KR101091322B1 - Generating Apparatus of Oxygen for Truck - Google Patents

Abstract

The present invention relates to an oxygen generating device for a small truck, and more particularly to an oxygen generating device for a small truck to allow oxygen to be supplied to the interior of the cabin to prevent drowsy driving of many long-distance driving truck drivers.

The present invention described above,

A vacuum tank in which a vacuum pressure is formed;

An oxygen separation module that connects the vacuum tank to pipe to allow external air to flow by the vacuum pressure generated therein, and separates oxygen contained in the air;

It is connected to the oxygen separation module and the pipe oxygen supply unit for supplying oxygen into the vehicle cabin; provides an oxygen generator for a truck comprising a.

Description

Generating Apparatus of Oxygen for Truck}

The present invention relates to an oxygen generating device for a small truck, and more particularly to an oxygen generating device for a small truck to allow oxygen to be supplied to the interior of the cabin to prevent drowsy driving of many long-distance driving truck drivers.

In general, heavy and heavy truck drivers often travel long distances, and fatigue is accumulated due to repeated long distance driving, and sleep deprivation caused by long hours of driving at night causes driver drowsiness.

 At this time, supplying oxygen improves physical and mental abilities, and can feel a pleasant environment.

Therefore, it is necessary to ventilate the indoor air of the vehicle for comfort and safe operation of the indoor environment of the vehicle.

In general, when driving for a long time, carbon dioxide and external polluted air generated during respiration are introduced into the room, thereby making the indoor air of the vehicle cloudy.

In this way, when the indoor air becomes cloudy, the driver becomes sleepy due to lack of oxygen, which hinders safe driving.In order to prevent this, the window of the vehicle is ventilated to ventilate the indoor air, but dust, dust, pollen, and soot are not helpful. On the other hand, a method of using an air purifier indoors has also been proposed, but it is insufficient to prevent drowsiness.

As disclosed in Korean Patent Laid-Open Publication No. 1998-62493 for the purpose of ventilating the indoor air of a vehicle, the indoor oxygen concentration of the vehicle is sensed so that the window of the vehicle is opened below a certain concentration to purify the outside air to the interior. However, this method may cause heat loss during operation of the air conditioner or the heater, and when the air outside the vehicle is contaminated, the contaminants may be directly introduced into the room.

In Korean Utility Model Publication No. 1998-039143, an oxygen tank is provided in a vehicle, and oxygen is supplied from the oxygen cylinder when the oxygen concentration in the vehicle interior decreases, so it may be troublesome to replace the oxygen cylinder after a certain time. In addition, there is a problem such as when all the oxygen in the oxygen tank is consumed during the operation of the car.

In order to solve this problem, a method of supplying oxygen with an electrolysis device inside a vehicle is disclosed in Korean Utility Model Publication No. 1999-012114, but in the treatment of highly explosive hydrogen generated during electrolysis of water, There is a problem, such as requiring a high voltage current.

The present invention is to solve the problems as described above, the object of the oxygen in the air from the outside air by using the vacuum pump and the vacuum pump which is generally provided in the truck to prevent drowsy driving of long-distance drivers After the separation is easy to supply the oxygen to the interior of the vehicle.

In order to solve the above-mentioned problems,

A vacuum tank in which a vacuum pressure is formed;

An oxygen separation module that connects the vacuum tank to pipe to allow external air to flow by the vacuum pressure generated therein, and separates oxygen contained in the air;

It is connected to the oxygen separation module and the pipe oxygen supply unit for supplying oxygen into the vehicle cabin; provides an oxygen generator for a truck comprising a.

In addition, the vacuum tank is connected to a vacuum pump provided in the truck, characterized in that the vacuum pressure generated in the vacuum pump is provided.

In addition, the oxygen separation module is characterized in that the zeolite is embedded to adsorb the remaining components except oxygen contained in the air.

In addition, the components adsorbed in the oxygen separation module is discharged through the discharge pipe formed in the vacuum pump via the vacuum tank by the vacuum pressure.

In addition, the discharge pipe of the vacuum pump is connected to the oil pan of the vehicle is characterized in that the components adsorbed in the oxygen separation module is introduced into the oil pan and sucked into the engine through the blow-by pipe.

In addition, the front end of the air passage introduced into the oxygen separation module 140 is characterized in that the air filter 170 for filtering the foreign matter contained in the air is installed.

According to the present invention, by continuously receiving the vacuum air through the vacuum pump and the vacuum tank already provided in the truck to simply form a vacuum pressure to separate the oxygen from the air sucked from the outside into the interior of the cabin By supplying a unique effect of reducing driver fatigue and preventing drowsiness.

In addition, the present invention is simple in the principle of generating oxygen, it is possible to reduce the cost by utilizing the device in the existing truck to the maximum.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram showing the configuration of a truck oxygen generator according to the present invention.

As shown in FIG. 1, the oxygen generator for a truck according to the present invention includes a vacuum tank 110, an oxygen separation module 120, and an oxygen discharge unit 130.

The vacuum tank 110 is a container in which vacuum air is stored to create a vacuum pressure, and commercial vehicles such as a small truck of about 2 to 3 tons have a throttle valve in a gasoline vehicle, so that the vacuum power of the brake device is increased. In order to generate and use a separate vacuum pressure, the vacuum tank 110 is generally provided.

