KR20060069896A - Cooling apparatus of vehicles - Google Patents

Abstract

The present invention relates to a cooling device of a fuel cell vehicle. To this end, the present invention forcibly circulates a cooling water into the fuel cell stack (10) by using a water pump (20) and then passes through the radiator (30). In the cooling device of a fuel cell vehicle to cool the cooling water to an appropriate temperature by the heat exchange in the 30, the dehumidifying member 40 is provided in front of the radiator 30 to dry the high temperature and dry while passing the outside air; ; A reservoir tank 50 for storing a predetermined amount of water; An injection pump (60) for forcibly pumping water inside the reservoir tank (50); An injection nozzle 70 for spraying water forcedly pumped by the injection pump 60 to the surface of the radiator 30; And a control unit 80 which checks the temperature of the fuel cell stack 10 to operate the injection pump 60 when the temperature of the fuel cell stack 10 is smaller than a set temperature. The driving efficiency is to maintain a stable running performance by improving the cooling efficiency through the radiator 30 even while driving the area having the outside air.

Fuel cell vehicle, fuel cell stack, cooling, heat exchange

Description

Cooling apparatus of vehicles

1 is a structural diagram showing a cooling apparatus in a conventional fuel cell vehicle,

2 is a structural diagram showing a cooling device in a fuel cell vehicle according to the present invention.

※ Explanation of codes for main parts

10: fuel cell stack

20: water pump

30: radiator

40: dehumidification member

50: reservoir tank

60: injection pump

70: spray nozzle

80: control unit

90: outside sensor

100: battery sensor

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a cooling device for a fuel cell vehicle. More particularly, the present invention relates to a cooling device for a fuel cell vehicle. The present invention relates to a cooling device for a fuel cell vehicle that maintains stable running performance by improving cooling water cooling performance in a radiator by heat exchange to absorb heat while vaporizing water contacting the radiator surface by contact with outside air.

In general, a fuel cell is an energy conversion system that generates electric power as part of a chemical reaction between gas and electrolyte of diesel or industrial fuel and converts the chemical energy of the fuel directly into electrical energy. It is a power generation system that can continue to generate electricity as long as fuel is supplied without need.

A fuel cell is a sandwich of an electrolyte and two electrodes stacked together like a sandwich. When oxygen and hydrogen flow into each electrode, electricity, heat and water are produced. It is used as a system for supplying electric power to fields or electric vehicles that are not practically used.

Various fuels such as natural gas, methanol, and gasoline may be used in the fuel cell, and the fuel is reformed into hydrogen using a fuel converter.

As interest in energy efficiency and environmental pollution has increased recently, electric vehicles using fuel cells are expected to replace internal combustion engine vehicles, and reformed liquid fuels such as methanol, ethanol and gasoline according to this trend. Therefore, the development of a fuel converter for a fuel cell vehicle that generates hydrogen and separates only double hydrogen to use as a fuel of a fuel cell is being developed.

Meanwhile, in the fuel cell vehicle, the fuel cell generates driving power by converting the chemical reaction energy of oxygen and hydrogen into electrical energy as described above. In this process, thermal energy is generated by the chemical reaction in the fuel cell.

In this case, it is very important that the fuel cell stack of the fuel cell reacts ideally at a temperature condition of 65 ° C. to 85 ° C. at all times.

FIG. 1 schematically illustrates a cooling apparatus of a conventional fuel cell vehicle. The fuel cell stack 10, which is a driving source in a fuel cell vehicle, includes a water jacket for circulating coolant and a fuel cell stack ( The cooling water of 10 is forcedly circulated by the water pump 20.

The cooling water forcedly pumped by the water pump 20 and circulated through the fuel cell stack 10 is cooled by heat exchange with the outside air while passing through the radiator 30.

