RU100118U1 - AUTONOMOUS COMPLEX OF TECHNICAL MEANS OF LIFE SUPPORT OF CONSUMERS - Google Patents

Abstract

The proposed technical solution relates to the field of construction, in particular, to ventilation, heating and lighting of modular structures made using internal combustion engines for heating waste heat in combination with other heat sources and may find application for consumers working in the field, deprived of centralized access to sources of electricity, heat and drinking water. The objective of the proposed utility model is to increase the efficiency and reliability of long-term trouble-free operation of the complex in conditions of remoteness of consumers from developed infrastructures / in the field / under difficult atmospheric conditions: elevated to plus 50 degrees Celsius and lowered to minus 50 degrees Celsius atmospheric temperatures, and also in increasing the multifunctionality of the complex. The task is achieved through the use of a mobile, preferably truck-mounted truck platform, one container, inside of which are located systems of life support equipment of the complex, including primary and backup power supply systems using energy from the combustion of hydrocarbon fuel and the energy of the sun and wind. The complex is controlled by the operator through a stationary or remote control panel systems of technical means of life support. The proposed autonomous complex provides the consumer, located outside the container, with electricity received through a diesel generator set and through solar panels and a wind generator, and used to illuminate the premises and to drive units of all the complex systems used, allows to heat the consumer premises by heating the liquid coolant in heat exchangers as utilized heat of exhaust gases of an internal combustion engine and / or heated during engine operation cooling liquid, and / or at least one electric heater, placed inside the boiler with a coolant, or as a result of the air conditioning system working in the heat pump mode, and also allows cooling the air pumped into the consumer premises in the air conditioning system, which allows providing the consumer with communication systems, containing a satellite transceiver station with an antenna, a satellite TV receiving station, a telephone exchange with antennas, a broadcasting station, a set of data transmission equipment, a set of The equipment for providing wireless communications allows security and fire alarms, as well as fire fighting if necessary. The utility model contains 6 z.p. f-ly and 5 ill.

Description

The proposed technical solution relates to the field of construction, in particular, to ventilation, heating and lighting of modular structures made using internal combustion engines for heating waste heat in combination with other heat sources and may find application for consumers working in the field, deprived of centralized access to sources of electricity, heat and drinking water.

Already known is an autonomous complex of technical means of life-support for consumers, made inside several thermally insulated containers, each of which has an entrance door. At the same time, consumers of all life support equipment are located outside the containers in the field and are connected to it through power and information cables, as well as through air ducts and pipelines.

The specified complex includes a main autonomous power supply system containing two diesel-electric installations, consisting of a diesel internal combustion engine and an alternating current generator, of which one diesel-electric installation is a backup source of autonomous power supply, both sources of autonomous power supply are combined by one consumer power bus and communicated with the battery charging system and the battery supply autonomous power.

In addition, the complex comprises a fuel supply system comprising at least one fuel tank communicated for supplying fuel to an internal combustion engine, a heating, ventilation and air conditioning system, a lighting system, a fire alarm and fire extinguishing system, and a communication system comprising a satellite transceiver station with antenna, satellite TV receiving station, automatic telephone exchange with antennas, broadcasting station, set of data transmission equipment, set of equipment for wireless communication, omplekt burglar alarm equipment and a complex control system, with a stationary control unit disposed within one of the containers, in a single compartment with an operator. / RF patent No. 76945 for utility model "Autonomous telecommunications complex for coordination and monitoring of construction work", IPC Е04Н 1/00, publ. 2008 year

The technical solution, taken as a prototype, allows you to provide the consumer in the field with electricity and telecommunications, but the complex is not multifunctional, reliable and efficient, since it does not allow you to adjust the air temperature in the consumer’s premises at high temperatures up to +50 degrees Celsius ambient air, and at low temperatures up to -50 degrees Celsius, and also due to the fact that there is no supply of purified water to the consumer from ground or voluminous sources, there is no source of electricity that is not connected to the diesel generator set, which can lead to blackouts in the event of a failure of the diesel generator, and there is no saving in diesel fuel for electricity production, since the energy potential of solar energy and energy is not used the wind.

