WO2017014668A1 - Device and method for supplying air to an internal combustion engine - Google Patents

Abstract

The invention relates to internal combustion engines. The invention addresses the technical problem of improving the preparation and supply of air. The problem is solved in that air is purified, oil and moisture are removed from the compressed air, the pressure of the air is reduced to a set level and the air is cooled or heated to a set temperature.

Description

 DEVICE AND METHOD OF AIR SUPPLY IN

 INTERNAL COMBUSTION ENGINE

Technical field

The invention relates to internal combustion engines.

State of the art

A known analogue is a device for storing compressed air and blowing into an internal combustion engine - US Pat. for blowing in the stored compressed air at the moment of sharp pressing the gas pedal. The method according to the device described above consists in compressing the air, storing it in the drive and blowing it into the intake manifold of the internal combustion engine, and from there into the cylinders of the internal combustion engine.

The disadvantage of analogues is the low accuracy of the dosing of compressed air into the cylinders of the internal combustion engine, due to the fact that it is injected first into the intake manifold of the internal combustion engine. When air is blown into the intake manifold, an abrupt expansion of the air flow in the manifold occurs with a loss of energy, after which air distributed throughout the collector. The pressure of air at different points of the collector is affected by the geometry of the collector and the process of opening and closing the intake valves that release air from the collector into the cylinders of the internal combustion engine, therefore, when air flows through the manifold, its pressure at different points of the collector is different. The air flow into the cylinders of an internal combustion engine depends on the pressure in front of the valves in the manifold. Therefore, the method and device of its implementation described in the analogue do not allow for high accuracy of dosing of air supply to each cylinder of an internal combustion engine.

A known analogue is a device for increasing the torque of a reciprocating internal combustion engine, in particular a diesel engine, an invention, RF patent (N ° 2382888 C2, 10.1 1.2008), including at least one cylinder, one turbine, one compressor, one air a compressor, one accumulator, one charge air cooler, one air dryer and one control device, the air injection pipe being connected to the inlet channel in the cylinder head of the engine. The method according to the device described above consists in compressing the air with a compressor, storing it in a storage ring, cooling it in a cooler, drying it in an air dryer, blowing it into the inlet of the internal combustion engine, and from there into the cylinders of the internal combustion engine.

The disadvantage of analogues is the low efficiency of the diesel engine, due to the low accuracy of the dosing of compressed air when applying to each cylinder of the internal engine combustion, expressed in the uneven distribution of air between the cylinders of the internal combustion engine. The reasons for the uneven distribution of air between the cylinders are listed in the description of the disadvantages of analogues of the patent US201 1041496.

Also known is a method of preparing and supplying air to an internal combustion engine - US patent (US20120240909 A1, 03/25/2011 1), selected as a prototype of the proposed method, including storing compressed air in the accumulator using a compressor and blowing compressed air from the accumulator directly into the cylinder internal combustion engine. A device for preparing and supplying air to an internal combustion engine is known - US patent (US 20120240909 A1, March 25, 2018 1), selected as a prototype of the proposed device, comprising a compressor for compressing air, a compressed air storage unit, at least one, an injector for blowing air into cylinder of an internal combustion engine.

The disadvantage of the prototype method and the prototype of the device is the low quality of preparation of the air blown into the cylinder of the engine: lack of pre-treatment, cleaning after compression, not optimal temperature and a small pressure range of the air supplied to the cylinder, which leads to low efficiency of the internal combustion engine.

An object of the invention is to improve the quality of preparation and supply of air into the cylinder of an internal combustion engine. The technical result of the invention is to supply air at the optimum temperature, without impurities, reducing the ignition quality of the fuel-air mixture, with the optimal flow rate directly into the cylinder of the internal combustion engine through the injector.

Disclosure of invention

The solution to the technical problem in the method of preparing and supplying air to an internal combustion engine, including storing compressed air in a drive with a compressor and blowing compressed air into the cylinder of an internal combustion engine through an injector, is ensured by the fact that it is cleaned of mechanical impurities before air compression, after compressions produce separation of oil and moisture from compressed air, before blowing compressed air from the drive through an injector into the cylinder of an internal combustion engine, reduction of air pressure to a predetermined level and cooling or heating of air to a predetermined temperature.

