RU156186U1 - LIQUID HEATER CIRCULATION SYSTEM IN VEHICLE INTERNAL COMBUSTION ENGINE - Google Patents

Abstract

1. The circulation system of the liquid coolant in the internal combustion engine of the vehicle, having a liquid pump for supplying coolant to the heat transfer channels of the engine, a main radiator with a fan for cooling the coolant when it arrives from the engine, characterized in that the pump for supplying the coolant to the heat transfer channels of the engine has a stand-alone drive, in a hydraulic line communicating the main radiator with a pump for supplying coolant to the heat transfer channels of the engine, an adjustable choke with a drive a two-position valve is installed in the hydraulic line connecting the mentioned channels in the engine with the main radiator from the stepper motor. 2. The coolant circulation system according to claim 1, characterized in that the pump for supplying the coolant into the engine channels has an autonomous drive from the electric motor. 3. The coolant circulation system according to claim 1, characterized in that the pump for supplying the coolant into the engine channels has an independent drive from the hydraulic motor. 4. The coolant circulation system according to claim 1, characterized in that the heat exchange channels in the engine are in communication with the heater radiator of the vehicle cabin through a non-return valve and a valve for turning on the coolant supply to the heater radiator. 5. The heat carrier circulation system according to claim 4, characterized in that it comprises a heat carrier heater, comprising a pump with an electric drive for pumping the heat carrier through the heat exchange channels in the engine when it is started at low ambient temperature and through the radiator of the vehicle cabin heater with the coolant supply valve turned on to the radiator

Description

The technical solution relates to land vehicles, mainly to trucks equipped with an internal combustion engine. It concerns the circulation of a liquid coolant in an internal combustion engine for heating the engine when it is started at low ambient temperature and for cooling during operation.

Various cooling systems for the head and cylinder blocks of an internal combustion engine are known, for example, engine cooling systems shown in various patents issued in the Russian Federation. As a closer analogue, the cooling system of the internal combustion engine and the heating of the passenger compartment, presented in patent No. 2156701, B60H 1/08, issued in the Russian Federation, was adopted. This cooling system of an internal combustion engine and heating the vehicle interior contains a main radiator with a fan for cooling the coolant when it enters from the heat exchange channels in the head and cylinder block of the engine, a liquid pump for supplying coolant to the heat transfer channels of the head and cylinder block of the engine, a thermostat that controls the flow rate through the main radiator, depending on the temperature of the coolant. However, with such an engine cooling system, it may overheat at a high ambient temperature during slow motion of the vehicle in the event of congestion on city streets and in difficult road conditions, and engine overcooling can occur at negative air temperatures, an undesirable significant change in the coolant flow when unsteady, that is, a variable engine operating mode, slow response to a change in engine operating mode, significant time is required engine warms up to operating temperature, the impossibility of the vehicle in violation radiator tightness, which is the most vulnerable of the engine cooling unit.

The task is to expand the functionality of the coolant circulation system through an internal combustion engine to provide the desired temperature regime of the engine under changing operating conditions.

The solution to the problem is provided by the fact that in the liquid coolant circulation system in the vehicle’s internal combustion engine having a liquid pump for supplying coolant to the heat transfer channels of the engine, the main radiator with a fan for cooling the coolant when it is received from the engine, the coolant supply pump to the heat transfer channels of the engine has self-contained drive, in the hydraulic line communicating the main radiator with a pump for supplying coolant to the heat transfer channels of the engine, an adjustable draw a step driven by a stepper motor, a two-position valve is installed in the hydraulic line communicating the mentioned channels in the engine with the main radiator.

Since in the created liquid coolant circulation system in the vehicle’s internal combustion engine, the heat transfer pump for the heat transfer channels of the engine has an independent drive, an adjustable choke with a drive from the stepper motor is installed in the hydraulic line communicating with the main radiator with the coolant supply pump to the heat transfer channels of the engine, as a result of this, it is possible to more accurately and quickly control the temperature of the head and engine block.

In this system of circulation of the coolant, the pump for supplying the coolant into the channels of the engine can be independently driven by an electric motor.

In such a coolant circulation system, the coolant feed pump into the engine channels can be independently driven by a hydraulic motor.

In this coolant circulation system, heat transfer channels in the engine are communicated with the heater radiator of the vehicle cabin through a check valve and a valve for turning on the coolant supply to the heater radiator.

The coolant circulation system contains a coolant heater containing an electric drive pump for pumping coolant through the heat exchange channels in the engine when it is started at low ambient temperature and through the heater radiator of the vehicle cabin with the coolant supply valve turned on.

In the coolant circulation system, under the rechargeable battery for supplying electric energy to the electric motors, a tray is installed that is heated by the exhaust gases of the coolant heater.

In this system, the circulation of the coolant in the hydraulic passage of the coolant from the heater are heat exchange means with a compressor for supplying compressed air to the vehicle's brake system.