The objective of the proposed utility model is to increase the efficiency and reliability of long-term trouble-free operation of the complex in conditions of remoteness of consumers from developed infrastructures / in the field / under difficult atmospheric conditions: elevated to plus 50 degrees Celsius and lowered to minus 50 degrees Celsius atmospheric temperatures, and also consists in increasing the multifunctionality of the complex.

To solve the problem with the achievement of the claimed technical result in the well-known autonomous complex of technical means of life support for consumers, located inside at least one container with an entrance door mounted on a supporting surface, and including a main autonomous power supply system containing at least one diesel-electric installation consisting of a diesel internal combustion engine and an alternator associated with a battery charging system tare and battery power supply system, and at least one backup source of autonomous power supply, a fuel supply system containing at least one fuel tank, communicated for fuel supply with an internal combustion engine, a heating, ventilation and air conditioning system, a lighting system, a fire alarm and fire extinguishing systems, a communication system containing a satellite transceiver station with an antenna, a satellite TV receiving station, a telephone exchange with antennas, a broadcasting station, a set data transmission equipment, a set of equipment for providing wireless communication, a set of security alarm equipment, as well as a control system for all systems of the complex, including a stationary control panel, according to the proposed utility model, the container is divided by partitions to form compartments for individual systems of the complex and equipped with fixed to the outside the wall of the container remote from the internal combustion engine, at least one inlet pipe for atmospheric air intake with an adjustable damper and flexible heat-insulated air ducts, installed with the possibility of communication with consumers through air distribution boxes, stand-alone sources of autonomous power supply in the power supply system of the complex are made in the form of a wind generator with a rated power of at least 200 watts, mounted on the container through telescopic elements, and in the form of solar batteries installed on the roof of the container with a total rated power of at least 660 watts. It is equipped with an additional battery charging system associated with backup power sources / solar panels and a wind generator /, an inverter installed with the possibility of obtaining a single-phase alternating current, and a battery of the power supply system, and the internal combustion engine is equipped with an exhaust gas neutralizer, a noise muffler with a three-way valve in exhaust pipe and heat exchangers-heat exchangers for exhaust gas and / or coolant, air conditioning system It is made in the form of two refrigerant circulation circuits connected in parallel with one evaporator, each of which contains an increased pressure refrigerant vapor generator, a refrigerant vapor condenser installed with the possibility of cooling by an independent fan, and a receiver to remove water from the condensed refrigerant vapor; each refrigerant circuit is equipped with a throttle installed with the ability to reduce the vapor pressure of the refrigerant to a predetermined values and a four-way valve, / the ventilation system is made in the form of two separate circuits of air circulation, each of which is connected with at least one inlet of the container for air intake from the atmosphere and is equipped with louvers made with the possibility of regulation, a filter and a fan that provides air circulation at least 9000 m ³ / h / for the two circulation circuits / at a pressure of 120 mmAq and sensors inlet and outlet air temperature, humidity sensors and clogging of filters, with The air heating system comprises an air heating heat exchanger connected to a circulation pump equipped with an expansion tank, controlling, for example, four-way valves, the forced circulation circuit of the heat transfer fluid through heat exchangers utilizing heat of exhaust gases and / or coolant of an internal combustion engine, and through a boiler equipped with at least one electric heating element, moreover, the air heat exchanger is installed in one unit with an evaporator of the cond system positioning with the possibility of drawing air through them with one fan common to them and heating during operation of the air conditioning system in the heat pump mode.

The control system contains a regulator for opening the air intake damper, a three-way valve opening regulator in the exhaust pipe of the internal combustion engine, and a four-way valve opening regulator in the circulation circuits of the liquid coolant depending on the readings of the temperature sensors of the incoming and outgoing air, respectively, the humidity sensor and the clogging sensors filters.

The complex control system controls the parameters of the air supplied to the consumer and contains controllers for opening the air intake valves, valves in the exhaust pipe and valves in the circulation circuits of the liquid coolant flow, depending on the readings of the air temperature and coolant sensors and the clogging sensors of filters, valves and chokes of the air conditioning system, and also made with the possibility of blocking, excluding the simultaneous operation of the complex in heating and cooling mode air supplied by the ventilation system.

