JPH0537521U - Heat storage heating system for automobiles - Google Patents

Abstract

(57) [Summary] [Purpose] The inside of the vehicle can be heated even when the engine is stopped. [Structure] In a cooling water circulation circuit 3 connecting a water-cooled engine 1 and a radiator 2 for radiating cooling water, a first radiator circulation circuit 6 leading to a first radiator 5 for heating the vehicle interior is provided. The first heat radiator circulation circuit 6 is provided with the heat exchanger circulation circuit 14 that reaches the heat storage tank 9 via the three-way valve 7, and the second heat radiator circulation circuit 14 extends from the heat storage tank 9 to the second radiator 11 for heating the vehicle interior. The radiator circulation circuit 12 is provided, and the inside of the vehicle is heated by natural convection in the second radiator circulation circuit 12 by utilizing the difference in water temperature of circulating water.

Description

[Detailed description of the device]

[0001]

[Industrial applications]

 The present invention relates to a heat storage type heating device for an automobile.

[0002]

[Prior Art]

 Conventionally, when the engine is running, the cooling water (hot water) is stored as latent heat in the heat storage tank, and when heating the interior of the vehicle immediately after engine start and in cold regions, the latent heat is discharged from the heat storage tank and the cooling water is heated and circulated. Then perform rapid heating.

[0003]

[Problems to be solved by the device]

 However, the above-described method has a disadvantage that the heat in the heat storage tank cannot be taken out when the engine is stopped and the inside of the vehicle cannot be heated. Therefore, the present invention makes it possible to heat the inside of the vehicle even when the engine is stopped.

[0004]

[Means for Solving the Problems]

 According to the present invention, there is provided a vehicle heating device including a cooling water circulation circuit connecting a water-cooled engine and a radiator for cooling cooling water, and a first radiator circulation circuit leading to a first radiator for in-vehicle heating. A heat exchanger circulation circuit from the first radiator circulation circuit to a heat storage tank via a three-way valve and a second radiator circulation circuit from the heat storage tank to a second radiator for heating the vehicle interior In the device, when the electromagnetic valve of the second radiator circulation circuit is released, latent heat is released from the heat storage tank, and when the cooling water (hot water) is circulated in the second radiator circulation circuit, the difference in water temperature is used. Heating is performed by natural convection.

[0005]

[Action]

 In the vehicle heat storage type heating device of the present invention configured as described above, the heat of the cooling water (hot water) is stored as latent heat in the heat storage tank while the engine is being driven, and when the engine is stopped, the heat is not transferred to the heat storage tank. When the solenoid valve is opened, the latent heat stored in the heat storage tank is released, and when the cooling water (hot water) is circulated in the second radiator circulation circuit, it is naturally convected by the use of the difference in water temperature level for heating. ..

[0006]

【Example】

 FIG. 1 is a block diagram of the device of the present invention. The water-cooled engine 1 and the radiator 2 for heat radiation form a cooling water circulation circuit 3 via a circulation pump 4. On the other hand, a first radiator circulation circuit 6 extending from the cooling water circulation circuit 3 to the first radiator 5 for heating the vehicle interior is formed. A heat exchanger 8 is arranged in the first radiator circulation circuit 6 via a three-way valve 7 to form a heat exchanger circulation circuit 14. A heat exchanger 10 is installed with a heat storage tank 9 sandwiched between the heat exchanger 8 and a second radiator circulation circuit 12 extending from the heat exchanger 10 to a second radiator 11 for heating the interior of the vehicle. It is formed via the valve 13. Heat is stored when the engine is running. At this time, the solenoid valve 13 is closed. The cooling water (warm water) warmed by the engine 1 circulates in the first radiator circulation circuit 6 and the heat exchanger circulation circuit 14, and the cooling water heat-exchanged in the radiator 5 and the heat exchanger 8 is Return to engine 1. When the heat storage tank 9 has sufficiently stored heat, the three-way valve 7 is controlled to close the heat exchanger circulation circuit 14 to the heat exchanger 8. For heating when the engine is stopped, the heat released from the heat storage tank 9 is heat-exchanged by the heat exchanger 10, the warmed cooling water (hot water) is radiated by the radiator 11, and the cooled cooling water is the second It circulates through the radiator circulation circuit 12 and returns to the heat exchanger 10. The above circulation is performed by natural convection utilizing the difference in water temperature.

[0007]

[Effect of the device]

 According to the present invention, heating is possible when the engine is stopped, and the engine is not driven, which is very economical.

[Brief description of drawings]

FIG. 1 is a configuration diagram showing an embodiment of the present invention.

[Explanation of symbols]

 1 Water-cooled engine 2 Radiator for heat radiation 3 Cooling water circulation circuit 4 Circulation pump 5 First radiator 6 First radiator circulation circuit 7 Three-way valve 8 Heat exchanger 9 Heat storage tank 10 Heat exchanger 11 Second radiator 12 Second radiator circulation circuit 13 Solenoid valve 14 Heat exchanger circulation circuit

Claims (1)

[Scope of utility model registration request] 1. An interior heating system having a first radiator circulation circuit from a cooling water circulation circuit connecting a water-cooled engine and a radiator for cooling cooling water to a first radiator for heating the interior of the vehicle. In the device, a heat exchanger circulation circuit from the first radiator circulation circuit to a heat storage tank via a three-way valve and a second radiator circulation circuit from the heat storage tank to a second radiator for vehicle interior heating are provided. Equipped with heat storage type heating device for automobiles.