Vehicle exhaust gas abatement apparatus

The present inventive concept relates to a vehicle exhaust gas abatement apparatus. The vehicle exhaust gas abatement apparatus includes: an exhaust gas discharging unit having an exhaust gas discharging pass which is formed on one side thereof and along which an exhaust gas generated from an engine of a vehicle is discharged; a catalytic converter connected to a rear end of the exhaust gas discharging unit along a direction in which the exhaust gas is discharged and removing harmful components in the exhaust gas using a catalyst; and a surface combustion unit coupled to one side of the exhaust gas discharging unit and heating an inner portion of the exhaust gas discharging unit so that the exhaust gas is heated to an activation temperature or higher of the catalyst and then arrives at the catalytic converter.

TECHNICAL FIELD

The present inventive concept relates to a vehicle exhaust gas abatement apparatus, and more particularly, to a vehicle exhaust gas abatement apparatus capable of contributing to preventing air and environmental pollution because it may effectively remove harmful components in an exhaust gas and then discharging the exhaust gas at the initial stage of start by significantly reducing an activation temperature arrival time of a catalyst unlike a conventional electric heating manner and an exhaust gas discharging unit itself may directly combust the exhaust gas to abate a predetermined amount of harmful components and smoke in the exhaust gas in advance and then move the exhaust gas to a catalytic converter, and significantly improving practical utilization because it may be easily applied to any place due to a compact and efficient structure.

BACKGROUND ART

Recently, as vehicles increase in downtown areas, it has been reported that an exhaust gas generated from vehicle engines is a main cause of air pollution.

Particularly, because a large amount of harmful components such as CO, HC, and NOx, which are harmful to a human body, are contained the exhaust gas emitted from the vehicle engine (hereinafter referred to as an engine), in a case where the exhaust gas is discharged as it is, air pollution is caused.

Therefore, recently, a technology for removing the harmful components in the exhaust gas by installing a catalytic converter on one side of an exhaust pipe of the vehicle has been suggested.

In a vehicle in which the catalytic converter is used, a catalyst should be activated in order to perform its function, that is, a function of removing the harmful components in the exhaust gas. It has been known that an activation temperature of the catalyst is approximately 300 to 400° C. or higher.

Meanwhile, in a case where the vehicle is driving, a temperature of the exhaust gas is much higher than the above-described activation temperature of the catalyst, and an operation of removing the harmful components of the exhaust gas by the catalyst may be performed well.

However, at the initial stage of start of the engine, that is, in a so-called cold state, the temperature of the exhaust gas is low and a cylinder head and an exhaust manifold are also cooled, such that a predetermined time cannot but be required for the catalyst to be heated by the discharged exhaust gas to arrive at the activation temperature, and the operation of removing the harmful components of the exhaust gas by the catalyst cannot be performed at all during this time. Therefore, the exhaust gas containing the harmful components cannot but be inevitably discharged into the atmosphere as it is. It has been reported that more than 95% of hydrocarbon compounds are discharged at the initial stage of the start in fact.

Therefore, in order to solve such a problem, an electric heating-type catalytic converter as illustrated inFIG. 1has been suggested.

In a catalytic heating-type catalytic converter ofFIG. 1, catalysts2may be heated in advance by using electric heat plates6and7in the vicinity of the catalysts2. The electric heat plates6and7allow the catalysts2to be able to be heated in advance while generating heat by electricity.

However, since this manner is a manner of disposing the electric heat plates6and7in the vicinity of the catalysts2and heating the catalysts2by the electricity, it is difficult to shorten a heating time required to heat the catalysts2and a practical effect is not high due to a limitation of an electric capacity of the vehicle. Considering such a situation, there is a need to develop a technology for a vehicle exhaust gas abatement apparatus of a new concept that has not been known in the related art.

Related art documents related to the technical field of the present inventive concept include Korean Patent Application No. 10-1997-0062345, Korean Patent Application No. 10-2003-0070728, Korean Utility Model No. 20-1993-0028110, and Korean Utility Model No. 20-2002-0008298.