The complex control system can be additionally equipped with a remote control.

The container can be placed on a supporting surface and can additionally include a truck, preferably KAMAZ, MAZ, URAL, on the platform of which the container can be installed and fixed, i.e. the car platform is its supporting surface.

The walls of the container in the compartment of the ventilation system can be made with removable panels.

As an electric heating element in the boiler, a WARMOS-M-30 heating device can be used.

For the production of drinking water from groundwater and surface water intakes, the complex can be equipped with a comprehensive three-level water purification system and a drinking water tank.

The fan blades can be made with the possibility of regulation.

The essence of the proposed technical solution is illustrated graphically.

Figure 1 shows the proposed complex mounted on the platform of a truck.

Figure 2 schematically shows the structure of the placement of complex systems inside the container.

Figure 3 shows a diagram of heat fluxes in the systems of the complex: coolant circulation circuits and refrigerant circulation circuits in the equipment of heating systems and air conditioning systems of the complex.

Figure 4 enlarged shows the element of the wind generator.

Figure 5 schematically shows an additional battery charging system for backup power sources - solar panels and a wind generator.

The autonomous complex of technical means of life support of consumers presented in FIGS. 1-3 is made inside a thermally insulated container 1 located and fixed on the platform 2 of a truck 3, for example, KAMAZ. The container 1 is a three-dimensional frame structure with external dimensions: 6000 × 2300 × 2450 mm. It has an entrance door 4, a flat roof 5 and separate compartments for the systems of the complex, separated by partitions 6, and each compartment is equipped with nodes for connecting power cables. The walls 7 of the container 1 can be made with removable panels.

The autonomous complex includes a main autonomous power supply system containing one diesel-electric installation, consisting of a diesel engine 8 of internal combustion and an alternator 9, and backup sources of autonomous power supply, made in the form of a wind generator 10 with a rated power of at least 200 watts, installed on container 1 by means of telescopic elements 11, and in the form of solar panels 12 with a total nominal power of at least 660 watts, mounted on a flat roof 5 con eynera 1.

The alternator 9 is installed with the possibility of obtaining a three-phase alternating current with a capacity of 95 kW. and is connected to the main power supply system.

The complex is equipped with an additional system 13 for charging batteries associated with backup power sources - solar batteries 12 and a wind generator 10, an inverter 14 installed with the possibility of obtaining a single-phase alternating current with a power of 1.5 kW, and a battery 15 of the power supply system common to the entire power system.

The internal combustion engine 8 is equipped with an exhaust gas neutralizer 16, a noise muffler 17 and a three-way valve 18 in the exhaust pipe 19 and heat exchangers-utilizers 20 and 21 of the exhaust gas heat and / or coolant, respectively, since the diesel engine can be like a liquid engine, and air-cooled. In this case, a three-way valve 18 is installed between the muffler 1-7 and the heat exchanger-heat exchanger for the possibility of switching the flow of exhaust gases to the heat exchanger-heat exchanger or bypassing it.

The fuel supply system contains a tank 22 with fuel, communicated for supplying fuel to the internal combustion engine 8.

The complex is made with a heating system, a ventilation system and an air conditioning system, a lighting system, a fire alarm, a fire extinguishing system and a communication system, as well as a control system for the complex.

The communication system 23 includes a transceiver satellite communication station with an antenna, a satellite TV receiving station, a telephone exchange with antennas, a broadcasting station, a set of data transmission equipment, a set of equipment for providing wireless communication, a set of alarm equipment / not shown /.

On the outer end wall, remote from the internal combustion engine 8, of the wall 7 of the container 1, an inlet 24 is made with an adjustable air intake shutter 25 and flexible heat-insulated air ducts 26 are fixed, / preferably two / equipped with air distribution boxes 27 installed with the possibility of supplying air to consumers, for example in the premises of stationary shift structures. Insulated air ducts 28 (preferably two) are also provided for air intake from the premises of consumers. Air ducts 28 are made with adjustable shutters 29, a filter 30 and a fan 31.