However, when the difference between the coolant temperature and the outside air is large, a sufficient cooling effect can be achieved by heat exchange in the radiator 30, but the radiator may be almost free from the heated coolant temperature and the outside air, such as in a tropical or high temperature region. Since the heat exchange at 30 is not performed properly, the temperature at the fuel cell stack 10 is further increased, thereby causing a problem that the chemical reaction efficiency and the vehicle performance in the fuel cell stack 10 are deteriorated.

To this end, it is necessary to increase the heat exchange area in the radiator 30, or contact with more outside air, but in vehicles, there are problems that cause space limitations and safety problems for structural improvement.

In order to solve the above problems, the present invention sprays water from the outside to the radiator while the hot dry air by dehumidification absorbs heat from the radiator through the water sprayed on the radiator surface to effectively cool the cooling water It is an object of the present invention to provide a cooling device for a fuel cell vehicle that can maintain stable performance even in an outdoor condition.

In order to achieve the above object, the present invention provides a cooling device of a fuel cell vehicle for cooling the cooling water by heat exchange while forcibly circulating the cooling water into the fuel cell stack using a warp pump. A dehumidifying member which is provided at the front and which is dried at a high temperature while passing outside air; A reservoir tank for storing a predetermined amount of water; An injection pump forcibly pumping water inside the reservoir tank; An injection nozzle for injecting water forcedly pumped by the injection pump to the surface of the radiator; And checking the temperature of the fuel cell stack so as to be configured as a control unit for operating the injection pump when it is smaller than a set temperature.

When described in more detail with reference to the accompanying drawings a preferred embodiment of the present invention as follows.

2 is a schematic structural diagram showing a cooling apparatus of a fuel cell vehicle according to the present invention, the same reference numerals will be applied to the same configuration as before.

As shown, the fuel cell vehicle of the present invention uses a fuel cell stack 10 as a driving source, and a water jacket is formed in the fuel cell stack 10 to cool the inside while circulating coolant. .

The coolant of the fuel cell stack 10 is forcedly circulated by the water pump 20, and the coolant heated while circulating the fuel cell stack 10 is cooled by heat exchange while passing through the radiator 30.

This series of cooling water circulation structures is about the same as in conventional chillers.

However, the present invention is to provide an additional cooling structure to further cool the cooling water passing through the radiator 30 as shown.

That is, the present invention largely consists of the dehumidifying member 40, the reservoir tank 50, the injection pump 60, the injection nozzle 70, and the control unit 80.

The dehumidifying member 40 is configured to allow high temperature and drying before supplying the outside air supplied to the radiator 30 from the front of the radiator 30 provided in front of the vehicle to the radiator 30.

That is, when outside air is induced from the front of the vehicle, moisture is removed from the outside air so as to be in a high temperature and dry state.

The reservoir tank 50 is a structure which stores a fixed amount of water.

In addition, the injection pump 60 is configured to forcibly pump water stored in the reservoir tank 50.

The injection nozzle 70 is configured to force the water of the reservoir tank 50 to be injected by being forced between the dehumidifying member 40 and the radiator 30 to the surface of the radiator 30.

In other words, water is sprayed onto the surface of the radiator 30 adjacent to the dehumidifying member 40.

The controller 80 is configured to control and control the driving of the injection pump 60. The controller 80 continuously checks the temperature of the fuel cell stack 10 and drives the injection pump 60 when it is determined that the temperature is smaller than the set temperature. .

In the control unit 80, the fuel cell stack 10 is usually ideally reacted at a temperature condition of 65 ℃ ~ 85 ℃ to always maintain this temperature condition.

On the other hand, the control unit 80 checks the temperature signal transmitted from the outside sensor 90 for checking the outside air in front of the radiator 30 and the stack sensor 100 for checking the temperature of the fuel cell stack 10 to check the injection pump ( The operation of 60) is to be interrupted.

Referring to the action according to the above configuration in more detail as follows.

The fuel cell lane of the present invention converts the chemical reaction energy generated in the fuel cell stack 10 into electrical energy to generate a driving force.

At this time, the coolant is circulated in the fuel cell stack 10, and the circulated coolant passes through the radiator 30.

