EA016771B1 - Climatic equipment control unit, system and method - Google Patents

Abstract

The invention pertains to air conditioning, namely, to controlling devices - controllers - to be used in ambient temperature monitoring and control systems, such as heating, ventilation and air conditioning systems with 100% backup required. The invention can be used to control two or more executive units, such as heating/cooling modules, residential and semi-commercial air conditioning systems, ventilation systems (equipped with integrated local master controllers). The suggested technical solution allows to ensure even wear out of equipment in order to provide maximum duration of trouble-free operation of executive units.

Description

The invention relates to the field of air conditioning, and in particular to control devices - controllers, intended for use in control systems and temperature control of the environment, such as heating, ventilation and air conditioning systems with the need for 100% redundancy of the equipment. The invention can be used to control two or more actuators, such as heating, cooling, domestic or semi-industrial air conditioning systems, air ventilation systems, equipped with built-in local control controllers.

State of the art

Currently, to maintain the set temperature parameters, local air conditioning systems or their combinations with forced ventilation systems and, rarely, with heating systems are mainly used. The air conditioning system operates in recirculation mode according to predetermined parameters. Such circuit solutions are traditionally used for systems with large heat dissipation, due to which there is a year-round need for air cooling at the facility. The air conditioner at such facilities usually turns on automatically when the temperature in the room exceeds the set value. If necessary, 100% redundancy of equipment operation, which is in demand at facilities with high requirements for maintaining the temperature regime of equipment operation, non-observance of which can lead to equipment malfunction or its malfunction, usually two or more air conditioning systems are used with the installation of additional emergency devices alarm. Traditionally used devices provide the inclusion of backup climate equipment when a malfunction signal from the main equipment appears and an alarm signal is sent.

A technical solution is known according to the patent of the Russian Federation No. 2241911 A method for remote monitoring of the operation of air conditioners and / or refrigerators.

A known method for remote monitoring of the operation of the refrigeration system and / or air conditioner, namely, that the local monitoring device records the operation parameters of the refrigeration system and / or air conditioner using temperature sensors located on the pipelines of the refrigeration circuit, pressure sensors, humidity and environmental quality, voltage detection sensors installed parallel to electrical devices and electric current sensors process the measured parameters built into the device in the processing unit, assess the quality of the air conditioner and / or refrigeration system according to several criteria based on the algorithm, generate and transmit to the communication line connected to the central console a signal corresponding to its identifier and the calculated operation criterion, transmit control commands to the refrigeration system and / or to the air conditioner through the actuator and receive a control signal from the central console about the quality of exchange and control signals, and the central console receives and ideally the signal is encoded from the local monitoring device, a control signal is sent to the local monitoring device about the quality of the exchange and control signals of the refrigeration system and / or the air conditioner, while the central control panel provides informative visualization of the results of the remote control system on the monitor screen, stores the exchange protocols with the local monitoring device with intermediate data archiving. The technical result consists in creating a universal method for diagnosing the operation of air conditioners and refrigerators of various types and various manufacturers.

A disadvantage of the known technical solution is the inability to provide 100% redundancy of the equipment and the flexible regulation of the specified parameters of the climate equipment.

The closest in the set of essential features and selected by the authors for the prototype is the technical solution described in EP 0618524 A2. The invention relates to a control unit, a system and a control method used in temperature control systems.

The control unit includes a microprocessor-based logic circuit with inputs / outputs for connecting at least two units of HVAC equipment, a power source and a temperature sensor.

The control system includes a temperature sensor, at least two units of HVAC equipment and a control unit.

The control method includes supplying an enable signal to one of the HVAC units and supplying an enable signal to the second unit of HVAC equipment in the event of a disconnection of the first, as well as re-enabling the enable signals if they have not been received within a given period of time.

The disadvantages of the known technical solutions are the inability to provide 100% redundancy of the equipment, the inability to detect equipment malfunctions in the early stages before it goes down,

- 1 016771 the impossibility of equalizing the operating resources of the main and backup equipment, the impossibility of flexible regulation of the specified parameters of the climate equipment when operational management is necessary, as well as to expand the scope of use.