The ventilation system is also equipped with temperature sensors 32 and 33 of the air entering and leaving the container 1, respectively, an air humidity sensor 34 and a filter clogging sensor 35, and provides air circulation of at least 9000 m ³ / h at a pressure of 120 mm water column.

The air conditioning system is made in the form of two refrigerant circuits connected in parallel with a single evaporator 36, each of which contains an increased pressure refrigerant vapor generator 37, a condenser 38 refrigerant vapor blown by an autonomous fan 39, and a receiver 40 for eliminating condensed water refrigerant vapor, wherein each refrigerant circuit is provided with an inductor 41 that is configured to reduce the pressure of the refrigerant vapor to a given value. Switching the operation mode of the air conditioning system to the heat pump mode is carried out by changing the direction of circulation of the refrigerant along the circuit with four-way valves 42 and 43.

So, when operating in the air conditioning mode, the four-way valves 42 and 43 are turned on so that the refrigerant is circulated: from the generator 37 high-pressure refrigerant vapors - the refrigerant enters the condenser 38, passes through the throttle 41, receiver 40, the evaporator 36 and goes back to the generator 37 .

So, when operating in the “heat pump” mode, after switching the four-way valves 42 and 43, the refrigerant circulation is carried out in the opposite direction as follows: the refrigerant circulates along the circuit from the high-pressure refrigerant vapor generator 37, the refrigerant enters the evaporator 36 and then to the receiver 40 through the throttle 41 back to generator 37.

The air heating system comprises an air heating heat exchanger 44 connected to a circulation pump 45, an expansion tank 46, and four-way control valves 47 and 48 forcing the forced circulation of the heat transfer fluid through heat exchangers-utilizers 20 and 21 of the heat of exhaust gases and / or coolant of the internal combustion engine 8 respectively, and through the boiler 49, equipped with at least one electric heating element 50, and the heat exchanger 44 of the air heating is installed in one unit e with the evaporator 36 with the possibility of drawing air through them one common fan 31 and heating air conditioning system during operation in heat pump mode.

The control system of the complex includes a control panel 51 for permanently located in the operator’s compartment for controlling all systems of the complex, and includes adjusting the parameters of the air supplied to the consumer. It contains a regulator for opening the shutter 25 of air intake from the atmosphere, a regulator for opening a three-way valve 19 in the exhaust pipe 19 of the internal combustion engine 8, and a regulator for opening the four-way valves 47 and 48 in the circulation circuits of the fluid flow depending on the readings of the temperature sensors 32 and 33 the container 1 and the air leaving it, respectively, of the humidity sensor 34 and the sensors 35 of the clogging of the filters 30, as well as the four-way valves 42 and 43 and the throttles 41 of the air conditioning system onirovaniya. The control system of the complex by means of four-way valves 42 and 43 located in the bypass ducts of the refrigerant circuit of the air conditioning system is made with the possibility of blocking, which excludes simultaneous operation of the complex in the heating and cooling mode of the air supplied by the ventilation system. The complex control system can be performed with a remote control 52.

As the electric heating element 50 in the boiler 49, a WARMOS-M-30 heater can be used.

The blades of the fan 31 can be made with the possibility of regulation.

An autonomous complex can be equipped with a comprehensive three-level system 53 for treating water from an underground source 54 and a tank 55 of purified drinking water.

The proposed autonomous complex of technical means of life support for consumers located outside the container of this complex has been successfully tested and prepared for implementation.

The proposed complex is necessary for shift camps for various purposes, having a residential and working area. It allows you to increase the efficiency and reliability of long-term trouble-free operation of the complex in conditions of remoteness of consumers from developed infrastructures, under difficult atmospheric conditions: temperatures increased to plus 50 degrees Celsius and lowered to minus 50 degrees Celsius, since it supplies consumers with electricity, telecommunication network elements, warm or air and water cooled in the air conditioning system, including drinking water, purified from underground and surface intakes x water, as well as increase the multifunctionality of the complex.