The solution to the technical problem in the device for preparing and supplying air to an internal combustion engine containing a compressor for compressing air, a compressed air storage device, at least one injector for injecting air into the cylinder of an internal combustion engine is achieved by the fact that the device contains an air purification filter located at the inlet to the compressor, a device for separating oil and moisture from air, located at the outlet of a compressor and associated with the compressed air storage device, a device for reducing air pressure, a heat exchanger for cooling air, and an air heater located between the compressed air storage device and the injector, and the device for reducing air pressure and the injector are connected to the electronic control unit.

The compressed air accumulator can be made with a safety valve for discharging air from the accumulator when the air pressure reaches its maximum permissible value.

Figure 1 shows a device for preparing and supplying air to an internal combustion engine.

Figure 2 presents the algorithm of operation of the electronic control unit.

A device for preparing and supplying air to an internal combustion engine comprises a compressor 1 for compressing air, a compressed air accumulator 2, an injector 3 for injecting air into a cylinder 4 of an internal combustion engine, an air purification filter 5 located at the inlet of the compressor 1, an oil separation device 6 and moisture from the air located at the outlet of the compressor 1 and connected to the compressed air accumulator 2, a device 7 for reducing air pressure, a heat exchanger 8 for cooling the air, and an air heater 9 nnye between two compressed air accumulator and the injector 3, wherein the air pressure reduction device 7 and the injector 3 are connected with an electronic control unit 10. FIG. 1 shows an injector 3 located in an internal combustion engine. Figure 1 shows the connection of the electronic control unit 10 with sensors for the position of the engine camshaft, the position of the engine crankshaft, coolant temperature, fuel temperature, atmospheric air pressure, gas pedal position, air mass flow rate, fuel pressure.

The accumulator 2 of compressed air can be made with a safety valve 11 for discharging air from the accumulator 2 when the air pressure reaches its maximum permissible value.