Here, the vacuum tank 110 is pneumatically connected to the vacuum pump 101 provided in the truck for generating a vacuum pressure, the predetermined vacuum pressure (for example about 40 ~ 50 cmHg) in the vacuum pump 101 Receives and stores the generated air in the vacuum state.

Therefore, the vacuum tank 110 is always stored in a vacuum state of maintaining a constant pressure, and when the vacuum pressure of the vacuum tank 110 is used, the vacuum pressure in the vacuum pump 101 by the decrease amount It is generated and refilled in the vacuum tank 110.

On the other hand, the oxygen separation module 120 is pneumatically connected to the vacuum tank 110, so that the outside air flows by the vacuum pressure formed in the oxygen separation module 120, the outside air is to be introduced The outside air inlet pipe 140 is formed in the oxygen separation module 120 to be able to.

That is, a vacuum pressure is formed in the oxygen separation module 120 by the connection with the vacuum tank 110, and the air in the air is sucked in through the outside air inlet pipe 140 under the influence of the vacuum pressure.

At this time, it is preferable that an air filter 150 is installed at the front end of the air passage that flows into the oxygen separation module 120, that is, the outside air inlet pipe 140, so that foreign substances contained in the atmosphere are filtered.

When the air is introduced into the oxygen separation module 120 as described above, the oxygen separation module 120 separates oxygen contained in air. For this purpose, zeolite is embedded in the oxygen separation module 120.

The zeolite adsorbs the remaining components (most of which are nitrogen most) except oxygen only among the components contained in the air.

When the zeolite adsorbs the remaining components except oxygen, the adsorbed components may be introduced into the vacuum tank 110 by the vacuum pressure of the vacuum tank 110 and then discharged into the atmosphere.

In addition, when the vacuum pump 101 is connected to the vacuum tank 110, the components adsorbed to the zeolite in the oxygen separation module 120 is passed through the vacuum tank 110 by the vacuum pressure to the vacuum pump 101 ) May be discharged into the atmosphere through the discharge pipe 102 formed in the vacuum pump 101.

At this time, the components adsorbed to the zeolite in the oxygen separation module 120 may be released into the air because the main component is nitrogen, but it is possible to reduce the nitrogen oxides by reducing the combustion temperature of the commercial vehicle to be re-suctioned to the engine 105. Can be.

For reference, since a commercial vehicle has a very high compression pressure and an explosion temperature, when a large amount of oxygen is introduced into the combustion chamber, the combustion temperature may be increased to increase the emission of nitrogen oxides. Mixing the components adsorbed on the zeolite can reduce the amount of oxygen relatively, thereby lowering the combustion temperature and thus reducing the nitrogen oxides.

In addition, since the blow-by gas is collected in the oil pan 103 of the vehicle, by allowing the blow-by gas to be re-suctioned into the engine 105, it is possible to improve fuel efficiency and reduce air pollution caused by the blow-by gas. have.

Therefore, the discharge pipe 102 of the vacuum pump 101 is connected to the oil pan 103 of the vehicle, the components adsorbed by the oxygen separation module 120 flows into the oil pan 103, and then the oil pan It is preferable to re-suction into the engine 105 via the blow-by pipe 104 formed in the 103.

On the other hand, the oxygen discharge unit 130 is connected to the oxygen separation module 120 to supply oxygen separated from the oxygen separation module 120 into the vehicle cabin.

Here, the oxygen discharging unit 130 is generally provided in a vehicle and can be used in common with a vent unit for discharging cold or warm air.

As mentioned above, although this invention was demonstrated in detail using the preferable Example, the scope of the present invention is not limited to the specific Example described, and the person of ordinary skill in the art is not limited within the scope of this invention. Substitution and modification of the components are possible, which also belongs to the rights of the present invention.

1 is a block diagram showing the configuration of a small truck oxygen generator according to the present invention.

<Description of the symbols for the main parts of the drawings>

101: vacuum pump 102: discharge pipe

103: oil pan 104: blow-by tube

105: engine 110: vacuum pump

120: oxygen separation module 130: oxygen discharge unit

140: outside air inlet pipe 150: air filter

Claims (6)

A vacuum tank 110 in which a vacuum pressure is formed; An oxygen separation module 120 separating the oxygen contained in the air by connecting the vacuum tank 110 so that external air is introduced by the vacuum pressure generated therein; And an oxygen discharge unit 130 connected to the oxygen separation module 120 to supply oxygen to the vehicle compartment. Zeolite is embedded in the oxygen separation module 120 to adsorb the remaining components except oxygen contained in the air, The components adsorbed by the oxygen separation module 120 are discharged through the discharge pipe 102 formed in the vacuum pump 101 via the vacuum tank 110 by the vacuum pressure, The discharge pipe 102 of the vacuum pump 101 is connected to the oil pan 103 of the vehicle so that the components adsorbed by the oxygen separation module 120 flows into the oil pan 103 and then the blow-by tube 104. Oxygen generator for a small truck, characterized in that the suction through the engine 105. According to claim 1, wherein the vacuum tank 110 is connected to the vacuum pump 101 provided in the truck oxygen generator for a small truck, characterized in that provided with the vacuum pressure generated by the vacuum pump (101). delete delete delete According to claim 1, Oxygen generator for a small truck, characterized in that the air filter 150 for filtering the foreign matter contained in the air is installed at the front end of the air passage introduced into the oxygen separation module 120.

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