Claims (7)

1. An autonomous complex of technical means of life support for consumers, located inside at least one insulated container with an entrance door mounted on a supporting surface and including a main autonomous power supply system containing at least one diesel-electric installation consisting of a diesel internal combustion engine and a generator alternating current associated with the battery charging system and the battery of the power supply system, and at least one cut an equal source of autonomous power supply, a fuel supply system comprising at least one fuel tank communicated for supplying fuel to an internal combustion engine, a heating, ventilation and air conditioning system, a lighting system, a fire alarm and fire extinguishing system, a communication system comprising a satellite transceiver station with antenna, satellite TV receiving station, automatic telephone exchange with antennas, broadcasting station, set of data transmission equipment, set of equipment for ensuring wireless water communication, a set of alarm equipment, as well as a control system for all systems of the complex, including a stationary control panel, characterized in that the container is divided by partitions to form compartments for individual systems of the complex and is equipped with fixed to the outer wall of the container remote from the internal combustion engine, at least one inlet of atmospheric air intake with adjustable damper and flexible heat-insulated ducts installed with with the ability to communicate with consumers through air distribution boxes, the stand-alone sources of autonomous power supply in the power supply system of the complex are made in the form of a wind generator with a rated power of at least 200 W, mounted on the container with telescopic elements, and in the form of solar panels installed on the roof of the container with a total rated power of at least 660 W, the complex is equipped with an additional battery charging system associated with the backup source power supply, an inverter installed with the possibility of obtaining a single-phase alternating current, and a battery of the power supply system, and the internal combustion engine is equipped with an exhaust gas neutralizer, a silencer, a three-way valve in the exhaust pipe and heat exchangers-heat exchangers for exhaust gases and / or coolant, the system conditioning is made in the form of two refrigerant circulation circuits connected in parallel with one evaporator, each of which contains a follower High pressure refrigerant vapor generator, interconnected by pipelines, a refrigerant vapor condenser installed with the possibility of cooling by an independent fan, a receiver for eliminating water from condensed refrigerant vapor, and each refrigerant circuit is equipped with a choke installed to reduce the pressure of refrigerant vapor to a predetermined value, and a four-way valve installed with the ability to switch the operating modes of the air conditioning system, the ventilation system olnena in two separate air circulation circuits, each of which communicates with at least one inlet opening of the container for air intake from the atmosphere and provided with shutters adapted to regulate, filter and fan circulates air at least 9000 m ³ / h at a pressure of 120 mm water column, and temperature sensors of the inlet and outlet air, humidity sensors and clogged filters, the air heating system contains an air heating heat exchanger connected to a circulation pump with an expansion tank and control valves, the forced circulation of the liquid coolant through heat exchangers-heat exchangers for exhaust gases and / or coolant of the internal combustion engine and through a boiler equipped with at least one electric heating element, the heat exchanger of the air heating being installed in one unit with an evaporator with the possibility of drawing air through them with one common fan and heating the air when the air conditioning system heat pump mode, the complex control system includes regulators for opening louvers and air intake flaps, a three-way valve in the exhaust pipe, and valves in the circulation circuits of the liquid coolant depending on the readings of the air temperature and coolant sensors, humidity sensors, and filter clogging sensors, as well as valves and throttles of the air conditioning system, and is configured to implement by means of four-way valves in the air conditioning system a lock that excludes one temporary work complex in heating mode and the cooling air. 2. Autonomous complex of technical means of life support for consumers according to claim 1, characterized in that the control system of the complex is additionally equipped with a remote control. 3. The autonomous complex of technical means of life support for consumers according to claim 1, characterized in that the complex includes a truck, preferably KAMAZ, MAZ, URAL, on the platform of which a container is installed and fixed. 4. Autonomous complex of technical means of life support for consumers according to claim 1, characterized in that the walls of the container in the compartment of the ventilation system are made with removable panels. 5. An autonomous complex of technical means of life support for consumers according to claim 1, characterized in that the WARMOS-M-30 heating device is used as an electric heating element in the boiler. 6. Autonomous complex of technical means of life support for consumers according to claim 1, characterized in that it is equipped with a comprehensive three-level water purification system and a tank for drinking water. 7. Autonomous complex of technical means of life support for consumers according to claim 1, characterized in that the fan blades are made adjustable.