RU99074U1 - START-UP HEATER OF INTERNAL COMBUSTION ENGINE - Google Patents

Abstract

 The pre-heater of the internal combustion engine, including a combustion chamber with nozzles and openings for air supply, a heat exchanger, air supply systems, coolants and fuel, the combustion chamber is equipped with a pre-chamber with a closed front device and openings for supplying air to the primary zone of the pre-chamber, and in the front deaf a plasma fuel converter is installed on the prechamber wall, an air supply pipe is located on the housing between the combustion chamber and the prechamber, in the outlet section of the prechamber During the course, a flame stabilizer is installed in the combustion chamber, characterized in that the heat exchanger body has the shape of a rectangular parallelepiped, and the heat exchanger is made in the form of a system of pipes transversely crossing the boiler, having an external finning, providing an additional heat exchange area with hot combustion products.

Description

The utility model relates to mechanical engineering, in particular to engine building, and in particular to prestarting heaters of an internal combustion engine.

Known preheater of an internal combustion engine (RF patent No. 212138, F02N 17/06), including a combustion chamber with nozzles, a heat exchanger, air, coolant and fuel supply systems, an electric fuel heater, and a combustion chamber equipped with a prechamber with a closed front device and supply openings air into the primary zone of the pre-chamber, the combustion chamber and the pre-chamber are provided with a housing with the formation of a common air cavity, inside which an electric heating element is installed around the pre-chamber, and the air inlet disposed on the body between the combustion chamber and the prechamber.

However, in the known heater due to the supply of a fan to the combustion chamber of air with an ambient temperature, the combustion stability of the fuel is not high enough, which slows down the heating of the engine.

The disadvantage of this heater is the difficulty of turning this device on, reuse is possible only after the glow plug has completely cooled and the chamber is ventilated, the device does not allow controlling the flammability of the fuel mixture depending on the ambient temperature, does not affect the molecular structure of the fuel preparation and weakly affects the process fuel boost.

In addition, the design of the pre-heater is complex and, therefore, has low reliability, and the known heater requires a high power ratio of the car for its operation.

The prototype of the utility model is a pre-heater for an internal combustion engine (RF patent No. 78877), including a combustion chamber with nozzles and openings for air supply, a gas-liquid heat exchanger. The combustion chamber is equipped with a pre-chamber with a closed frontal device and openings for supplying air to the primary zone of the pre-chamber. The combustion chamber and the pre-chamber are provided with a housing with the formation of a common air cavity. The pipe for supplying air into the cavity is located on the housing between the combustion chamber and the pre-chamber. A plasma fuel converter is installed in the front blind wall of the prechamber. The nozzles of the combustion chamber are located on the front diffuser section of the combustion chamber and are chordal and spatially oriented downstream at an angle of 45 ° to the axis of the heater. In addition, a flame stabilizer is installed in the exit section of the prechamber at the inlet of the combustion chamber.

The disadvantage of this pre-heater for an internal combustion engine is the low heat output of heating the coolant, a long time for the engine to warm up in conditions of sharply negative temperatures and the inability to vary the overall dimensions of the pre-heater for a specific vehicle.

The purpose of the utility model is to reduce the warm-up time of the internal combustion engine by increasing the heat output of the heater’s combustion chamber in conditions of sharply negative ambient temperatures, reducing the time it takes to start the engine at air temperatures below + 5 ° C and the possibility of varying the dimensions of the heater for a specific vehicle.

This goal is achieved by the fact that in the pre-heater of the internal combustion engine, including a combustion chamber with nozzles and openings for air supply, a heat exchanger, air supply systems, coolant and fuel, the combustion chamber is equipped with a prechamber with a closed front device and openings for supplying air to the primary the pre-chamber zone, and in the front blind wall of the pre-chamber, a plasma fuel converter is installed using a threaded connection, the air supply pipe is located on the housing between the combustion chamber and the prechamber, a flame stabilizer is installed at the inlet to the combustion chamber at the outlet of the prechamber, the heat exchanger body has the shape of a rectangular parallelepiped, and the heat exchanger is made in the form of a system of pipes transversely crossing the boiler having an external finning providing an additional area of heat exchange with hot products combustion, which allows the maximum use of the thermal energy of the burning fuel to heat just the coolant and increase the efficiency of the heater.

Significant differences of the claimed solution from the known one include the fact that the heat exchanger housing for heating the coolant is made in the form of a system of pipes transversely crossing the boiler having an external finning, providing an additional heat exchange area with hot combustion products, which allows maximum use of the thermal energy of the products of the combustion chamber for heating it is the coolant and increase the efficiency of the heat exchanger and the air heater as a whole.

Therefore, the claimed utility model meets the requirements of novelty.

The proposed embodiment of the claimed engine start heater is shown in figure 1 (longitudinal section). The pre-heater of the internal combustion engine contains a combustion chamber 1 with nozzles 2 and openings for air supply 3, a gas-liquid heat exchanger 4, combustion chamber 1 is provided with a pre-chamber 5 with a closed front device and openings 6 for supplying air to the primary zone of the pre-chamber 5. Chamber of combustion 1 and the pre-chamber 5 are provided with a housing 7 with the formation of a common air cavity 8. A pipe 9 for supplying air to the cavity 8 is located on the housing 7 between the combustion chamber 1 and the pre-chamber 5. The nozzles 2 of the combustion chamber 1 are located on the front diffuser section of the combustion chamber 1 and are chordal and spatially oriented downstream at an angle of 45 ° to the axis of the heater. In addition, in the output section of the pre-chamber 5, a flame stabilizer 10 is installed at the entrance to the combustion chamber 1. A plasma fuel converter 11 is installed in the front blind wall of the pre-chamber 5.