SUMMARY OF THE INVENTION

The technical problem to be solved by the claimed invention is directed is the development of such a unit, system and method for controlling climatic equipment that would significantly expand the functionality of controlling climatic equipment with 100% redundancy of the equipment and a significant increase in the reliability of its operation.

To achieve the technical task, it is proposed to control the climate equipment, which includes a power supply module and a logic circuit based on a microprocessor, with inputs / outputs for connecting at least two units of the climate equipment and a temperature sensor, additionally enter the emergency memory module, executed on microprocessor-based, redundant power supply module, interface module for communication with a computer and at least two diagnostic system control modules for tracking emergency and emergency situations in the operation of HVAC equipment and two modules for switching air conditioners. In this case, the output of the backup power supply module must be connected to the corresponding input of the microprocessor, the input / output of which is also connected to the interface module for communication with the computer. Emergency signals from the units of the climate equipment are supplied to the inputs of the corresponding control modules of the diagnostic systems for monitoring emergency and emergency situations in the operation of the climate equipment, the outputs of which are connected to the corresponding inputs of the microprocessor, while the control signals from the microprocessor are sent to the units of the climate equipment through the corresponding switching modules climatic equipment.

Additional differences of the climatic equipment control unit are the self-diagnosis system control module for tracking emergency and emergency situations in the operation of the climate equipment based on optocouplers, which ensures galvanic isolation of the climate equipment electrical circuits from the control unit's electrical circuits.

The climate equipment switching module is based on a relay, which ensures galvanic isolation of the climate equipment electrical circuits from the control unit's electrical circuits.

To solve the technical problem, it is also proposed in the climate equipment control system, which includes at least two climate equipment units, a temperature sensor and a climate equipment control unit, containing a power supply module and a logic circuit based on a microprocessor with inputs / outputs for connecting at least at least two units of HVAC equipment and a temperature sensor, additionally introduce a hardware-software complex with a connecting cable, connect aemym climate equipment control unit. At the same time, it is additionally proposed to introduce into the climate equipment control unit an emergency memory module based on a microprocessor, a backup power supply module, an interface module for communicating with a computer and at least two diagnostic system control modules for monitoring emergency and emergency situations in the operation of climatic equipment and two modules for switching air conditioners. Moreover, the output of the backup power supply module is connected to the corresponding input of the microprocessor, the input / output of which is also connected to the interface for communication with the computer, while emergency signals from the climate equipment units are fed to the inputs of the corresponding control modules of the self-diagnosis systems to monitor emergency and emergency situations in operation climatic equipment, the outputs of which are connected to the corresponding inputs of the microprocessor, while control signals from the microprocessor arrive on units of HVAC equipment through the appropriate modules for switching HVAC equipment.

An additional feature of the proposed climate equipment control system is that it can contain temperature sensors on the climate equipment evaporators connected to the climate equipment control unit to increase the degree of control over emergency situations.

Also additional differences of the climate equipment control system are the diagnostic systems control module for monitoring emergency and emergency situations in the operation of the climate equipment based on optocouplers, which ensures galvanic isolation of the climate equipment electrical circuits from the control unit electrical circuits, the climate equipment switching module is based on relays thanks to which galvanic isolation of electrical circuits of the climate is ensured chemical equipment from the electrical circuits of the control unit.

To solve the technical problem, it is also proposed in a method for controlling climatic equipment, consisting of at least two blocks of climatic equipment,

- 2 016771, including the inclusion of an enable signal to one of the units of the HVAC equipment and the supply of an enable signal to the second unit of HVAC equipment in the event of a disconnection of the first, provide for the following operations:

turn on the signal to the second unit of climatic equipment after a specified period of time, depending on the specified climatic parameters in the room, if the specified climatic parameters go beyond the specified permissible limits, turn on the currently backup unit to bring the temperature parameters into line with the set ones, an alarm signal transfer situations to the control unit and write to the emergency memory module, analyze emergency situations and issue recommendations and replacement or repair of the equipment.

