
  4. 4. The dual-time-interval dual-temperature-interval management system for the air conditioners in the ATM rooms as claimed in claim 2, wherein a remote control learning input port and a remote control transmitting output port are arranged on the remote control storage module of the terminal controller, the remote control learning input port is used for learning the remote control commands of the air conditioners, and the remote control transmitting output port is used for transmitting the remote control commands of the air conditioners.
  5. 5. The dual-period dual-temperature-section air conditioner management system for the ATM room according to claim 2, wherein the power supply is a 220V AC power supply.
  6. 6. The ATM room air conditioner double-time-interval double-temperature-interval management system according to claim 2, wherein an indoor temperature probe is arranged on the temperature detection module of the terminal controller, and the indoor temperature probe is arranged inside the ATM room and used for realizing real-time detection of the temperature inside the ATM room and transmitting the temperature to the control module.
  7. 7. The dual-time-interval dual-temperature-interval management system of the air conditioners in the ATM room as claimed in claim 1, wherein the terminal controller is further configured to detect the outdoor environment temperature value and the voltage and the current of the air conditioners in real time and transmit the detected values to the cloud management center, and the cloud management center calculates and compares the power consumption with the power consumption of the air conditioners without the terminal controller under the isothermal condition according to the outdoor environment temperature value and the voltage and the current of the air conditioners detected in real time.
  8. 8. The double-period double-temperature-section management system for the air conditioners in the ATM rooms according to claim 7, wherein the terminal controller further comprises a detection module, the detection module is used for detecting the voltage and the current of the air conditioners and transmitting the voltage and the current to the cloud management center, an RS485 communication interface is arranged on a control module of the terminal controller, the control module is respectively connected with the intelligent ammeter and the external platform through the RS485 communication interface, and the intelligent ammeter is used for counting the power consumption of the air conditioners when the air conditioners are not added into the terminal controller and counting the power consumption of the air conditioners when the air conditioners are added into the terminal controller and checking the power consumption through the external platform.
CN201922282432.7U 2019-12-18 2019-12-18 Double-time-interval and double-temperature-interval management system of air conditioner of ATM machine room Active CN211177308U (en)

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN113776163A (en) * 2021-07-28 2021-12-10 青岛理工大学 Air conditioner control system and control method

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN113776163A (en) * 2021-07-28 2021-12-10 青岛理工大学 Air conditioner control system and control method

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