DISCLOSURE

Technical Problem

An object of the present inventive concept is to provide a vehicle exhaust gas abatement apparatus capable of contributing to preventing air and environmental pollution because it may effectively remove harmful components in an exhaust gas and then discharging the exhaust gas at the initial stage of start by significantly reducing an activation temperature arrival time of a catalyst unlike a conventional electric heating manner and an exhaust gas discharging unit itself may directly combust the exhaust gas to abate a predetermined amount of harmful components and smoke in the exhaust gas in advance and then move the exhaust gas to a catalytic converter, and significantly improving practical utilization because it may be easily applied to any place due to a compact and efficient structure.

Further, another object of the present inventive concept is to provide a vehicle exhaust gas abatement apparatus capable of abating harmful components and smoke contained in an exhaust gas.

Technical Solution

In order to accomplish the above objects, there is provided a vehicle exhaust gas abatement apparatus including: an exhaust gas discharging unit having an exhaust gas discharging pass which is formed on one side thereof and along which an exhaust gas generated from an engine of a vehicle is discharged; a catalytic converter connected to a rear end of the exhaust gas discharging unit along a direction in which the exhaust gas is discharged and removing harmful components in the exhaust gas using a catalyst; and a surface combustion unit coupled to one side of the exhaust gas discharging unit and heating an inner portion of the exhaust gas discharging unit so that the exhaust gas is heated to an activation temperature or higher of the catalyst and then arrives at the catalytic converter.

The surface combustion unit may be a fuel-type surface combustion unit heating an inner portion of the exhaust gas discharging unit by heat of a flame via a fuel.

The exhaust gas discharging unit may include: a discharging housing portion which has a pipe shape and forms a place where the fuel-type surface combustion unit is coupled; and an engine connection portion which is coupled to one side of the discharging housing portion and is connected to the engine.

The exhaust gas discharging unit may further include an inner partition wall portion which is disposed inside the discharging housing portion in a radial direction with a spaced interval interposed between the inner partition wall portion and the discharging housing portion and has a pipe shape.

The exhaust gas discharging unit may further include a mixing duct portion which is coupled to the other side of the discharging housing portion and is connected to the catalytic converter and in which the exhaust gas and the heat by the flame are mixed with each other.

The fuel-type surface combustion unit may include: a unit body portion which is coupled to the discharging housing portion so as to surround the discharging housing portion in an open portion of the discharging housing portion and has an inner portion forming an empty space portion; and a supply connector which includes a fuel supply unit supplying a fuel and an air supply unit supplying air to be mixed with the fuel and is coupled to the unit body portion to supply the fuel and the air to the space portion in the unit body portion.

The fuel-type surface combustion unit may include: at least one distribution guide which is provided in the space portion in the unit body portion and distributes and guides the fuel and the air directed to the space portion; a surface combustion mat which is disposed in an opening portion of the unit body portion in contact with the discharging housing portion; and an ignition module which is provided on one side of the unit body portion and allows the surface combustion mat to ignite.

The vehicle exhaust gas abatement apparatus may further include: an engine start sensor sensing whether or not the engine is started; and a controller controlling an operation of the surface combustion unit based on a sensing signal of the engine start sensor.

The vehicle exhaust gas abatement apparatus may further include a timer connected to the controller and setting an operation time of the surface combustion unit, wherein the fuel is selected from methane, butane, propane, a self-fuel.

Advantageous Effects

According to the present inventive concept, it is possible to contribute to preventing air and environmental pollution because a vehicle exhaust gas abatement apparatus may effectively remove harmful components in an exhaust gas and then discharging the exhaust gas at the initial stage of start by significantly reducing an activation temperature arrival time of a catalyst unlike a conventional electric heating manner and an exhaust gas discharging unit itself may directly combust the exhaust gas to abate a predetermined amount of harmful components and smoke in the exhaust gas in advance and then move the exhaust gas to a catalytic converter and significantly improve practical utilization because the vehicle exhaust gas abatement apparatus may be easily applied to any place due to a compact and efficient structure.

DETAILED DESCRIPTION

Advantages and features of the present inventive concept and methods accomplishing them will become apparent from embodiments described below in detail with reference to the accompanying drawings.

However, the present inventive concept is not limited to embodiments set forth herein, but will be modified in various different forms.

In the present specification, the present embodiment may be provided so that the present disclosure will be thorough and complete and will fully convey the scope of the invention to those skilled in the art to which the present inventive concept pertains. In addition, the present inventive concept is only defined by the scope of the claims.

Therefore, in some embodiments, well-known components, well-known operations, and well-known technologies will not be described in detail in order to avoid obscure interpretation of the present inventive concept.

