RU2624686C1 - Method for non-contact cooling of pistons, rods and cylinders in one-step engine with external chamber of combustion of exhaust gases energy - Google Patents

Abstract

FIELD: engine devices and pumps.

SUBSTANCE: when the temperature of pistons, rods and cylinder increases, the control system moves exhaust gas valve to the open position, at which part of exhaust gases enters the turbine and, after having been exhausted in it, is discharged into the atmosphere. Turbine rotates the coolant pump and the fan. Pump pumps the coolant through cooling pipe channel of pistons and rods, radiator, and also through the cavity between the cylinder and the jacket. Radiator is blown by atmospheric air.

EFFECT: increased cooling efficiency of pistons, rods and cylinder.

1 dwg

Description

FIELD OF TECHNOLOGY

The invention relates to the field of power engineering.

BACKGROUND

The closest analogue of the claimed invention is RF patent 2427718. "A method for cooling pistons of a two-cylinder single-stroke free-piston power module with a common external combustion chamber and a linear electric generator with opposed movement of the anchors."

Abstract of the patent of the Russian Federation 2427718 "The invention relates to the field of power engineering. A method for cooling pistons of a two-cylinder single-stroke free-piston power module with a common external combustion chamber and a linear electric generator with opposed movement of the anchors, including a common external combustion chamber, an electric generator with the opposite movement of anchors, two expansion machines that drive the generator’s armature in opposite motion, and a control system, rod with it, the pistons of each expansion machine are cooled by the flowing in the cavity bounded by the inner surface of the rod, the external and internal the inner surface of the pipe installed inside this cavity, the refrigerant, for which, when the pistons move from the extreme convergence points of the pistons to the extreme divergence points, the refrigerant is forced through the radiator, which transfers the heat of the refrigerant to the external environment, and enters the pneumatic accumulator, and when the pistons move from the extreme divergence points to points extreme convergence of the refrigerant from the battery enters the same cavity bounded by the inner surface of the rods, the outer and inner surface of the pipe. The invention provides improved cooling of the pistons of the energy module. "

OBJECT OF THE INVENTION

The purpose of the invention is to provide non-contact cooling of the pistons, rods and cylinder of a single-cycle engine with an external combustion chamber with energy from exhaust gases.

SUMMARY OF THE INVENTION

The invention is illustrated by the description of the principle of operation of a single-cycle engine with an external combustion chamber - hereinafter the engine. It acts as follows. When starting the engine, the control system (see drawing) supplies a dose of fuel to the external combustion chamber 1 with nozzle 2 and ignites it with a spark plug 3. The fuel burns and if the piston group of a single-cycle engine consisting of pistons 4 and 5 is in the position as shown in the drawing , then the combustion products from the external combustion chamber 1 through the channel 6 through the open valve 7 enter the lower (according to the drawing) cavity of the piston 4. Under their influence, the piston 4, rods 8, 9 and piston 5 begin to move upward. Since the lower surface area of the piston 4 is larger than its upper surface area by the difference in the cross-sectional area of the rods 8 and 9, the pressure of the air compressed in the upper cavity of the piston 4 is greater than the pressure of the combustion products in its lower cavity. Therefore, air from the upper piston cavity 4 through the check valve 10 enters the external combustion chamber 1, supporting the combustion process of the fuel supplied by the nozzle 2. Air from the atmosphere is sucked into the lower piston cavity 5 through the non-return valve 11, and air (hereinafter exhausted combustion products) is sucked from the upper piston cavity 5 through the valve 12 into the atmosphere. The energy of the combustion products through the rod 9 and the connecting rod 13 is transmitted to the crankshaft 14. Upon arrival of the pistons 4 and 5 at the top dead center of movement, the control system puts the valve 7 and valve 12 in the closed position, and the valve 15 and valve 16 in the open position. Now, the combustion products from the external combustion chamber 1 through the channel 17 through the valve 15 enter the upper cavity of the piston 5. The pistons 4 and 5 begin to move downward, and the crankshaft of the engine 14 continues to rotate in the same direction. Compressed in the lower compressor cavity of the piston 5, the air through the check valve 18 enters the external combustion chamber 1, providing combustion of the fuel supplied by the nozzle 2. Air from the atmosphere is sucked into the upper cavity of the piston 4 through the non-return valve 19, and exhaust gases from the lower cavity through the valve 16 are released into the atmosphere. In the future, the control system, transferring valves 7, 12, 15, 16 from one position to another, provides rotation of the engine crankshaft in one direction.

The method of contactless cooling of the pistons, rods and cylinder of a single-cycle engine with an external combustion chamber with energy from exhaust gases is as follows.