Additional differences of the proposed method are that the inclusion signal can be produced after a predetermined period of time depending on the specified climatic parameters on the evaporators of the climatic equipment.

Proposed in this invention, the unit, system and method for controlling climatic equipment allows you to maintain the required temperature parameters in the room with a high degree of accuracy and reliability, while turning on the backup temperature control device in a situation when heat inflows or heat losses significantly exceed the calculated ones, the possibility of applying in the cold season, in parallel with air conditioning systems, Egee Sooyid systems to maintain the required on-site temperature in the cold season. This allows you to significantly reduce energy consumption by auxiliary (climatic) equipment (refers to a version with three temperature control sensors and three outputs for connecting actuators), the inclusion of a backup temperature control device when the main device fails, and an emergency signal when it occurs , monitoring of potential emergency situations that are not monitored by their own control systems for temperature maintenance devices, leveling p LAS operation of the main and backup devices maintain the temperature, the possibility of remote control of the current temperature parameters of the facility, as well as the flexibility adjustment device operational control parameters if needed, and to widen the scope of use, stored in a memory device stories emergencies.

List of figures

The invention is illustrated by the following drawings.

In FIG. 1 shows a block diagram of a climatic equipment control unit, where 1 is a microprocessor with an emergency memory module, 2 is a power module, 3 is a backup power module, 4 ₁ and 4 ₂ are self-diagnostic system control modules for monitoring emergency and emergency situations equipment, 5 ₁ and 5 ₂ - modules for switching HVAC equipment, 6 interface module for communication with a computer.

In FIG. 2 shows a block diagram of a climate control system, where 7 is a climate control unit, 81 and 8 ₂ are climate control units, 9 is a hardware-software complex (personal computer), 10 is a room temperature sensor, 11 ₁ and 11 ₂ temperature sensors on evaporators of HVAC equipment, 12 - connecting cable.

In FIG. Figure 3 shows one of the options for the control unit made on a printed circuit board, where 1 microprocessor, 2 - power supply module, 3 - backup power supply module, 41 and 42 - control modules of self-diagnostic systems for tracking emergency and emergency situations in the operation of climatic equipment, 5 ₁ and 5 ₂ - modules for switching climatic equipment, 6 - interface module for communication with a computer.

Information confirming the possibility of carrying out the invention

The proposed control unit is intended for use in systems that maintain temperature at facilities with the need for guaranteed year-round cooling (interaction with equipment with a heating function is also possible) with 100% redundancy.

One embodiment of the control unit shown in FIG. 3, contains eight inputs designed to monitor the condition of the climate equipment 81 and 82 (primary and backup air conditioners equipped with their own diagnostic system), four for each. Emergency signals from the built-in diagnostic system of climatic equipment are supplied to the inputs of the control unit 7, which are galvanically isolated from the signal source to increase operational reliability (optocouplers are used). As signals, the blinking of the LEDs for indicating the operation mode of the air conditioners, which at the same time are indicators of the emergency state, can be used. The number and duty cycle of pulses from the source, which are

- 3 016771 are indicated by an emergency, can be set (changed) through the programming interface of the set parameters of the device (from a PC);

contact groups designed to connect one, two, three or four temperature sensors. One of the sensors is designed directly to control the temperature at the facility, two are designed to control the temperature of evaporators in the air conditioning cooling sections. This is necessary so that in case of freon leakage from the refrigeration circuit of the air conditioner, give an alarm signal and fix the reason for its supply. The basic controllers of most actuators (air conditioners) do not track the occurrence of an accident in such situations. At the same time, unit 7, even in the version with one temperature sensor, monitors (indirectly) refrigerant leaks, since an air conditioner with a lack of refrigerant in the circuit will not be able to provide sufficient performance, as a result of which in time an alarm will inevitably give an alarm about a temperature at the facility. The fourth sensor is used in modules designed in addition to controlling cooling or heating modules and also controlling the operation of ventilation equipment (Bgee Soapd mode);