The same reference numerals denote the same components throughout the specification. In addition, terms used (mentioned) in the present disclosure are for describing embodiments rather than limiting the present inventive concept.

In the present specification, a singular form includes a plural form unless explicitly stated otherwise. In addition, components and operations (actions) mentioned by terms ‘include (or comprise)’ do not exclude the presence or addition of one or more other components and operations.

Unless defined otherwise, all terms (including technical and scientific terms) used in the present specification may be used as meanings that may be commonly understood by those skilled in the art to which the present inventive concept pertains.

In addition, terms defined in generally used dictionaries are not ideally or excessively interpreted unless they are defined.

Hereinafter, embodiments of the present inventive concept will be described with reference to the accompanying drawings.

FIG. 2is a view illustrating a structure of a vehicle exhaust gas abatement apparatus according to a first embodiment of the present inventive concept,FIG. 3is an enlarged view of main portions ofFIG. 2, andFIG. 4is a control block diagram ofFIG. 2.

Referring toFIGS. 2 to 4, the vehicle exhaust gas abatement apparatus according to the present embodiment may contribute to preventing air and environmental pollution because it may effectively remove harmful components in an exhaust gas and then discharge the exhaust gas at the initial stage of start by significantly reducing an activation temperature arrival time of a catalyst unlike a conventional electric heating manner, and significantly improve practical utilization because it may be easily applied to any place due to a compact and efficient structure.

The vehicle exhaust gas abatement apparatus according to the present embodiment capable of providing such an effect may include an exhaust gas discharging unit110, a catalytic converter130, and a surface combustion unit140.

The exhaust gas discharging unit110forms a place where an exhaust gas generated from an engine of a vehicle is discharged. Therefore, an exhaust gas discharging path111along which exhaust gas is discharged is formed in the exhaust gas discharging unit110. One end portion of the exhaust gas discharging unit110may be connected to an engine as illustrated inFIG. 2.

The exhaust gas discharging unit110includes a discharging housing portion121and an engine connection portion122. The discharging housing portion121and the engine connection portion122may be flange-coupled to each other together with a mixing duct portion125, and a coupling or decoupling operation thereof may become easy. Therefore, installation and maintenance may become easy.

The discharging housing portion121has a pipe shape. The discharging housing portion121forms a place where the surface combustion unit140is coupled. One side of the discharging housing portion121to which the surface combustion unit140is coupled is opened.

An inner partition wall portion123is provided inside the discharging housing portion121. The inner partition wall portion123is a pipe-shaped structure disposed inside the discharging housing portion121in a radial direction with a spaced interval124interposed between the inner partition wall portion123and the discharging housing portion121, and serves to prevent a flame due to the exhaust gas.

The engine connection portion122is a kind of pipe coupled to one side of the discharging housing portion121and connected to the engine. The engine connection portion122is formed to be larger than a diameter of the inner partition wall portion123. The exhaust gas discharging path111refers to an internal space of the engine connection portion122and the inner partition wall portion123.

In the present embodiment, the exhaust gas discharging unit110further includes the mixing duct portion125. The mixing duct portion125is a portion coupled to the other side of the discharging housing portion121and connected to the catalytic converter130, and forms a place where the exhaust gas and heat by the flame may be secondarily mixed with each other and then directed to the catalytic converter130.

As described later in detail, in a case of the present embodiment, the exhaust gas is directed to the mixing duct portion125while primarily temperature-rising by the surface combustion unit140, is completely mixed by the heat in the mixing duct portion125, and is then discharged to the catalytic converter130. Therefore, it is possible to effectively remove harmful components in the exhaust gas even in initial start. Since a temperature of the mixing duct unit125is actually 300 to 400° C. or higher, that is, 400° C. or higher, which is an activation temperature of a catalyst, it may be very helpful in activating the catalyst of a rear end.

The catalytic converter130is a device connected to a rear end of the exhaust gas discharging unit110along a direction in which the exhaust gas is discharged, and serves to remove the harmful components in the exhaust gas using the catalyst. A general catalytic converter may be used as the catalytic converter130as it is.

Meanwhile, the surface combustion unit140is coupled to one side of the exhaust gas discharging unit110, and serves to combust a surface of the exhaust gas discharging unit110so that the exhaust gas may be heated to the activation temperature or higher of the catalyst before arriving at the catalytic converter130.