The heat exchanger 4 is located behind the combustion chamber 1 and has a two-way motion diagram of the cooling gas (combustion products) and a multi-way motion diagram of the cooler (liquid). The housing of the heat exchanger 4 has the shape of a rectangular parallelepiped, to which, by welding, a heat exchanger for heating the coolant is made, made in the form of a system of pipes 12 transversely crossing the boiler 13 having an external finning, providing an additional heat exchange area with hot combustion products,

External ribbing of a pipe system with predetermined geometric characteristics, providing an additional area of contact of the coolant with hot combustion products and the necessary turbulence of the coolant flow during boiling. Parallel pipes, transversely crossing the boiler, are interconnected by grates 14. The heat exchanger 4 is mounted under the traverse of the car frame on which the engine is mounted.

As the heat exchanger 4 of the pre-start air heater, the most promising application of the all-welded or batch-welded version. In this case, the pipe system using alternately installed gaskets is welded into a block or bag, and the heat exchanger is assembled from the bags.

The air supply system includes an air supply fan (not shown in FIG. 1), the fuel supply system includes a fuel supply pump with pipelines (not shown in FIG. 1), the coolant supply system includes a coolant pump with pipelines (in FIG. 1 not shown).

During the operation of the pre-heater, the intake air is supplied through the air supply pipe 9, part of the air consumed by the pre-heater is supplied to the plasma fuel converter 11 installed in the pre-chamber 5, which converts it into a low-temperature air plasma acting on the hydrocarbon fuel mixture, with the formation of active radicals of the air-fuel mixture, carrying out the conversion and ignition of the air-fuel mixture. The air entering through the openings 6 into the primary zone of the pre-chamber 5 is heated by the heat of combustion of the air-fuel mixture, while heating the walls of the pre-chamber 5, which improves the operation of the pre-heater and ensures a stable combustion process in the pre-chamber 5.

The combustion process in the proposed pre-heater of the internal combustion engine is carried out in two stages - in the pre-chamber 5 (primary circulation zone) and in the main combustion chamber 1 (secondary circulation zone). The main combustion chamber 1 comes into operation after the beginning of a stable combustion process in the pre-chamber 5, the combustion products from the pre-chamber 5 enter the main combustion chamber 1, where additional fuel is injected through the nozzles 2, and air enters through the openings 3.

The presence of two circulation zones (in the pre-chamber 5 and in the main combustion chamber 1) improves the mixing conditions, increases the stability of combustion and increases the residence time of the air in the combustion chamber, which increases the efficiency of combustion of the air-fuel mixture.

The heat from the combustion products in the heat exchanger 4 is transferred through the fins of the pipe system connected to each other, transversely crossing the boiler. External ribs provide an additional contact area with hot combustion products, which ensures faster heating of the finned pipe system with coolant. This leads to a decrease in the heating time of the coolant and, as a result, to a reduction in the time for preparing the engine for starting.

The system of finned tubes transversely crossing the boiler is fastened by welding to the inner surface of the housing 7, which contribute to the natural circulation of the coolant in the channels of the heating system.

The thermal energy from the burning fuel in the combustion chamber of the fuel 1, in addition to heating the coolant in the heat exchanger 4, also heats the oil in the crankcase, because the upper surface of the combustion chamber of the heat exchanger 4 is in direct contact with the lower surface of the crankcase (not shown in FIG. 1).

The technical and economic efficiency of the proposed device lies in the fact that the use of a heat exchanger of this design can reduce its geometric dimensions, provide better thermal contact between the two environments and, accordingly, increase the efficiency of the preheater air heater.

Increasing the efficiency of the pre-heater is achieved by the fact that in the design of the gas-liquid heat exchanger additional secondary surfaces are used on the hot gas side to create a compact heat exchange surface, which allows to significantly increase the contact area of the coolant with the hot fuel combustion products, providing faster heating of the coolant , with intensive mixing, which reduces the time of preparation of the engine for starting. A more complete and efficient use of the heat of combustible fuel is achieved, and the economic and environmental characteristics of the engine pre-heater as a whole are improved.

Technical result: quick and reliable start-up of both the pre-heater and the engine itself, as well as a more complete and efficient use of the calorific value of the fuel, the efficiency of the pre-heater is increased.

Claims (1)

The pre-heater of the internal combustion engine, including a combustion chamber with nozzles and openings for air supply, a heat exchanger, air supply systems, coolants and fuel, the combustion chamber is equipped with a pre-chamber with a closed front device and openings for supplying air to the primary zone of the pre-chamber, and in the front deaf a plasma fuel converter is installed on the prechamber wall, an air supply pipe is located on the housing between the combustion chamber and the prechamber, in the outlet section of the prechamber During the course, a flame stabilizer is installed in the combustion chamber, characterized in that the heat exchanger body has the shape of a rectangular parallelepiped, and the heat exchanger is made in the form of a system of pipes transversely crossing the boiler having an external finning, providing an additional heat exchange area with hot combustion products.