Cooling the cooling water by heat exchange with the outside air while passing through the radiator 30 so that the fuel cell stack 10 is maintained at about 65 ° C. to 85 ° C., which is always favorable for the ideal reaction.

On the other hand, in the tropics or the region where the outside air temperature is high, although the outside air is not a large temperature deviation from the temperature of the fuel cell stack 10, the heat exchange efficiency in the radiator 30 is substantially reduced.

At this time, the temperature of the fuel cell stack 10 and the outside air is checked by the controller 80, and when it is determined that the temperature of the outside air is not large from the temperature of the fuel cell stack 10, the injection pump 60 is immediately driven.

When the injection pump 60 starts to drive, the water filled in the reservoir tank 50 is forcibly fed and sprays water onto the surface of the radiator 30 through the injection nozzle 70.

While spraying water onto the surface of the radiator 30, the sprayed water flows in from the front of the vehicle and passes through the dehumidifying member 40 and begins to vaporize with high temperature and dry outside air.

When water vaporizes on the surface of the radiator 30, since it absorbs considerable heat from the radiator 30, the cooling efficiency of the cooling water passing through the radiator 30 can be greatly improved.

Thus, the coolant heat exchanged by the water vaporized while passing through the radiator 30 becomes a temperature sufficient to cool the fuel cell stack 10 so as to always maintain the ideal temperature conditions to achieve the best engine performance.

As such, the present invention does not achieve sufficient cooling of the coolant by the existing cooling device when the vehicle is operated in an area having high outside air, such as in the tropics, thus spraying water onto the surface of the radiator 30. The water sprayed on the surface of the c) is vaporized by high temperature and dry outside air through the dehumidifying member 40 so as to allow sufficient heat exchange.

As described above, the present invention has a feature that the present invention can be easily applied to an existing vehicle without difficulty in securing safety and in-vehicle space, such as vehicle modification for increasing the area of the radiator or the amount of air flow to improve the cooling performance.

While many details have been specifically described in the above description, they should be construed as illustrative of preferred embodiments rather than as limiting the scope of the invention.

Therefore, the scope of the present invention should not be defined by the described embodiments, but should be determined by the technical spirit described in the claims.

As described above, the present invention is injected while spraying water on the surface of the radiator 30 when driving in a region where the temperature of the outside air is relatively high, particularly in the region where the temperature and temperature variation of the fuel cell stack 10 are small in the fuel cell vehicle. Cooling water that is always cooled to an appropriate temperature in the fuel cell stack 10 by heat exchange of cooling water passing through the inside of the radiator 30 by cooling the radiator 30 while evaporating water by hot and dry outside air supplied from the front of the vehicle. Ensures the best operating performance under ideal temperature conditions.                     

In addition, the present invention provides a very useful effect of maximizing the cooling efficiency by the simplest configuration as possible to provide a convenient and safe application without modification of the interior of the vehicle.

Claims (2)

A fuel that circulates the cooling water into the fuel cell stack 10 using the water pump 20 and then passes through the radiator 30 to cool the cooling water to an appropriate temperature by heat exchange in the radiator 30. In the cooling device of a battery vehicle, A dehumidifying member (40) provided at the front of the radiator (30) for drying at a high temperature while passing outside air; A reservoir tank 50 for storing a predetermined amount of water; An injection pump (60) for forcibly pumping water inside the reservoir tank (50); An injection nozzle 70 for spraying water forcedly pumped by the injection pump 60 to the surface of the radiator 30; And A controller (80) for checking the temperature of the fuel cell stack (10) to operate the injection pump (60) if the temperature is less than a set temperature; Cooling apparatus of a fuel cell vehicle to be made as. The method of claim 1, The controller 80 checks the temperature signal transmitted from the outside sensor 90 for checking the outside air in front of the radiator 30 and the stack sensor 100 for checking the temperature of the fuel cell stack 10. Cooling system of the vehicle.

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