Embodiments of the invention

Consider an example of a specific implementation of the method of preparing and supplying air to an internal combustion engine and the operation of the device for its implementation on a KamAZ-740 truck with a 210 hp engine. To store air, it is compressed to a pressure of 200 kg / cm using a piston compressor 1 for compressing air, which has a belt drive from an internal combustion engine and is pumped into a compressed air storage 2 of 100 l volume, made of carbon fiber. In addition to the functions described in the invention, the compressed air from the compressed air storage device 2 can be used as a working fluid in the brake system of a KAMAZ-740 automobile. For this, a pressure reducing valve (not shown) can be used, which reduces air pressure up to a pressure of 8 kgf / cm, for which the brake circuit of the car is designed. Air enters the compressor 1 for air compression from the atmosphere, therefore, at the inlet to the compressor 1 for air compression, it is cleaned by an air purification filter 5 mounted on the inlet of the compressor 1 for air compression, to prevent these particles from entering the cylinder 4 of the internal combustion engine, so as this will lead to premature wear of the piston rings and the engine cylinder. Particles of oil that get into the air due to imperfect compaction or wear of the piston rings of the compressor 1 for air compression, as well as atmospheric moisture, are captured by the device 6 for separating oil and moisture from the air at the outlet of the compressor 1 for air compression. The principle of operation of the device 6 for separating oil and moisture from air is based on passing air through a moisture adsorber in the form of a silica gel placed in a vessel. The reduction of compressed air before blowing into the cylinder 4 of the internal combustion engine is carried out to obtain the optimum supply pressure for a specific operating mode of the internal combustion engine. In normal operation, air is supplied to the cylinder 4 of the internal combustion engine under an operating pressure that varies in the range of values up to 5 kG / cm, depending on the engine operating mode. For example, to realize a sharp acceleration of the engine, air is supplied under a pressure of 5 kG / cm. To start the engine, air is supplied at a pressure of 15 kG / cm ² . In this case, the pressure at the outlet of the device 7 for reducing the air pressure is 30 kG / cm ² , since the pressure loss during the passage of air is 50%. Device 7 for reducing air pressure is gas reducer with remote electric drive. The drive of the device 7 for reducing air pressure is controlled by the electronic control unit 10. When compressed by the compressor 1 to compress the air, the air is heated to 150-200 degrees Celsius, which reduces its density in comparison with colder air under the same pressure. To increase the mass of air blown into the cylinder 4 of the internal combustion engine at a given pressure, it must be cooled. To cool the air, a heat exchanger 8 is used to cool the air, passing through which the air is cooled to a temperature below 100 degrees Celsius. The heat exchanger 8 for cooling the air is cooled by atmospheric air, made of aluminum tubes and plates and is located in the area of the air intake of the car. When operating a car in a cold climate until the engine warms up to the standard temperature, an air heater 9 is used. It is designed to heat air to a temperature plus Celsius, which ensures optimal formation of the fuel mixture in cylinder 4 of the internal combustion engine. The air heater 9 is made in the form of a tube heated by electrical resistance. Electric energy for this, when the engine is running, is supplied from the generator of the car, and before starting the engine from the battery. The heater 9 is turned on by a signal from the electronic control unit 10. Air is transported between the above devices through a pipeline. The accumulator 2 of compressed air can be made with a safety valve 1 1 for the release of air, made in the form of a ball, pressed by a spring against the seat with a force that is overcome by the air pressure in the accumulator 2 of compressed air when the air pressure in it exceeds 200 kG / cm ² . This prevents excess air pressure in the accumulator 2 of compressed air in order to prevent its destruction. The electronic control unit 10 is a microcontroller that receives input data ¹ characterizing the engine’s operating mode from the sensors of the engine camshaft, engine crankshaft position, coolant temperature, fuel temperature, atmospheric air pressure, gas pedal position, air mass flow, pressure fuel.

 According to a given engine control program, the algorithm of the part of which is shown in Fig. 2, the microcontroller calculates using the input data from the sensors as variables and provides control signals to the commutators of the electric drives of injector 3 for blowing air into cylinder 4 and device 7 for air pressure reduction.

Consider a device for preparing and supplying air to an internal combustion engine in operation. Before starting the internal combustion engine in the accumulator 2 of compressed air is air under a pressure of 200 kG / cm, stored from the previous session of the engine. When the ignition key is turned, air is supplied from the compressed air accumulator 2 to the cylinder 4 of the internal combustion engine under a pressure of 15 kG / cm, due to the fact that the reduction device receives a signal from the electronic control unit 10 to reduce air to this pressure when the engine is started. This puts the piston and the entire crank mechanism in motion. Then, synchronously, with a certain lag, they are launched engine operating cycles, such as the release of air from cylinder 4 of an internal combustion engine, blowing air under operating pressure, injecting the fuel mixture, compressing and igniting it. The pressure of the supplied air before fuel injection is reduced to the working one, using the device 7 for reducing air pressure. Simultaneously with the engine starting, the compressor 1 is launched to compress the air. A compressor 1 for compressing air draws in air from the atmosphere, while the air is cleaned by an air purification filter 5, is compressed by a compressor 1 for air compression, it is cleaned of moisture and oil by a device 6 for separating oil and moisture, and enters the accumulator 2 of compressed air continuously until it reaches it air pressure 200 kG / cm. After reaching this pressure, the compressor 1 for air compression is turned off and restarted only when the air pressure in the accumulator 2 of compressed air drops below 150 kG / cm. From the accumulator 2 of compressed air, air flows through a pipeline, through a device 7 for reducing air pressure, a heat exchanger 8 for cooling the air, and an air heater 9. The outflow of air from this closed system is controlled by the injector 3 for blowing air into the cylinder 4. The opening of the injector 3 for blowing air into the cylinder 4 of the internal combustion engine is controlled by the electronic control unit 10, which blows air into the cylinder 4 with clocks synchronized with the working cycles of the internal combustion engine . The volume of air supplied to the cylinder 4 of the internal combustion engine is determined by the opening time of the injector 3 for blowing air into the cylinder 4 of the internal combustion engine and the air pressure in front of the injector 3 for blowing air into the cylinder 4 of the internal combustion engine, which is supported by the device 7 for reducing air pressure. When the driver presses the gas pedal, the electronic control unit 10 increases the opening time of the injector 3 in proportion to the degree of pressing the pedal to blow air into the cylinder 4 of the internal combustion engine and increase the air pressure in front of the injector 3 to blow more air into the cylinder 4 of the internal combustion engine.