With increasing temperature of the piston group in the composition of the pistons 4, 5 and rods 8, 9, the control system puts the exhaust valve 20 in the open, right, position. Exhaust fumes through valves 12, 16 enter an exhaust manifold (not shown). Some of them through channels 21, 22 enter the turbine 23 and, having worked in it, are discharged into the atmosphere through channel 24. The turbine 23 drives the coolant pump 25 and the fan 26. The coolant pump 25 pumps the coolant along the route: coolant pump 25, piston and rod cooling pipe channel 27, channel 28, radiator 29 and again coolant pump 25. And also along the route: coolant pump 25, channel 30, between the engine cylinder 32 and the cylinder jacket tor 33, radiator 29 and again pumping coolant pump 25. The radiator 29 is blown by the fan 26 and the heat of the pistons 4 and 5, the rods 8, 9 and the motor cylinder 32 is discharged into the atmosphere. The control system of the coolant temperature sensor 34 monitors the temperature of the coolant and closes the exhaust valve 20 when it is lower than the optimum value. The exhaust gases are emitted into the atmosphere through channels 35, 36. The coolant circulation stops and the coolant temperature rises. Thermostats 37, 38 are used to maintain the optimum temperature of the pistons, rods and engine cylinder, respectively.

SUMMARY OF THE INVENTION

A method for cooling pistons, rods and a cylinder of a single-cycle engine with an external combustion chamber with energy from exhaust gases containing pistons and rods, a cooling pipe for pistons and rods, an engine cylinder, a control system, an exhaust valve, a turbine, a coolant pump, a fan, a radiator, the engine cylinder and the cylinder jacket of the engine, characterized in that when the temperature of the pistons, rods and cylinder of a single-cycle engine with an external combustion chamber with a coolant pump With the energy of exhaust gases, the control system puts the exhaust valve in the open position, in which part of the exhaust gas enters the turbine and, having worked it, is released into the atmosphere, the turbine drives the coolant pump and the fan, the coolant pump pumps the coolant liquid from the coolant pump, through the channel of the piston and rod cooling pipe, the radiator and again to the coolant pump, and from the coolant pump bone through the cavity between the cylinder and the jacket and again to the coolant pump, the heat flux from the piston group through the walls of the piston and rod cooling pipe enters the coolant circulating through the channel of the piston and rod cooling pipe and is transferred by the cooling fluid to the radiator, heat flow from the cylinder it is transferred by the coolant to the radiator, the radiator is blown with air from the atmosphere, as a result of which heat from the piston group and the cylinder is emitted through the radiator into the atmosphere.

TECHNICAL APPLICABILITY OF THE INVENTION

The requirements for materials and technologies of the claimed invention do not go beyond the scope of modern capabilities.

BLUEPRINTS

The drawing shows a schematic diagram of a multi-cylinder single-cycle engine with an external combustion chamber, where 1 is a combustion chamber; 2 - nozzle; 3 - spark plug; 4, 5 - the piston; 6, 17, 21, 22, 24, 28, 30, 35, 36 - channel; 7, 12, 15, 16 - valve; 8, 9 - stock; 10, 11, 18, 19 - check valve; 13 - connecting rod; 14 - a crankshaft; 20 - air supply valve; 23 - turbine; 25 - pump for pumping coolant; 26 - fan; 27 - pipe cooling pistons and rods; 29 - a radiator; 31 - the cavity between the engine cylinder and the cooling jacket of the engine cylinder; 32 - engine cylinder; 33 - cooling jacket for the engine cylinder; 34 - coolant temperature sensor, 37, 38 - thermostat.

Claims (1)

A method for cooling pistons, rods and a cylinder of a single-cycle engine with an external combustion chamber with energy from exhaust gases containing pistons and rods, a cooling pipe for pistons and rods, an engine cylinder, a control system, an exhaust valve, a turbine, a coolant pump, a fan, a radiator, the engine cylinder and the cylinder jacket of the engine, characterized in that when the temperature of the pistons, rods and cylinder of a single-cycle engine with an external combustion chamber with a coolant pump With the energy of exhaust gases, the control system puts the exhaust valve in the open position, in which part of the exhaust gas enters the turbine and, having worked it, is released into the atmosphere, the turbine drives the coolant pump and the fan, the coolant pump pumps the coolant liquid from the coolant pump, through the channel of the piston and rod cooling pipe, the radiator and again to the coolant pump, and from the coolant pump bone through the cavity between the cylinder and the jacket and again to the coolant pump, the heat flux from the piston group through the walls of the piston and rod cooling pipe enters the coolant circulating through the channel of the piston and rod cooling pipe and is transferred by the cooling fluid to the radiator, heat flow from the cylinder it is transferred by the coolant to the radiator, the radiator is blown with air from the atmosphere, as a result of which heat from the piston group and the cylinder is emitted through the radiator into the atmosphere.

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