In the present embodiment, a fuel-type surface combustion unit140combusting the surface of the exhaust gas discharging unit110by heat of a flame via a fuel is used as the surface combustion unit140.

Therefore, the present embodiment is different from the related art ofFIG. 1that uses an electric heating method, and a time required for heating the exhaust gas at the time of initial start may be significantly shortened as compared with the related art. Therefore, it is possible to prevent a phenomenon in which the harmful components of the exhaust gas are discharged into the atmosphere as they are due to the deactivation of the catalyst as in the related art.

The fuel-type surface combustion unit140may include a unit body portion141and a supply connector143.

The unit body portion141is a cylindrical structure coupled to the discharging housing portion121so as to surround the discharging housing portion121in an open portion of the discharging housing portion121. An inner portion of the unit body portion141forms an empty space portion142.

The supply connector143includes a fuel supply unit144supplying a fuel and an air supply unit145supplying air to be mixed with the fuel and is coupled to the unit body portion141to serve to supply the fuel and the air to the space portion142in the unit body portion141.

The fuel supplied to the unit body portion141by the fuel supply unit144of the supply connector143may be a gas such as methane, butane, or propane, and it may be considered to use a cartridge containing the gas in order to supply such a gas fuel.

However, a self-fuel, for example, diesel in a case of a diesel vehicle may be used as fuel, and all of these matters should fall within the scope of the present inventive concept.

Meanwhile, a distribution guide146, a surface combustion mat150, and an ignition module147may be provided in the unit body portion141.

The distribution guide146is provided in the space portion142in the unit body portion141and serves to distribute and guide the fuel and the air directed to the space portion142through the supply connector143.

In other words, the fuel and the air may be guided while spreading to the entire region of the space portion142in the unit body portion141due to the distribution guide146. Therefore, surface combustion in a large area may become possible, and it is very helpful in heating and discharging the exhaust gas in advance.

The surface combustion mat150is a mat disposed in an opening portion of the unit body portion141in contact with the discharging housing portion121, and forms a place where a flame is substantially generated.

Since the surface combustion mat150is disposed along a circumference of the discharging housing portion121like a pipe and the flame is generated in the surface combustion mat150, efficiency of heating the discharged exhaust gas may be improved.

The ignition module147is a device provided on one side of the unit body portion141and allowing the surface combustion mat150to ignite. The ignition module147may be remotely operated.

Meanwhile, the vehicle exhaust gas abatement apparatus100according to the present embodiment further includes an engine start sensor161and a controller180.

The engine start sensor161is a kind of sensor sensing whether or not the engine is started. In addition, the controller180controls an operation of the fuel-type surface combustion unit140based on a sensing signal of the engine start sensor161.

The controller180performing such a role may include a central processing unit (CPU)181, a memory182, and a support circuit183.

The central processing unit181is one of various computer processors capable of being industrially applied in order to control the operation of the fuel-type surface combustion unit140based on the sensing signal of the engine start sensor161in the present embodiment.

The memory182is connected to the central processing unit181. The memory182may be installed at a local place or a remote place as a computer-readable recording medium, and may be at least one or more readily available memories such as random access memory (RAM), a read only memory (ROM), a floppy disk, a hard disk, or any digital storage form.

The support circuit183is coupled to the central processing unit181to support a typical operation of the processor. The support circuit183may include a cache, a power supply, a clock circuit, an input/output circuit, a subsystem, and the like.

In the present embodiment, the controller180controls the operation of the fuel-type surface combustion unit140based on the sensing signal of the engine start sensor161, and such a series of control processes or the like may be stored in the memory182. Typically, a software routine may be stored in memory182. The software routine may also be stored or executed by other central processing units (not illustrated).

It has been described that the processes according to the present inventive concept are executed by the software routine, but at least some of the processes according to the present inventive concept may also be performed by hardware. As such, the processes according to the present inventive concept may be implemented by software executed on a computer system, be implemented by hardware such as an integrated circuit, or be implemented by a combination of software and hardware.

Hereinafter, an action of the vehicle exhaust gas abatement apparatus according to the present embodiment will be described.

A driver starts the engine. In this case, the engine start sensor161senses whether or not the engine is started and transmits information to the controller180, and the controller180controls the fuel-type surface combustion unit140to be operated.