In traditional engines with a turbocharger, the turbine spins up with exhaust gases and its speed and turbocharger performance are not directly related to the crankshaft speed, but through the exhaust system. Therefore, when the gas pedal is abruptly pressed, the performance of the turbocharger at the initial time is not enough to ensure that the amount of air supplied to the cylinder increases proportionally to the gas pedal. As a result, the effect of the so-called "turbolag" or "turboyama" occurs, which consists in the absence at this point in time, until the exhaust reaches the turbine and spins it, the acceleration of the engine is proportional to pressing the gas pedal. In the selected prototype, this drawback is partially eliminated. However, in the prototype there is no device for air reduction, therefore, the range of air flow values, as well as the accuracy and speed of adjustment of this value, necessary for a quick reaction of the engine to pressing the gas pedal, are lower than in the present invention. In the present invention, through the use of a compressed air storage device 2 and a device 7 for reducing air pressure at any time, it is possible air supply in a large range of values of its flow into the cylinder 4 of the internal combustion engine, which eliminates the occurrence of "turbo holes".

 The technical result of the invention is achieved due to:

 - the use of a device 7 for reducing air pressure, which allows for the supply of air to the cylinder 4 of the internal combustion engine with the optimal accurately dosed flow rate;

 - the use of a heat exchanger 8 for cooling air and an air heater 9, allowing the supply of optimal air temperature to the cylinder 4 of the internal combustion engine;

 - the use of an air purification filter 5 and a device 6 for separating oil and moisture from air, allowing air to be supplied to the cylinder 4 of an internal combustion engine without impurities, which reduce the ignition quality of the fuel-air mixture;

 - the use of direct injection of air through the injector 3 into the cylinder 4 of the internal combustion engine, excluding energy losses due to expansion in the manifold or other intermediate volumes.

 The proposed technical solution improves the efficiency of the preparation and supply of air to the cylinder of an internal combustion engine, thereby increasing the efficiency of the internal combustion engine

 An additional advantage compared with the prototype in the proposed device for the preparation and supply of air to the internal combustion engine is the ability to start the engine with compressed air from the accumulator 2 of compressed air.

Claims

CLAIM 1. A method of preparing and supplying air to an internal combustion engine, comprising storing compressed air in a drive with a compressor and blowing compressed air into the cylinder of an internal combustion engine through an injector, characterized in that it is cleaned of mechanical impurities before air compression, after compression the separation of oil and moisture from compressed air, before blowing compressed air from the accumulator through the injector into the cylinder of the internal combustion engine, air pressure is reduced to o a predetermined level and cooling or heating the air to a predetermined temperature. 2. A device for preparing and supplying air to an internal combustion engine, comprising a compressor for compressing air, a compressed air storage device, at least one injector for injecting air into the cylinder of an internal combustion engine, characterized in that it contains an air purification filter located at the inlet of the compressor, a device for separating oil and moisture from air located at the outlet of the compressor and connected to a compressed air storage device, a device for reducing air pressure, a heat exchanger for cooling the air ha, and an air preheater located between the accumulator and the injector of compressed air, wherein the air pressure reduction device and an injector are connected to the electronic control unit. 3. The device according to claim 2, characterized in that the compressed air accumulator is made with a safety valve for discharging air from the accumulator when the air pressure reaches its maximum permissible value.