The created system of circulation of the liquid coolant in the internal combustion engine of the vehicle contains a main radiator 1 with a fan 2 for cooling the coolant when it comes from the heat exchange channels in the engine. It contains a pump 3 for supplying coolant along the hydraulic line 4 into the heat transfer channels 5 of the engine. The pump 3 for supplying coolant to the heat transfer channels of the engine has an autonomous direct drive from the electric motor 6. In the hydraulic line 7, which communicates the radiator 1 with the pump 3 for supplying the coolant to the heat transfer channels of the engine, an adjustable inductor 8 is installed with a drive from the stepper motor 9. The inductor 8 serves to control the flow coolant from the radiator 1 to the heat transfer channels 5 of the engine. In the hydraulic line 10, communicating the exit from the heat exchange channels 5 of the engine with the radiator 1, a controlled on-off valve 11 is installed. The valve 11 together with the throttle 8 serves to turn off the radiator 1 in case of failure.

In this system, the heat transfer channels 5 in the engine are connected with the radiator 12 of the heater of the vehicle cabin through a non-return valve 13 and a controllable valve 14 for turning on the coolant supply to the radiator 12 of the heater along hydraulic line 15.

The system contains a compensation expansion tank 16 with a coolant, namely with a coolant. The tank 16 is communicated by a hydraulic line 17 with heat exchange channels 5 in the cylinder head. With tank 16, hydraulic line 18 communicates the entrance to the pump 3.

This coolant circulation system comprises an autonomous coolant heater 19, comprising a pump 20 driven by an electric motor 21 for pumping the coolant along the hydraulic line 22 into the expansion tank 16, and from it along the hydraulic line 17 to the heat exchange channels 5, and from the heat exchange channels 5 along the hydraulic line 23 at the entrance to the pump 20.

Under the battery 24 for supplying electric energy to the electric motors, a pallet 25 is installed, which is heated by the exhaust gases of the heat carrier heater 19 to heat the battery to operating temperature in cold weather.

In the cold season, at low ambient temperatures, a liquid heater 19 is used in this cooling and heating system of the internal combustion engine (ICE). Before starting the engine, coolant is heated with heater 19, the electric motor 21 is turned on and the coolant is circulated in the head and block using pump 20 engine cylinders. During the operation of the heater 19, the liquid circulates through the hydraulic line 22 to the tank 16, and from the tank 16 through the hydraulic line 17 through the head and engine block to the pump inlet. During operation of the heater 19, it is possible to turn on the heating of the cabin at the same time as the engine is heated. To do this, open the control valve 14 and let the coolant flow through the radiator 12. Also, when the heater 19 is operating with the help of exhaust gases from it, the tray 25 of the battery 24 is heated. After the internal combustion engine is heated, the heater 19 is turned off. The engine is ready to go.

When the engine is running, pump 3 pumps the coolant, which in this case acts as coolant, through the head and engine block of the engine along the hydraulic line 4. Moreover, to the pump 3 the coolant flows from the main radiator 1 through the throttle 8 and from the tank 16 along the hydraulic line 18. From the head of the cylinder block, coolant flows along the hydraulic line 10 to the radiator 1, and along the hydraulic line 17 it flows into the reservoir 16. Depending on the temperature of the coolant in the head and cylinder block, the cooling flow is regulated the pressure fluid coming from the radiator 1, the throttle 8 by turning it with a stepper motor 9. If necessary, lower the temperature of the head and cylinder block, the throttle 8 is installed by the electric motor 9 in such a position that increases the flow rate of the fluid through this valve, that is, more coolant passes through radiator 1.

In case of depressurization of the liquid engine cooling system, for example, in case of failure of the main radiator 1, the on-off valve 11 and the throttle 8 are closed. This ensures the tightness of the rest of the fluid system. In this situation, the function of the main radiator is performed by the cab heating radiator 12. To ensure the circulation of the coolant, the controlled valve 14 is opened, and the pump 3 driven by the electric motor 6 is turned on at partial power. The check valve 13 opens and the coolant enters the radiator 12. Thus, the vehicle is operable.

Claims (7)

1. The circulation system of the liquid coolant in the internal combustion engine of the vehicle, having a liquid pump for supplying coolant to the heat transfer channels of the engine, a main radiator with a fan for cooling the coolant when it arrives from the engine, characterized in that the pump for supplying the coolant to the heat transfer channels of the engine has a stand-alone drive, in a hydraulic line communicating the main radiator with a pump for supplying coolant to the heat transfer channels of the engine, an adjustable choke with a drive a house from a stepper motor, a two-position valve is installed in the hydraulic line communicating the mentioned channels in the engine with the main radiator. 2. The coolant circulation system according to claim 1, characterized in that the pump for supplying the coolant into the engine channels has an independent drive from the electric motor. 3. The coolant circulation system according to claim 1, characterized in that the pump for supplying the coolant into the engine channels has an independent drive from the hydraulic motor. 4. The coolant circulation system according to claim 1, characterized in that the heat exchange channels in the engine are in communication with the heater radiator of the vehicle cabin through a non-return valve and a valve for turning on the coolant supply to the heater radiator. 5. The coolant circulation system according to claim 4, characterized in that it comprises a coolant heater comprising an electric drive pump for pumping the coolant through heat exchange channels in the engine when it is started at low ambient temperature and through the radiator of the vehicle cabin heater with the valve turned on coolant supply to a heater radiator. 6. The coolant circulation system according to claim 5, characterized in that a tray heated by the exhaust gases of the coolant heater is installed under the battery for supplying electric energy to the electric motors. 7. The coolant circulation system according to claim 5, characterized in that heat exchange means with a compressor for supplying compressed air to the vehicle’s brake system are located in the hydraulic line of the coolant passage from the heater.

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