When the fuel-type surface combustion unit140is operated by the control of the controller180, the fuel and the air are supplied through the supply connector143, and the flame is generated in the surface combustion mat150by an action of the ignition module147, such that the exhaust gas discharged along the exhaust gas discharging path111may be heated.

As such, the exhaust gas heated and temperature-rising by the fuel-type surface combustion unit140is directed to the mixing duct portion125, is completely mixed again by the heat in the mixing duct portion125, and is then directed to the catalytic converter130, such that the harmful components in the exhaust gas may be removed by a catalytic action of the catalytic converter130. Particularly, even in the initial start, the harmful components in the exhaust gas may be effectively removed.

As described above, the catalyst may remove the harmful components in the exhaust gas while being activated only when a temperature of the catalyst rises. In the related art, it takes tens of seconds or more to activate the catalyst, but in a case of the present embodiment, it takes about several seconds to activate the catalyst, and it is thus possible to provide a more excellent effect in removing the harmful components in the exhaust gas.

Particularly, in the case of the present embodiment, it is possible to provide a more excellent effect in removing the harmful components in the exhaust gas at the initial stage of the start of the engine.

According to the present embodiment having the structure and the action as described above, it is possible to contribute to preventing air and environmental pollution because the vehicle exhaust gas abatement apparatus may effectively remove the harmful components in the exhaust gas and then discharge the exhaust gas at the initial stage of start by significantly reducing an activation temperature arrival time of the catalyst unlike a conventional electric heating manner and the exhaust gas discharging unit110itself may directly combust the exhaust gas to abate a predetermined amount of harmful components and smoke in the exhaust gas in advance and then move the exhaust gas to the catalytic converter130, and to significantly improve practical utilization because the vehicle exhaust gas abatement apparatus may be easily applied to any place due to a compact and efficient structure.

FIG. 5is a control block diagram of a vehicle exhaust gas abatement apparatus according to a second embodiment of the present inventive concept.

Referring toFIG. 5, also in a case of the present embodiment, a controller280controls an operation of the fuel-type surface combustion unit140based on a sensing signal of the engine start sensor161. An operation of the controller280is the same as that of described above.

However, in the case of the present embodiment, a timer240is attached to the controller280. The timer240serves to set an operation time of the fuel-type surface combustion unit140.

That is, considering that the fuel-type surface combustion unit140needs to be operated only at the time of the initial start of the engine and needs not be operated while the vehicle is driving, for example, if the timer240is set to 30 seconds, the fuel-type surface combustion unit140is operated only for 30 seconds at the time of the initial start of the engine, and may be automatically turned off subsequently. Therefore, it is possible to prevent a phenomenon in which the fuel-type surface combustion unit140is unnecessarily continuously operated.

Even though the present embodiment is applied, it is possible to contribute to preventing air and environmental pollution because the vehicle exhaust gas abatement apparatus may effectively remove the harmful components in the exhaust gas and then discharge the exhaust gas unlike a conventional electric heating manner and to significantly improve practical utilization because the vehicle exhaust gas abatement apparatus may be easily applied to any place due to a compact and efficient structure.

FIG. 6is an enlarged view of main portions of a vehicle exhaust gas abatement apparatus according to a third embodiment of the present inventive concept.

Referring toFIG. 6, the vehicle exhaust gas abatement apparatus according to the present embodiment may also include an exhaust gas discharging unit310, a catalytic converter130(seeFIG. 2), and a fuel-type surface combustion unit140, which have the same structures and functions as those of the embodiment described above.

However, in a case of the present embodiment, a plurality of air vents323aare formed in an inner partition wall portion323, which is one component of the exhaust gas discharging unit310, and even though the plurality of air vents323aare formed in the internal partition wall portion323, it is possible to provide an effect of the present inventive concept.

That is, even though the present embodiment is applied, it is possible to contribute to preventing air and environmental pollution because the vehicle exhaust gas abatement apparatus may effectively remove the harmful components in the exhaust gas and then discharge the exhaust gas unlike a conventional electric heating manner and to significantly improve practical utilization because the vehicle exhaust gas abatement apparatus may be easily applied to any place due to a compact and efficient structure.

As described above, it is obvious to those skilled in the art that the present inventive concept is not limited to the embodiments described above, but may be variously modified and altered without departing from the spirit and scope of the present inventive concept. Therefore, such modifications or variations are to belong to the claims of the present inventive concept.