LED general information indicators showing the current operating mode of the main and backup executive equipment, emergency mode, in the event of an emergency, as well as the operating mode of additional executive equipment (Bgee Soo1shd mode) for the corresponding version;

two or three groups of power contacts (outputs), designed to connect two or three climatic devices, are dry normally closed contacts. The outputs can be connected to cooling, heating or ventilation devices equipped with their own control and diagnostic systems with the function of preserving the set parameters when the power is turned off and resuming operation at the previously set parameters. Climate control system format - enable or disable the supply of 220 V 50 Hz to power devices. If it is necessary to switch high currents, intermediate power control elements can be connected to these contacts;

alarm contact group, designed to give an alarm signal - is a dry normally open contact that closes when an emergency occurs and when the power supply to the control module disappears;

формата electrical connector designed to program the unit, set operating parameters and monitor the state, which is connected via an additional cable to the COM port of a personal computer (KB-232 interface).

When programming the set parameters of the device, you can change the set values:

a) the maximum permissible operating temperature at the monitored facility (monitored by a temperature sensor). For modules with four temperature control sensors and with three outputs for connecting the actuators, the maximum and minimum temperatures can be set, as well as the control outdoor temperature to control the function Bgee Coo1td.

b) The number and duty cycle of alarm input signals from actuators, which is necessary for error-free interpretation of alarm signals when actuators of various manufacturers are used.

c) The rotation period of the actuators in order to ensure uniform production of resources to increase the period of their trouble-free operation.

6) The permissible period of exceeding the specified maximum permissible operating temperature.

f) Current intrinsic time of the control module (it is possible to synchronize with the system time).

Ranges of change of parameters:

thresholds for setting the temperature: + 10-45 °, resolution of 0.1 °;

threshold exceeding time: 10-600 s, change resolution 10 s; rotation period: 10 s - 1 week, change resolution 10 min;

number of LED flashes: 3-100, change resolution 1 flash; pause duration between flashes: 0.05-2.5 s, change resolution 0.01 s. The method of controlling climatic equipment is as follows.

When you turn on the control unit 7, the latter polls the status of the inputs for emergency monitoring. In the absence of alarms from the climatic devices 8, power is supplied to the main executive climate device 8 !, which starts to work by adjusting the air temperature at the facility in accordance with the parameters specified in its control system. In the case when the temperature at the moment of switching on exceeds the preset maximum permissible operating temperature, the control unit 7 turns on the main and backup executive climate devices 81 and 82 at the same time. As a result of the simultaneous operation of the two devices, the temperature at the facility must for a time not exceeding the permissible period of exceeding the set the maximum allowable working temperature (b), drop below the maximum set

- 4 016771 permissible operating temperature (a). The same algorithm is observed with a sudden increase in temperature at the facility (increase in heat inflows), when backup executive equipment is turned on when the temperature at the facility rises above the set maximum temperature (a). Thus, a two-stage operation scheme is implemented. In the event that after turning on two actuators within a predetermined time (b), the temperature does not fall below a predetermined (a), an alarm is given. Such a signal is recorded in the memory as a temperature alarm. When this alarm signal is given, two red LEDs are lit simultaneously on the control unit 7.

During the normal operation of climatic devices 8 (maintaining the set temperature parameters at the facility), a rotation of the equipment occurs after a specified period of time (s) (alternate operation of the main and backup actuators). The operation status of each device is indicated by the glow of the corresponding green LED. Also, the status and time remaining until the next rotation can be controlled through a connected communication line with computer 9.

In the event of an emergency on the climate control unit, the control unit 7 generates an alarm signal, which is recorded in the emergency memory module, which can be tracked through the connected computer 9, and the corresponding red LED also lights up.

The alarm information stored in the emergency memory is available when the computer is connected and has the following structure:

date of occurrence of the alarm;

time of occurrence of the alarm;

flags of the LEDs of each of the air conditioners K1 and K2, respectively.

In the event that the outdoor temperature drops below the minimum set value (a), the function Rgee Sooyid can be used to maintain the temperature at the facility, if the equipment for its implementation is available at the facility (applicable only for control modules with two or four temperature sensors).

Claims (9)

1. The control unit for HVAC equipment, including a power module and a logic circuit based on a microprocessor, with inputs / outputs for connecting at least two units of HVAC equipment, characterized in that it also includes an emergency memory module based on a microprocessor , a backup power supply module, an interface module for communication with a computer, and at least two control modules for self-diagnostic systems for monitoring emergency and emergency situations in operation HVAC equipment and two air conditioner switching modules, the output of the backup power supply module being connected to the corresponding microprocessor input, the input / output of which is also connected to the interface module for communication with a computer, while emergency signals from the climate equipment units are sent to the inputs of the corresponding system control modules self-diagnostics for tracking emergency and emergency situations in the operation of HVAC equipment, the outputs of which are connected to the corresponding inputs of kroprotsessora, while control signals received from the microprocessor at blocks HVAC equipment through appropriate switching of HVAC equipment modules. 2. The climatic equipment control unit according to claim 1, characterized in that the light indication interrogation module is based on optocouplers, which ensures galvanic isolation of the climate equipment electrical circuits from the electrical circuits of the control unit. 3. The climatic equipment control unit according to claim 1, characterized in that the climatic equipment switching module is based on a relay, which ensures galvanic isolation of the climate equipment electrical circuits from the electrical circuits of the control unit. 4. Climate control system, comprising at least two climate control units, a temperature sensor and a climate control unit, comprising a power supply module and a logic circuit based on a microprocessor with inputs / outputs for connecting at least two climate control units and temperature sensor, characterized in that a hardware-software complex with a connecting cable connected to the climate control unit is introduced into it it, in which an emergency memory module based on a microprocessor, a backup power supply module, an interface module for communicating with a computer and at least two control modules for self-diagnostic systems for monitoring emergency and emergency situations in the operation of HVAC equipment and two air conditioner switching modules are introduced moreover, the output of the backup power supply module is connected to the corresponding input of the microprocessor, the input / output of which is also connected to the interface for communication with the computer, at the same time, emergency signals from the units of the climatic equipment arrive at the inputs of the corresponding control modules of the self-diagnosis systems for - 5 016771 tracking emergency and abnormal situations in the operation of HVAC equipment, the outputs of which are connected to the corresponding inputs of the microprocessor, while control signals from the microprocessor are fed to the units of the HVAC equipment through the appropriate switching modules of the HVAC equipment. 5. The climate equipment control system according to claim 4, characterized in that it further comprises temperature sensors on the climate equipment evaporators connected to the climate equipment control unit. 6. The climate equipment control system according to any one of claims 4-5, characterized in that the control module for self-diagnosis systems for monitoring emergency and emergency situations in the operation of the climate equipment is based on optocouplers, which ensures galvanic isolation of the electrical circuits of the climate equipment from electrical circuits control unit. 7. The climate equipment control system according to any one of claims 4-5, characterized in that the climate equipment switching module is based on a relay, thereby galvanically decoupling the climate equipment electrical circuits from the electrical circuits of the control unit. 8. A method for controlling climatic equipment consisting of at least two units of climatic equipment, comprising supplying an enable signal to one of the units of climate equipment and supplying an enable signal to a second unit of climate equipment in the event of a shutdown of the first, characterized in that the supply of an enable signal to the second the climatic equipment block is produced after a predetermined period of time depending on the specified climatic parameters in the room, in the case of the output of the specified climatic their parameters beyond the specified permissible limits, include a backup unit at the moment for bringing the temperature parameters in line with the set ones, an emergency signal is transmitted to the control unit and recorded in the emergency memory module, analysis of emergency situations and issuing recommendations on the replacement or repair of equipment . 9. The method of controlling climatic equipment according to claim 8, characterized in that the activation signal is generated after a predetermined period of time depending on the specified climatic parameters on the evaporators of the climatic equipment.